Wheel chair abstract
This invention provides a pivoting wheel chair lift device for
raising a wheel chair from a lower elevation to a higher elevation.
The wheel chair lift device includes a frame, a ramp, and lift powering
apparatus. The third end of the ramp is disposed toward the ground
engaging first end of the frame. The fourth end of the ramp is pivotally
mounted to the second upper end of the frame. The lift powering
apparatus lifts the third end of the ramp. An arresting plate arrests
egress of a wheel chair during lifting. A gravity locking bracket
and locking receptacle combination lock the arresting plate when
engaged. The lift powering apparatus may power the arresting plate
and the ramp through two divergent linkages. The fourth end of the
ramp can extend over a step to align the ramp with an upper step
enabling a wheel chair to roll safely from the ramp to and across
the step tread. The invention also comprehends methods of negotiating
steps with a wheel chair. The methods include placing a pivoting
wheel chair lift device propinquant a top step; advancing the chair
onto the ground level ramp end; activating the control apparatus
to lift the ramp, and advancing the wheel chair to the other end
of the ramp.
Wheel chair claims
Having thus described the invention, what is claimed is:
1. A pivoting wheel chair lift device articulated and powered to
pivot about an upper end thereof from an inclined orientation to
a horizontal orientation and thereby to lift a person in a wheel
chair from a lower elevation to a higher elevation, said pivoting
wheel chair device comprising:
(a) a frame, having a first lower, ground engaging end, a second
upper end laterally displaced from said first end and disposed at
a higher elevation than said first end;
(b) a ramp, having a third end disposed toward said first end of
said frame, said ramp having a fourth opposing upper end mounted
to said frame adjacent said second end of said frame, for pivotation
of said ramp about said second end of said frame; and
(c) lift powering apparatus operable to lift said third end of
said ramp from a lowered position in which said ramp describes an
inclined angle between a first lower elevation at said third end
of said ramp and a second higher elevation at said fourth end of
said ramp, to a lifted position in which said third end of said
ramp is lifted to an elevation higher than the first elevation,
said frame generally engaging the ground, extending upwardly from
the ground adjacent said second end of said frame to define an opening
across a width of said ramp at said fourth end of said ramp, sufficient
to receive a first step, extending across the width of said ramp,
such that said fourth end of said ramp can extend over a step and
abut an upper step such that an upper surface at said fourth end
of said ramp is aligned with an upper surface of a tread of an upper
one of the steps.
2. A pivoting wheel chair lift device as in claim 1, said wheel
chair lift device being readily transportable from place to place,
requiring only placement of said wheel chair lift device on a suitable
surface in the desired location, and connecting an associated power
cord to suitable source of electricity thereby to power said lift
powering apparatus.
3. A pivoting wheel chair lift device as in claim 1 wherein said
lift powering apparatus is mounted to said frame.
4. A pivoting wheel chair lift device as in claim 1, including
a control apparatus activating said lift powering apparatus, and
thereby activating said wheel chair lift device.
5. A pivoting wheel chair lift device as in claim 1 wherein said
lift device is a modular self-contained unit requiring, for installation,
only placement on suitable surface and connection to power supply.
6. A pivoting wheel chair lift device as in claim 1 wherein said
ramp includes an entrance element, generally parallel with the ground
when said third end of said ramp is in ground-engaging disposition,
extending inwardly from said third end of said ramp, and a rising
element extending from said entrance element toward said fourth
end of said ramp at an upwardly inclined angle to the ground when
said third end of said ramp is in ground-engaging disposition.
7. A pivoting wheel chair lift device as in claim 6, said rising
element having a first section adjacent said entrance element, a
second section displaced from said entrance element, and a locus
of joinder of said first and second sections such that said first
section is between said entrance element and said second section,
said upwardly inclining angle being defined at the locus of joinder.
8. A pivoting wheel chair lift device as in claim 7 wherein the
angle between said entrance element and said rising element is about
5 degrees to about 20 degrees.
9. A pivoting wheel chair lift device as in claim 7 wherein the
angle between said entrance element and said rising element is about
8 degrees to about 15 degrees.
10. A pivoting wheel chair lift device as in claim 1, further comprising
an arresting plate.
11. A pivoting wheel chair lift device as in claim 10, additionally
comprising a gravity locking bracket on said arresting plate, a
locking receptacle on said ramp, which engages said locking bracket
as said third end of said ramp is lifted, thereby mechanically locking
said arresting plate in raised orientation when said third end of
said ramp is lifted.
12. A pivoting wheel chair lift device as in claim 1, including
adjustment apparatus for adjusting height of said fourth end of
said ramp.
13. A pivoting wheel chair lift device as in claim 1, said lift
powering apparatus being disposed beneath said ramp thereby to apply
lifting force to said ramp at a locus below a top surface of said
ramp.
14. A pivoting wheel chair lift device as in claim 13, further
including a lifting bar connected to said lift powering apparatus
and extending substantially across the width of said ramp providing
a lifting engagement under said ramp thus to support a bottom surface
of said ramp thereby supporting said ramp and applying lift force
from said lift powering apparatus to said ramp.
