Automobile Seat for Disabled Persons
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to automobile seats and, more particularly, to car seats of the type for assisting a disabled driver or passenger in accommodating himself or herself to and extricating himself or herself from an automobile front seat.
2. Background of the Invention
It is well known that many persons with anatomical problems resulting from arthritis, rheumatism, bodily injury, surgical trauma, low back pain syndrome, sciatica, etc. experience difficulties when attempting to fit themselves into and extricate themselves from seating in an automobile. Spacial constraints including low headroom, projecting controls, steering wheel proximity, and door and window obstructions require bending and twisting contortions by the driver or passenger as he or she fits into or alights from the car seat.
Confronted with such difficulties, a disabled person may be forced to limit or forego automobile travel. Prior constructions designed primarily to assist only paraplegics and other severely impaired drivers generally have been unwieldy and obtrusive in use, as well as unadapted for conco mitant use by normal drivers and passengers. The present invention is a response to difficulties of the type confronting persons with limited or severe impairment.
SUMMARY OF THE INVENTION
The primary object of the present invention is to provide a car seat, primarily either a driver's or front passenger's seat, which accommodates all drivers normally, but which also optionally assists disabled drivers and passengers to fit themselves into and extricate themselves from a front seat of a car. For ease of explanation, a driver's bucket seat behind the steering wheel is illustrated in the drawings and described in the specification. It is to be understood, however, that a passenger's front seat also is contemplated and, in design, is essentially a mirror image of the driver's seat described in detail.
In normal mode, the car seat of the present invention presents seat and back cushions of conventional appearance and comfort. A normal driver or passenger can sit down while facing outwardly through an open door and swing his or her
legs and torso into a normal driving posture facing the windshield. From driving posture, a normal driver or passenger can swing his or her legs and torso around to permit standing up through an open doorway.
In assist mode, the car seat cushion preferably divides into two parts, an outer movable lift cushion that is adjacent to the car door and an inner stationary cushion that is remote from the car door. The lift cushion operates electromechanically under the control of a disabled driver or passenger between an extended position and a retracted position. It provides a seat that gently controls the anatomy of the disabled driver or passenger between standing and sitting postures at the open door. When in retracted position, it permits the disabled driver or passenger to swing his or her legs and torso between forward and sideward orientations.
Preferably, the configuration of the seat cushion as a whole is contoured to present a slight trough at the forward edge which tends to retain the torso of the driver in forward orientation. The side of the lift cushion at the doorway is rounded to enable the driver or passenger to glide into successive postures as it extends or retracts. The arrangement is such that the mechanism for extending and retracting the lift cushion is retained within the automobile when its associated door is closed.
Other objects of the present invention will in part be obvious and will in part appear hereinafter.
BRIEF DESCRIPTION OF THE DRAWINGS
For a fuller understanding of the nature and objects of the present invention, reference is made to the accompanying drawings, wherein:
Fig. 1 is a front view, partly broken away and partly in phantom, to show operation of the car seat of the present invention;
Fig. 2 is a top plan view of the car seat of Fig. 2, partly broken away;
Fig. 3 is a perspective view of the mechanism for extending and retracting the lift cushion;
Fig. 3a is a block diagram of the electrical control system;
Figs. 4, 5, 6 and 7 illustrate the operation of the illustrated embodiment;
Fig. 8 is a front view of an alternative embodiment; and
Fig. 9 is an exploded view of a component of the embodiment of Fig. 8.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The illustrated embodiment, as shown in Figs. 1 and 2, is a driver's seat 20 comprising a seat cushion assemblage 22, a
back cushion 24 and a head cushion 26. Seat cushion assemblage 22 and back cushion 24 are carried by a frame, the base of which is shown at 25 and the back of which (not shown) projects upwardly into back cushion 24. Back cushion 24 and head cushion 26 are of conventional design. Head cushion 26 is carried at the upper end of a mounting plate 28 which projects into a guide (not shown) at the top of the upright part of the frame within back cushion 24, by which its height is adjustable.
Seat cushion assemblage 22 includes a stationary cμshion 30 and a lift cushion 32. Lift cushion 32 is constrained for movement between a retracted position, as at 34, and an extended position, as at 36. When lift cushion 32 is retracted, it presents, together with stationary cushion 30, a composite cushion assemblage with contours that comfortably seat both regular and disabled drivers. The profile across the front of the composite cushion assemblage, as seen in Fig. 1, is a trough, the center of which is somewhat lower than the opposed sides of the stationary cushion and the lift cushion.