15. A pivoting wheel chair lift device articulated and powered
to pivot about an upper end thereof from an inclined orientation
to a horizontal orientation and thereby to lift a person in a wheel
chair from a lower elevation to a higher elevation, said pivoting
wheel chair device comprising:
(a) a frame, having a first lower, ground engaging end, a second
upper end laterally displaced from said first end and disposed at
a higher elevation than said first end;
(b) a ramp, having a third ground-engaging end disposed toward
said first end of said frame, said ramp having a fourth opposing
upper end mounted to said frame for pivotation of said ramp about
said second end of said frame, said fourth end of said ramp being
laterally displaced from said third end of said ramp, and disposed
at a higher elevation than said third end of said ramp when said
third end of said ramp is in a lowered position, such that said
ramp defines an inclined orientation between said third and fourth
ends of said ramp when said ramp is in a lowered disposition;
(c) an arresting plate, said arresting plate having a fifth end
mounted to said third ground-engaging end of said ramp, and a sixth
opposing tail end remote from said third ground-engaging end of
said ramp, said arresting plate being mounted for pivotation about
said first ground-engaging end of said ramp, from a first horizontal
orientation to a lifted orientation wherein said sixth tail end
is above said fifth end thereof, for arresting egress of a wheel
chair from said third end of said ramp; and
(d) lift powering apparatus, powering said arresting plate and
said ramp through divergent first and second linkages having first
and second separate terminal ends thereof operative to lift said
sixth tail end of said arresting plate and said third end of said
ramp, respectively.
16. A pivoting wheel chair lift device as in claim 15, said wheel
chair lift device being readily transportable from place to place,
requiring only placement of said wheel chair lift device on a suitable
surface in the desired location, and connecting an associated power
cord to suitable source of electricity thereby to power said lift
powering apparatus.
17. A pivoting wheel chair lift device as in claim 15 wherein said
lift powering apparatus is mounted to said frame.
18. A pivoting wheel chair lift device as in claim 15, including
a control apparatus activating said lift powering apparatus, and
thereby activating said wheel chair lift device.
19. A pivoting wheel chair lift device as in claim 15 wherein said
lift device is a modular self-contained unit requiring, for installation,
only placement on suitable surface and connection to power supply.
20. A pivoting wheel chair lift device as in claim 15 wherein said
ramp includes an entrance element, generally parallel with the ground
when said third end of said ramp is in ground-engaging disposition,
extending inwardly from said third end of said ramp, and a rising
element extending from said entrance element toward said fourth
end of said ramp at an upwardly inclined angle to the ground when
said third end of said ramp is in ground-engaging disposition.
21. A pivoting wheel chair lift device as in claim 20, said rising
element having a first section adjacent said entrance element, a
second section displaced from said entrance element, and a locus
of joinder of said first and second sections such that said first
section is between said entrance element and said second section,
said upwardly inclining angle being defined at the locus of joinder.
22. A pivoting wheel chair lift device as in claim 21, wherein
the angle between said entrance element and said rising element
is about 5 degrees to about 20 degrees.
23. A pivoting wheel chair lift device as in claim 21, wherein
the angle between said entrance element and said rising element
is about 8 degrees to about 15 degrees.
24. A pivoting wheel chair lift device as in claim 15, additionally
comprising a gravity locking bracket on said arresting plate, a
locking receptacle on said ramp, which engages said locking bracket
as said third end of said ramp is lifted, thereby mechanically locking
said arresting plate in raised orientation when said third end of
said ramp is lifted.
25. A pivoting wheel chair lift device as in claim 15, including
adjustment apparatus for adjusting height of said second end of
said ramp.
26. A pivoting wheel chair lift device as in claim 15, said frame
generally engaging the ground, extending upwardly from the ground
adjacent said second end of said frame to define an opening across
a width of said ramp at said fourth end of said ramp, sufficient
to receive a first step, extending across the width of said ramp,
such that said fourth end of said ramp can extend over a raised
step and abut a second upper one of the steps such that an upper
surface of said ramp at said fourth end of said ramp is aligned
with the upper surface of a tread of the upper one of the steps.
27. A pivoting wheel chair lift device as in claim 15, said lift
powering apparatus being disposed beneath said ramp thereby to apply
lifting force to said ramp at a locus below a top surface of said
ramp.
28. A pivoting wheel chair lift device as in claim 27, further
including a lifting bar connected to said lift powering apparatus
and extending substantially across the width of said ramp providing
a lifting engagement under said ramp thus to support a bottom surface
of said ramp thereby supporting said ramp and applying lift force
from said lift powering apparatus to said ramp.
29. A pivoting wheel chair lift device, comprising:
(a) a frame, having a first lower, ground engaging end, a second
upper end laterally displaced from said first end and disposed at
a higher elevation than said first end;
(b) a ramp, having a third ground-engaging end disposed toward
said first end of said frame, said ramp having a fourth opposing
upper end mounted to said frame for pivotation of said ramp about
said second end of said frame, said fourth end of said ramp being
laterally displaced from said third end of said ramp, and disposed
at a higher elevation than said third end of said ramp when said
third end of said ramp is in a lowered position, such that said
ramp defines an inclined orientation between said third and fourth
ends of said ramp when said ramp is in a lowered disposition;
(c) an arresting plate, said arresting plate having a fifth end
mounted to said third ground-engaging end of said ramp, and a sixth
opposing tail end remote from said third ground-engaging end of
said ramp, said arresting plate being mounted for pivotation about
said third ground-engaging end of said ramp, from a first horizontal
orientation to a lifted orientation wherein said sixth tail end
is above said fifth end thereof, for arresting egress of a wheel
chair from said third end of said ramp; and
(d) lift powering apparatus, powering said arresting plate through
a first linkage to a first terminal end at said arresting plate
using a first force, and powering said ramp through a second linkage
using a second force without exposing said first terminal end to
the second force, to thereby lift said tail end of said arresting
plate and said first end of said ramp.
30. A pivoting wheel chair lift device as in claim 29, said wheel
chair lift device being readily transportable from place to place,
requiring only placement of said wheel chair lift device on a suitable
surface in the desired location, and connecting an associated power
cord to suitable source of electricity thereby to power said lift
powering apparatus.
31. A pivoting wheel chair lift device as in claim 29 wherein said
lift powering apparatus is mounted to said frame.
32. A pivoting wheel chair lift device as in claim 29, including
a control apparatus activating said lift powering apparatus, and
thereby activating said wheel chair lift device.
33. A pivoting wheel chair lift device as in claim 29 wherein said
lift device is a modular self-contained unit requiring, for installation,
only placement on suitable surface and connection to power supply.
34. A pivoting wheel chair lift device as in claim 29 wherein said
ramp includes an entrance element, generally parallel with the ground
when said third end of said ramp is in ground-engaging disposition,
extending inwardly from said third end of said ramp, and a rising
element extending from said entrance element toward said fourth
end of said ramp at an upwardly inclined angle to the ground when
said third end of said ramp is in ground-engaging disposition.
35. A pivoting wheel chair lift device as in claim 34, said rising
element having a first section adjacent said entrance element, a
second section displaced from said entrance element, and a locus
of joinder of said first and second sections such that said first
section is between said entrance element and said second section,
said upwardly inclining angle being defined at the locus of joinder.
36. A pivoting wheel chair lift device as in claim 35 wherein the
angle between said entrance element and said rising element is about
5 degrees to about 20 degrees.
37. A pivoting wheel chair lift device as in claim 35 wherein the
angle between said entrance element and said rising element is about
8 degrees to about 15 degrees.
38. A pivoting wheel chair lift device as in claim 29 additionally
comprising a gravity locking bracket on said arresting plate, a
locking receptacle on said ramp, which engages said locking bracket
as said third end of said ramp is lifted, thereby mechanically locking
said arresting plate in raised orientation when said third end of
said ramp is lifted.
39. A pivoting wheel chair lift device as in claim 29, including
adjustment apparatus for adjusting height of said second end of
said ramp.
40. A pivoting wheel chair lift device as in claim 29, said frame
generally engaging the ground, extending upwardly from the ground
adjacent said second end of said frame to define an opening across
a width of said ramp at said fourth end of said ramp, sufficient
to receive a first step, extending across the width of said ramp,
such that said fourth end of said ramp can extend over a raised
step and abut a second upper one of the steps such that an upper
surface of said ramp at said fourth end of said ramp is aligned
with the upper surface of a tread of the upper one of the steps.
41. A pivoting wheel chair lift device as in claim 29, said lift
powering apparatus being disposed beneath said ramp thereby to apply
lifting force to said ramp at a locus below a top surface of said
ramp.
42. A pivoting wheel chair lift device as in claim 41, further
including a lifting bar connected to said lift powering apparatus
and extending substantially across the width of said ramp providing
a lifting engagement under said ramp thus to support a bottom surface
of said ramp thereby supporting said ramp and applying lift force
from said lift powering apparatus to said ramp.
43. A method of negotiating steps with a wheel chair, the method
comprising the steps of:
(a) placing a pivoting wheel chair lift device propinquant an upper
one of a set of steps, the pivoting wheel chair lift device comprising
(i) a frame having a first lower, ground engaging end, a second
upper end laterally displaced from the first end and disposed at
a higher elevation than the first end, (ii) a ramp, having an upper
surface thereof, having a third end at ground level adjacent the
first end of the frame and a fourth opposing upper end mounted to
the frame adjacent the second end of the frame for pivotation of
the ramp about the second end of the frame, the fourth end of the
upper surface of the ramp being disposed substantially at the elevation
of the upper surface of the tread of the upper one of the steps
such that the ramp describes a first inclined angle between the
third and fourth ends thereof, (iii) lift powering apparatus operable
to lift the third end of the ramp from ground level to a higher
elevation; and (iv) control apparatus for activating the lift powering
apparatus, and thereby lifting the wheel chair ramp;
(b) advancing a wheel chair onto the ramp at the first lower end
of the ramp while the ramp is inclined between ground level at the
third end of the ramp and step level at the fourth end of the ramp;
(c) after advancing the wheel chair onto the ramp, activating the
control apparatus to thereby lift the third end of the ramp above
ground level; with corresponding pivoting of the fourth end of the
ramp to thereby reduce the angle of incline; and
(d) advancing the wheel chair to the fourth end of the ramp along
a second angle less than the first angle, thence onto and across
the upper one of the steps, thereby negotiating the steps.
44. A method of negotiating steps with a wheel chair as in claim
43, the ramp having a first section generally parallel with the
ground and extending inwardly from the third end of the ramp, and
a second section extending from the first section toward the fourth
end of the ramp at an upwardly inclined angle to the ground and
including the step of advancing the wheel chair onto the first section
in step (b), and activating the control apparatus in step (c) while
at least part of the wheel chair is supported on the first section.
45. A method of negotiating steps with a wheel chair as in claim
43, the wheel chair lift device of step (a) including an arresting
plate.
46. A method of negotiating steps with a wheel chair as in claim
45, the arresting plate and the ramp in combination having a gravity
locking bracket and a corresponding and cooperating locking receptacle
for engagement with each other as the third end of the ramp is lifted,
the method including the step of engaging the locking bracket and
the locking receptacle together, and thus locking the arresting
plate in raised orientation when the third end of the ramp is lifted
above ground level.