As shown in Fig. 3, the mechanism for carrying the lift cushion between its extreme positions 34 and 36 includes a curved cantilever slide 38 which is welded to an L-shaped bracket at its outer extremity for supporting the lift cushion. Movement of cantilever slide 38 is constrained at its opposed edges by pairs of opposed rollers 40, 42 and 44,
46, which have outer collars 48 for laterally retaining slide 38. Midway between the edges of slide 38 is affixed an arcuate rack 50 which is driven through a gear 52 by a pinion 54. Pinion 54 is mounted on the shaft of an electric motor 56 that is controlled by a circuit generally shown at 58 in Fig. 3a. Rollers 40, 42, 44, 46, gearing 52, 54 and motor 56 are mounted on a bracket construction 59 that is secured to base 25.
As shown in Fig. 1, the point 66 about which slide 38 orbits is the center of a radius R. The theoretical location of this center is in the vicinity of and somewhat below the shoulder and toward the center of the car with respect to the driver when seated, so that the lift cushion moves first in a generally outward direction and then in a generally upward direction. Preferably, when viewed across the front of seat 20, the width of lift cushion 32 is no more than one-half the total width of the composite cushion so that it is free to clear the steering wheel no matter what the forward position of the car seat. In an alternative embodiment, however, the lift cushion constitutes the entire composite seat cushion, and the stationary cushion is omitted.
Motor 56 is powered by: the car battery 60; an "up" safety switch 62; a "down" safety switch 64; an interlock switch 61 which immobilizes the circuit when the door is closed; and a pair of limit switches 63, 65 which interrupt
power when the lift cushion reaches its most extended or retracted position. Switches 62, 64, which are located in the vicinity of the window sill of the door at the driver's seat, must be controlled continuously by the driver in order to continuously energize motor 56. Thus, any lapse in the driver's capacity or attention, as a safety precaution, will interrupt movement of the lift cushion. Switch 62 causes lift cushion 32 to extend. Switch 64 causes lift cushion 32 to retract. Figs. 4 through 7 depict the successive postures of the driver as he exits from a car through an open door.
As shown in Fig. 4, the driver has swung his legs out from under the steering wheel and through the open door. His hands are resting on the window sill, his right hand being in position to maintain contact with and control of the "up" switch to cause the lift cushion to extend. As the lift cushion moves outwardly and upwardly, the driver's grip on the window sill steadies his body as his posture changes. As shown in Fig. 5, the driver may be required to tilt his head . in order to avoid contact with the roof. As the lift cushion moves, the driver slides gradually and comfortably about its rounded outer edge. As shown in Fig. 6, extension of the lift cushion continues as the driver emerges through the open doorway and approaches standing posture. As shown in Fig. 7, the driver, almost standing upright, is able to carry on with normal movement.
When entering the car, the driver sits against the rounded edge of the extended lift cushion, and maintains manual contact with and continued control of the "down" switch as he proceeds through a sequence of steps that are opposite to the steps described above in reference to Figs. 4 through 7. The lift cushion mechanism prevents the door from closing unless the lift cushion is entirely within the car and clear of the doorway. However, the car can be locked completely with the lift cushion at least partly extended so as to be ready for a returning disabled driver. Alternatively, the car can be locked with the lift cushion retracted so as to be ready for use by a normal driver or ready to be extended for use by a disabled driver.
In an alternative embodiment, base frame 25 is mounted as shown in Fig. 8 on a conventional positioning mechanism 67 of the type shown in Fig. 9. The mechanism of Fig. 9 includes a pair of tracks 68, 70 for a pair of slides 72, 74 that are controlled by a hand operated lever 76. A pair of rails 77, 78 are bolted at their ends to tracks 68, 70 to serve as guides for a pair of slides 80, 82 on which frame 25 is mounted. This mechanism enables the driver to adjust the forward-rearward location of the driver's seat. It will be understood that the present invention contemplates the use of more versatile car seat positioning mechanisms, including six-way motor controlled positioning mechanisms. It will be understood that a passenger's front seat incorporating the
principles of the present invention will incorporate a mirror image of the design of the driver's seat depicted herein.
OPERATION In operation, the driver's or passenger's seat of the present invention is adapted for comfortable use by either a normal driver or passenger, or a disabled driver or passenger. When lift cushion 32 is retracted, this car seat is characterized by the appearance and comfort of an ordinary car seat. However, without any appreciable interference with such normal use, this car seat is adapted for use by a disabled driver or passenger who may steady himself at the window sill of an open door as he presses the "up" or "down" switch for help in sitting or rising. It is to be understood that the "up" and "down" switches need not be actually on the door. In in an alternative embodiment, the "up" and "down" switches are at the end of a flexible cable that is carried by the driver to the window sill. In another alternative embodiment the up and down switches are carried by a portable wireless unit that operates through an infrared radiation emitter and an infrared sensor.