47. A method of negotiating steps with a wheel chair as in claim
43, the wheel chair lift device being transportable from place to
place, and including the steps of placing the lift chair device
on a suitable surface in the desired location as in step (a), and
connecting an associated power cord to the suitable source of electricity
and thereby providing a power source to the lift powering apparatus.
Wheel chair description
FIELD OF THE INVENTION
This invention relates to apparatus and methods for negotiating
steps with wheel chairs. More specifically, this invention relates
to ramps for by-passing steps between a lower level and a higher
level, especially for accessing steps for entrance into a building,
or for negotiating across steps within a building.
BACKGROUND OF THE INVENTION
It is known to build a long, permanent ramp for entrance into a
building. While negotiating such ramp may be entirely feasible for
a person in a motor-driven wheel chair, a large percentage of wheel
chair users are without motor drive. For such users, negotiating
wheel chair ramps is a physically challenging task which they may
not be able to fulfill. Thus, for such a wheel chair user, such
inclined ramps are as much a barrier as are the steps.
It is also known to provide permanent installation lift devices
which remain in a horizontal orientation when lifting a wheel chair
user to the higher level. However, such devices are quite massive,
and respectively expensive.
It is known to provide a simple ramp which pivots about the lower
elevation, from which access is to be had into the building. However,
such ramp requires special construction of both the steps and the
underlying support at the lower elevation, and thus such ramp requires
a relatively costly installation.
It is an object of this invention to provide an improved wheel
chair lift device which is light in weight, simple to construct,
and simple to install and use.
It is another object to provide a wheel chair lift device which
operates as an inclined ramp for negotiating between upper and lower
elevations, and which operates as a powered lift for negotiating
from the lower elevation to the higher elevation, as well as from
the higher elevation to the lower elevation.
It is yet another object to provide a lift device which provides
for the user to advance onto the ramp in a generally horizontal
orientation at an entrance element thereof, up to a rising element
thereof, and then to activate a lift mechanism to raise the ramp,
and thus the rising element thereof, to a more nearly horizontal
orientation, for traverse of the rising element of the ramp by the
wheel chair user with minimal expenditure of effort.
It is yet another object to provide a lift device having provision
for raising and mechanically locking an arrestor plate, to prevent
inadvertent egress of the wheel chair off the lower end of the ramp
when the lower end of the ramp is lifted off the ground, in the
lift mode.
It is still another object to provide such a lift device which
is modular, self-contained, and portable from place-to-place, and
which thus may be moved from place-to-place for temporary uses,
with little if any installation cost or effort.
It is yet a further object to provide a lift device which can be
adjusted for accessing a range of heights of steps.
SUMMARY OF THE INVENTION
One aspect of the invention is generally defined in a pivoting
wheel chair lift device articulated and powered to pivot about an
upper end thereof from an inclined orientation to a horizontal orientation
and thereby to lift a person in a wheel chair from a lower elevation
to a higher elevation. The pivoting wheel chair device includes
a frame, a ramp, and a lift powering apparatus. The frame has a
first lower ground engaging end, a second upper end laterally displaced
from the first end and disposed at a higher elevation than the first
end.
The ramp, has a third end disposed toward the first end of the
frame, and a fourth opposing upper end mounted to the frame adjacent
the second end of the frame, for pivotation of the ramp about the
second end of the frame.
The lift powering apparatus is operable to lift the third end of
the ramp from a lowered position in which the ramp describes an
inclined angle between a first lower elevation at the third end
of the ramp and a second higher elevation at the fourth end of the
ramp, to a lifted position in which the third end is lifted to an
elevation higher than the first elevation.
In some embodiments, the lift powering apparatus may power the
arresting plate and the ramp through divergent first and second
linkages having first and second separate terminal ends thereof
operative to lift the tail of the arresting plate and the fourth
end of the ramp, respectively.
Further, the lift powering apparatus powers the arresting plate
through a first linkage to a first receptor at the arresting plate
using a first force, and powers the ramp through a second linkage
using a second force without exposing the first receptor to the
second force.
In preferred embodiments, the frame generally engages the ground,
and extends upwardly from the ground adjacent the second end of
the frame to define an opening across the width of the ramp at the
fourth end, sufficient to receive a first step, for example about
12 inches wide by 10 inches high, extending transverse to the length
of the ramp. Thus, the second end of the frame, and thus the respective
end of the lift device, can extend over the step and abut an upper
step such that the upper surface of the ramp at the fourth end of
the ramp is aligned with the upper surface of the tread of the upper
one of the steps. Namely, the lift device may be placed at least
propinquant the upper surface of the tread of the upper step, whereby
the upper end of the lift device is close enough to the upper step
to enable safe rolling of a wheel chair across the joint defined
between the upper end of the lift device and the tread of the step.
The ramp preferably includes an entrance element, and a rising
element. When the third end of the ramp is in ground-engaging disposition,
the entrance element is disposed more or less parallel with the
ground, and extends inwardly from the third end of the ramp; and
the rising element extends from the entrance element toward the
fourth end at an upwardly inclined angle to the ground.
The angle between the entrance element and the rising element is
preferably about 5 degrees to about 20 degrees, more preferably
about 8 degrees to about 15 degrees.
The lift device preferably includes control apparatus activating
the lift powering apparatus, and thereby activating the wheel chair
lift device. The lift powering apparatus is preferably mounted to
the frame.
The lift devices are preferably modular, portable, self-contained
units requiring, for installation, only placement of the lift device
in the desired location, and attachment of an associated power lead
to suitable power source, such as plugging in an electric power
cord to an electric power grid, namely plugging the cord into a
standard 110 volt outlet.
The lift device preferably includes an arresting plate, having
a fifth end mounted to the ground-engaging end of the ramp, and
a sixth opposing tail end remote from the ground-engaging end of
the ramp, the arresting plate being mounted for pivotation about
the ground-engaging end of the ramp, from a first horizontal orientation
to a lifted orientation wherein the sixth tail end of the arresting
plate is above the fifth end of the arresting plate. The arresting
plate arrests egress of a wheel chair from the first end of the
ramp while the ramp is off the ground on other underlying support
surface such as a floor. The arresting plate also functions as an
entrance element for entrance onto the ramp.
The lift device preferably includes a gravity locking bracket on
the arresting plate, and a locking receptacle on the ramp. The locking
receptacle engages the locking bracket as the third end of the ramp
is lifted, thereby mechanically locking the arresting plate in a
raised orientation when the third end of the ramp is lifted. The
combination could as well have the locking bracket on the ramp and
the locking receptacle on the arresting plate. Any functionally
operable gravity actuated locking devise is satisfactory.
The invention further comprehends a method of negotiating steps
with a wheel chair. The method comprises the steps of placing a
pivoting wheel chair lift device propinquant an upper one of the
steps, the pivoting wheel chair lift comprising (i) a frame having
a first lower, ground engaging end, a second upper end laterally
displaced from the first end and disposed at a higher elevation
than the first end, (ii) a ramp, having an upper surface thereof,
having a third end at ground level adjacent the first end of the
frame and a fourth opposing upper end mounted to the frame adjacent
the second end of the frame for pivotation of the ramp about the
second end of the frame, the fourth end of the upper surface of
the ramp being disposed substantially at the elevation of the upper
surface of the tread of the upper one of the steps such that the
ramp describes a first inclined angle between the third and fourth
ends thereof, (iii) lift powering apparatus operable to lift the
first end of the ramp from ground level to a higher elevation; and
(iv) control apparatus for activating the lift powering apparatus,
and thereby lifting the wheel chair ramp; advancing a wheel chair
onto the ramp at the first lower end thereof while the ramp is inclined
between ground level at the third end thereof and step level at
the fourth end thereof; after advancing the wheel chair onto the
lift device, activating the control apparatus to thereby lift the
third end of the ramp, with corresponding pivoting of the fourth
end to thereby reduce the angle of incline; and advancing the wheel
chair to the fourth end of the ramp along a second angle less than
the first angle, thence onto the upper one of the steps.
In preferred embodiments, the ramp has an entrance element substantially
parallel with the ground and extending inwardly from the third end
of the ramp, and a rising element extending from the entrance element
toward the fourth end of the ramp at an angle inclined upwardly
from ground, and the method includes the step of activating the
control apparatus to thereby lift the fourth end of the ramp while
at least part of the wheel chair is supported on the entrance element.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 shows a pictorial view of a pivoting wheel chair lift device
of the invention.
FIG. 2 shows a pictorial view as in FIG. 1, with a person in a
wheel chair negotiating the ramp in a downward direction.
FIG. 3 shows a side elevation view of the lift device of FIG. 1,
with parts cut away, and the lower end of the ramp down.
FIG. 4 shows a side elevation as in FIG. 3, with the lower end
of the ramp lifted.
FIG. 5 shows an enlarged fragmentary side elevation, illustrating
the arresting plate and lock, with the arresting plate unlocked,
and disposed in its lowered orientation.
FIG. 6 shows an enlarged fragmentary side elevation as in FIG.
5, with the ramp raised and the arresting plate locked, and disposed
in its raised orientation.
FIG. 7 shows an enlarged fragmentary side elevation, illustrating
the ram linkage for lifting the ramp and the arresting plate, with
the ram partially activated to raise the arresting plate, but with
the lower end of the ramp still on the ground.
FIG. 8 shows an enlarged fragmentary side elevation as in FIG.
7, with the lower end of the ramp lifted.
FIG. 9 is a bottom view of the ram linkage, taken at 9--9 of FIG.
8.
DETAILED DESCRIPTION OF THE ILLUSTRATED EMBODIMENTS
Referring to FIGS. 1-3, a pivoting wheel chair lift device 10 includes
a lift frame 12, a ramp 14, and lift powering apparatus 16.
Lift frame 12 has a first lower ground engaging end 18 and a second
upper end 20 laterally displaced from the first end, and disposed
at a higher elevation than the first end as shown in FIG. 3.
Lift frame 12 includes first and second ground engaging members
22, 24 and suitable cross-connecting members (not shown) extending
between, and joining, ground engaging members 22, 24. Adjustment
gussets 26 are mounted to ground engaging members 22, 24 at the
ends thereof remote from the first end of the frame. Frame extension
arms 28 are mounted to adjustment gussets 26 through two or more
of mounting holes 30. Five mounting holes are shown on gusset 26.
Suitable holes also extend through extension arms 28 for alignment
with holes 30 on gussets 26. More or fewer holes can be used in
either or both of extension arms 28 and gussets 26 to provide more
or less options for mounting extension arms 28 to gussets 26. The
height of second upper end 20 of the frame, and thus the height
of the upper end of the ramp, can be adjusted by selecting suitable
ones of the holes to be used in mounting extension arms 28 to respective
adjustment gussets 26.
Ramp 14 generally includes ramp frame 32 and ramp plate 34. Ramp
14 generally extends from a third, generally lower end 35A, disposed
toward first end 18 of lift frame 12, to a fourth opposing upper
end 35B. Fourth upper end 35B is mounted to lift frame 12 at pivot
pin 36, at second upper end 20 of lift frame 14, for pivotation
about the second end of the lift frame.
Ramp frame 32 includes stringers 38A, 38B, and a plurality of cross
members 40 extending between and connecting stringers 38A, 38B.
Referring to FIGS. 3 and 7-9, stringers 38A, 38B generally extend
the full length of ramp 14, with cross members 40 extending between
and connecting stringers 38A, 38B at spaced intervals. As illustrated
in FIGS. 1-4, each stringer 38A, 38B extends in a generally straight
line along an upper section 42 from fourth upper end 35B to a generally
ground engaging intermediate locus 44, disposed toward, but spaced
from, third lower end 35A of the ramp. From intermediate locus 44,
stringers 38A, 38B extend along a lower section 46, generally along
the ground, at an angle to the upper section 42, toward third end
35A of the ramp.
Ramp plate 34 generally rests on, and is mounted to, cross members
40, and is secured at its opposite side edges to stringers 38A,
38B. Accordingly, ramp plate 34, stringers 38A, 38B, and cross members
40 generally form an integral unit, wherein general structural strength
is provided by stringers 38A, 38B and cross members 40, and the
supporting surface is provided by plate 34. Within the integral
structure of the ramp as a unit, plate 34 provides certain strengthening
of the ramp against side-to-side twisting.
Ramp plate 34 generally extends nearly the full length of ramp
14, from fourth end 35B to nearly third end 35A as further discussed
hereinafter. As with stringers 38A, 38B, ramp plate 34 extends in
a generally straight line along a sloping section 48 from fourth
upper end 35B to a generally ground engaging intermediate locus
50, disposed toward, but spaced from, third lower end 35A of the
ramp. From intermediate locus 50, plate 34 extends along a generally
horizontal section 52, generally along the ground, at an angle to
the sloping section 48, to near the third end 35A of the ramp.
The angles described between the upper and lower runs of a stringer
38A or 38B, and between generally horizontal section 52 and sloping
section 48 of the plate, are generally the same or similar. For
purposes of this teaching, it will be assumed that the angles are
the same, and are represented by angle "A" in FIG. 3.
The angles could, of course, be different if desired. Especially
the angle described by stringers could readily be changed by redesign
of ramp frame 32. The angle described by ramp plate, is generally
as shown and described here.
Referring now to FIG. 3, angle "A" is generally between
about 5 degrees and about 20 degrees. Preferred angles are between
about 8 degrees and about 25 degrees. A most preferred angle is
about 11 degrees. Outside the upper end of the range of angles,
where the angle is greater than about 20 degrees, the incline when
the ramp is in the lowered orientation, as shown in FIG. 3, is so
great as to suggest an unsafe condition. Thus, a wheel chair on
the ramp, with the rear wheels on the generally horizontal section
and the front wheels on the sloping section, as suggested in FIG.
3, may tip over unless the generally horizontal section of ramp
plate 34 is further elongated beyond that shown to accommodate retaining
both front and rear wheels on the generally horizontal section during
the lifting operation.
At the lower end of the range of angles, the length of the ramp
is unnecessarily increased with little if any advantage.
Arresting plate 54 is part of ramp 14, and includes a fifth mounting
end 56 and a sixth opposing tail end 58. Arresting plate 54 is mounted
at its fifth mounting end to section 52 of ramp plate 14 at pivot
pin 60, for pivotation about ramp section 52. Accordingly, the distal
edge of arresting plate 54 corresponds with the third lower end
of the ramp.
Gravity locking bracket 62 is rigidly mounted, for example welded,
to arresting plate 54 such that pivotation of arresting plate 54,
as suggested by comparison of FIGS. 5 and 6, effects corresponding
pivotation of locking bracket 62 with the arresting plate. Bracket
62 includes locking flange 64, locking flange 64 being seen in edge
view in FIGS. 3, 5, and 6. Bracket 62 further includes aperture
65 adjacent an upper end of bracket 62.
Locking receptacle 66 includes an arcuate slot 70. Locking receptacle
66 is mounted to stringer 38B at pivot pin 68, and with stud 72
extending from stringer 38B through slot 70, such that arcuate slot
70 describes an arc receiving about pivot pin 68, for rotation of
the locking receptacle within the arc defined by slot 70 and confined
by stud 72.
Locking receptacle 66 includes locking recess 74 having an open
end extending downwardly generally toward pivot pin 60, as illustrated
in FIGS. 3-6.
Locking receptacle 66 further includes ground stop 76. Stop 76
engages the ground or other Respective underlying surface when the
ramp is in the lowered disposition as shown in FIGS. 3 and 5, and
is released from such engagement when the ramp is raised such as
to the raised disposition shown in FIGS. 4 and 6.
Locking bracket 62 and locking receptacle 66 are so cooperatively
configured, mounted, and aligned that pivoting arresting plate 54
upwardly about pivot pin 60 brings locking flange 64 on locking
bracket 62 into alignment with locking recess 74 on locking receptacle
66. While a specific example of locking bracket and receptacle has
been described, any functionally effective gravity activated lock
mechanism is satisfactory so long as arresting plate 54 is mechanically
locked in the lifted, upright orientation.
Referring now to FIGS. 7-9, lift powering apparatus 16 preferably
comprises a hydraulic cylinder as shown, including a self-contained
hydraulic pumping unit (not shown), and suitable and conventional
control apparatus for turning the hydraulic unit on and off, and
for otherwise controlling the hydraulic cylinder. Hereinafter the
lift powering apparatus will be referred to as hydraulic cylinder
16. A preferred hydraulic cylinder has a delayed bleed-back, which
will bleed the hydraulic fluid back to a rest condition with the
ram retracted, after a desired time. It will be appreciated that
other power sources, and other types of hydraulic and other cylinders
may be used as desired for any particular application.
The hydraulic cylinder is connected at its lower end to lift frame
12 as illustrated in FIGS. 7-8, and is connected at its upper end
to weight lifting bar 78. Lifting bar 78 is connected at its opposing
distal ends to rotation brackets 80. Pivotation brackets 80A, 80B
are mounted to respective stringers 38A, 38B at pivot pins 82, for
pivotation of pivotation brackets 80A, 80B, and thus lifting bar
78, with respect to stringers 38A,38B.
Chain arm 84 is mounted to pivotation bracket 80B and extends upwardly
therefrom as illustrated in FIGS. 3, 7, and 8, into stringer 38B,
through a slot 86 in the bottom of stringer 38B. Aperture 88 extends
through chain arm 84. Chain 90 is secured to chain arm 84 in aperture
88, and extends, through the open tubular structure of stringer
38B, to third end 35A of the ramp. Adjacent third end 35A, chain
90 is secured to gravity locking bracket 62 in aperture 65 (FIG.
5). Thus, chain 90 provides a controlling connection between hydraulic
cylinder 16, through lifting bar 78, pivotation bracket 80B, and
chain arm 84, to arresting plate 54 through locking bracket 62,
including through locking flange 66. A similar chain 90 can likewise
be installed through stringer 38A if desired.
Wheel chair lift device 10 is a unitary module, is generally self-contained,
and requires only access to an appropriate source of power to drive
the hydraulic cylinder. Accordingly, lift device 10 is quite mobile,
is quite portable, and is quick and easy to install. The lift device
may be used directly on the ground, on a floor of a building, or
on a concrete pad such as a sidewalk, a driveway, or the like. In
a building, the lift device may be used on any floor, including
an underground floor, the ground floor, or any floor above ground
level where one or more steps are to be negotiated.
The lift device 10 illustrated in the drawings can be installed
in two simple steps. The first step is to place the lift device
on a suitable underlying surface, with the second upper end 20 of
the frame propinquant, and generally abutting the upper one of the
step or steps to be negotiated. The height of upper end 20 is adjusted
as desired such that upper surface 92 of ramp plate 34 at the upper
end 20 of lift frame 12 is aligned with the upper surface of tread
94 of the upper one of the steps to be negotiated. The height adjustment
is affected as follows. Bolts 96, extending through gussets 26 and
extension arms 28 at holes 30, are first removed. Then the height
is adjusted as desired by moving extension arms 28 along gussets
26 until the desired height is reached, and new sets of holes are
aligned in gussets 26 and extension arms 28 at the desired height.
Bolts 96 are then inserted and secured in the aligned holes, securing
the desired the height at the second end of the ramp.
With the height adjustment made, the lift device is again moved
into general abutment with the steps such that the pivot joint at
pivot pin 36 is generally against the upper step as illustrated
in the drawings. The power cord 98 is then connected to a standard
110 volt alternating current electric outlet, such as by plugging
it in, thereby connecting to the power grid, and thus providing
power to the motor which drives the hydraulic cylinder. Assuming
the hydraulic cylinder is a bleed-back type unit, the cylinder has
a normal rest position in which the ram is retracted into the cylinder
housing as illustrated in FIGS. 3 and 7. In that position, and as
shown in FIGS. 3 and 7, third end 35A of the ramp is down, generally
in contact with the ground.
Locking bracket 62 and locking receptacle 66 are in relative positions
best shown in FIG. 5. Similarly, arresting plate 54 is down, as
illustrated in FIGS. 3 and 5.
Pivotation brackets 80 and lifting bar 78 are pivoted away from
the bottom of ramp 14, and thus away from the respective cross member
40 against which lifting bar 78 interfaces in its up and working
position. Correspondingly, chain arm 84 extends toward the lower
end of the ramp (FIG. 3). The above combination of dispositions
of the hydraulic cylinder, pivotation brackets 80, and lifting bar
78, is illustrated in FIG. 3.
The lift device is then ready for use, with the ramp describing
an incline between ground level and the fourth upper end of the
ramp. As illustrated in, for example, FIG. 3, the second end of
the frame is configured as at extension arms 26 so as to leave an
opening 85 across the width of the ramp suitable to receive the
lower steps in the step arrangement, whereby the fourth end 35B
of the ramp can be placed sufficiently close to the upper one of
the steps to generally abut the upper step.
To use the lift device, a user, such as in a wheel chair, advances
the wheel chair from the underlying surface, e.g. ground, across
arresting plate 54, onto ramp 14, stopping the wheel chair with
the front wheels on sloping section 48 and the rear wheels on the
generally horizontal section 52 as illustrated in dashed outline
in FIG. 3.
The user then activates the control 75, activating hydraulic cylinder
16, and thus raising ramp 14 above the ground level. As illustrated,
a first control button is used to start the lifting process, and
a second control button on control 75 is used to stop the lifting
process. Appropriate stops are built into the control system to
prevent lifting to excessive height.
As hydraulic cylinder 16 begins to extend its ram, during the first
stage of activation of lift device 10, pivotation brackets 80A,
80B pivot about pivot pins 82, carrying weight lifting bar 78 upwardly
in an arc illustrated by arrow 100 and into engagement with ramp
14 at cross member 40L. During such first stage of activation of
the lift device, such pivotation of brackets 80, until lifting bar
78 comes into contact with cross member 40L, transfers no lifting
force, or substantially no lifting force, to the ramp. At the same
time as brackets 80 are pivoting weight lifting bar 78 into position
to contact cross member 40L, bracket 80B pivots chain arm 84 into
an upright orientation. As chain arm 84 is raised into an upright
position, it retracts chain 90, pulling on gravity locking bracket
62, and thus on arresting plate 54. Arresting plate 54 pivots about
pivot pin 60, lifting the arresting plate to a raised orientation,
and aligning locking flange 64 on locking bracket 62 with locking
recess 74 on locking receptacle 66. The relative positions of the
hydraulic cylinder, weight lifting bar 78, pivotation brackets 80,
chain arm 84, and chain 90, at the end of the first stage of operation
of the lift device, are shown in FIG. 7. The end result of the first
stage of activation of lift device 10 is to raise arresting plate
54, which is accomplished by the time weight lifting bar 78 contacts
cross member 40L and before any upward movement of ramp 14, typically
before any upward force is applied to ramp 14.
As hydraulic cylinder 16 continues to extend the ram and after
the arresting plate is lifted, the effective lifting force of the
ram is applied at lifting bar 78, and transferred thence from bar
78 into cross member 40L. From cross member 40L, the force of the
ram is transferred to stringers 38A, 38B, and thence throughout
ramp 14 including to ramp plate 34. The lifting force thus lifts
the third end 35A of the ramp, as the ramp pivots about pivot pin
36. As the third end of the ramp is lifted to a higher elevation,
the angle "A" between the ramp and the ground is reduced.
As the lower end 35A of the ramp is lifted off the ground, the
ground recedes from stop 76, releasing the locking receptacle to
rotate downwardly by gravity, whereby locking recess 74 engages
and locks-in locking flange 64, mechanically locking arresting plate
54 in the raised orientation for the duration of time the third
end of the ramp is lifted.
Preferably, the lifting is continued until the sloping section
of the ramp is in a generally horizontal orientation. The lifting
is then stopped at the desired height, and the wheel chair is advanced
to the fourth end of the ramp, and thence off the ramp and onto
and across the upper surface of the tread of the respective step.
With the lifting stopped, and after the pre-set delay, the hydraulic
fluid bleeds back out of the receiving chamber in the hydraulic
cylinder, whereby gravity draws the third end 35A of the ramp back
to the ground, ready for the next lift.
As the third end 35A approaches the ground, stop 76 engages the
ground, raising locking receptacle 66 and thereby releasing locking
flange 64. As the ram continues to recede into cylinder 16, pivotation
brackets 80A, 80B pivot about pivot pins 82. Such pivotation accordingly
pivots chain arm 84, extending chain 90 and thereby releasing arresting
plate 54 to return to its horizontal orientation by gravity, the
horizontal orientation being illustrated in FIG. 5.
With the ramp in the down orientation, as in FIG. 3, the ramp can
readily be negotiated downwardly by a person in a wheel chair using
suitable braking apparatus on the chair. Thus, the ramp is preferably
negotiated for downward movement thereacross without activating
the lifting capability of the lift devicem although the lifting
capabiity can be activated if desired.
As seen from the foregoing description, and in combination with
the drawings, the power from hydraulic cylinder 16 traverses a first
linkage comprising lifting bar 78, pivotation brackets 80, and thence
through chain arm 84 and chain 90 to a first terminal end at aperture
65, to thereby lift arresting plate 54. By contrast, the power from
hydraulic cylinder 16 traverses a second and different linkage comprising
lifting bar 78, to a second terminal end at the interface of lifting
bar 78 with cross member 40L, to thereby lift ramp 14.
Similarly, it is seen from tracing the above linkages, that the
force used to lift ramp 14 is not imposed, beyond lift bar 78, on
the linkage used to lift arresting plate 54. Thus, the force used
to power lifting of the ramp through the second linkage is not imposed
on those portions of the second linkage downstream from lifting
bar 78. Accordingly, locking bracket 62, including aperture 65,
is not exposed to the force used to lift the ramp, but is exposed
only to the minimal amount of force needed to raise arresting plate
54.
Materials used for the various elements of lift device 10 generally
correspond with materials used for known conventional wheel chair
lift devices. Accordingly, lift frame 12 and ramp 14 are typically
metal. Suitable alloys are selected according to the environment
in which the lift device will be used. Suitable thicknesses and
the like are selected for the respective elements in view of the
alloys selected, and the weight to be lifted.
The terms "ground," "ground-engaging," and
the like include any underlying supporting surface, including ground,
ground-level floor, platform, concrete or like surface, as well
as such surfaces at elevated locations, for examples second and
higher floors of buildings.
Those skilled in the art will now see that certain modifications
can be made to the apparatus and methods herein disclosed with respect
to the illustrated embodiments, without departing from the spirit
of the instant invention. And while the invention has been described
above with respect to the preferred embodiments, it will be understood
that the invention is adapted to numerous rearrangements, modifications,
and alterations, and all such arrangements, modifications, and alterations
are intended to be within the scope of the invention. |