| US5911427A | 1999-06-15 | |||
| US4332395A | 1982-06-01 | |||
| US2443565A | 1948-06-15 |
CLAIMS
What is claimed to be new and desired to be protected by Letters Patent is set
forth in the appended claims:
1) A land cycle for sailing on land comprising:
a) a recumbent tricycle, wherein said recumbent tricycle includes:
i) a frame having a shape approximating a triangle, having first, second
and third vertices;
ii) a first wheel having a sprocket, said first wheel connected to said frame
and positioned at said first vertex of said frame;
iii) a second and third wheel attached to said second and third vertices of
said frame, said second wheel and said third wlieel opposedly aligned,
and wherein said first wheel is positioned behind said second and third
wheels;
iv) a seat for supporting a rider, said seat positioned behind said second
and third wheels and attached to said frame;
v) a boom extending anteriorly of said second and third wheels;
vi) a chain wheel supportably attached to said boom and positioned
anteriorly of said seat, said chain wheel connecting a set of pedals for
input of motive force by said rider to a chain driving said first wheel
sprocket;
vii)a braking system acting on said second and third wheels and
controllable by said rider; viii) a steering system acting on said second and third wheels and
controllable by said rider;
b) a tricycle sprint having a first and second end, said first end of said tricycle
sprint engaged with said frame between said second and third wheels, said
second end of said tricycle sprint positioned anteriorly of second and third
wheels;
c) a vertically positioned mast having a first and second end, said first end of
said mast engaged with said frame between said second and third wheels;
d) a f orestay having a first and second end, said first end of said f orestay
attached to said second end of said mast and said second end of said
- f orestay attached to said second end of said tricycle sprint;
e) a back stay having a first and second end, said first end of said back stay
attached to said second end of said mast and said second end of said back
stay attached to said frame, proximate said first vertex;
f) a starboard mast sidestay having a first and second end, said first end of
said starboard mast sidestay attached to said second end of said mast and
said second end of said starboard mast sidestay attached to said frame at
said second vertex;
g) a port mast sidestay having a first and second end, said first end of said
port mast sidestay attached to said second end of said mast and said
second end of said port mast sidestay attached to said frame at said third
vertex; h) a starboard sprint sidestay having a first and second end, said first end of
said starboard sprint sidestay attached to said second end of said tricycle
sprint and said second end of said starboard sprint sidestay attached to
said frame proximate said second vertex;
i) a port sprint sidestay having a first and second end, said first end of said
port sprint sidestay attached to said second end of said tricycle sprint and
said second end of said port sprint sidestay attached to said frame
proximate said third vertex;
j) a tricycle sprint bottom stay having a first and second end, said first end of
said tricycle sprint bottom stay attached to said second end of said tricycle
sprint and said second end of said tricycle sprint bottomTstay attached to ~
said frame proximate to said mast interface with said frame;
k) a luff line having a first and second end, said first end of said luff line
connected to said second end of said mast and said second end of said luff
line connected to a furler positioned at said second end of said tricycle
sprint;
1) a butterfly jib boom having a first and second end, said second end of said
butterfly jib boom attached to said f orestay;
m) a jib sail having a triangular shape and swivelly attached along its first
portion by said luff line, said jib sail positioned within said butterfly jib
boom, said jib sail adjusted by attachment of said top portion of said jib sail
to said mast and wherein said f orestay, rear stay, mast sidestays and sprint
stays cooperatively support attachment and use of said jib sail to said recumbent tricycle thereby allowing a rider to apply wind force to stably
motivate said land cycle.
2) A land cycle as described in claim 1 having a sprint stay spreader with first
and second ends positioned transverse of said tricycle sprint and wherein said
first end of said sprint stay spreader cooperates with said port sprint sidestay
and second end of said sprint stay spreader cooperates with said starboard
sprint sidestay to maintain a pre-determined distance between said port sprint
sidestay and said starboard sprint sidestay.
3) A land cycle as described in claim 2 further comprising:
a) A back stay having a first and second section wherein said first section of
saTd back stay is a single line having an end which is attached to said ^
second end of said mast and said second section of said back stay is
comprised of a first and second line wherein each of said first and second
lines has an end for attachment;
b) A stern stay bar having a first and second opposing ends is mounted to
said recumbent tricycle frame in a position posterior of said first wheel and
transverse to said first wheel and wherein said stern stay bar has a pre¬
determined length selected to maintain a pre-determined distance between
said first and second lines of said second section of said back stay and
wherein the ends of said first and second lines of said second section of
said back stay are attached to said first and seconds ends of stern stay bar. 4) A land cycle as described in claim 1 having a braking system acting upon said
first wheel, independent of said braking system acting upon said second and
third wheels.
5) A land cycle as described in claim 1 wherein the tension of said stays may be
mechanically adjusted.
6) A land cycle as described in claim 3 having a braking system acting upon said
first wheel, independent of said braking system acting upon said second and
third wheels.
7) A land cycle as described in claim 1 wherein said tricycle sprint is comprised
of a material selected from the group consisting of aluminum, steel, carbon
fiber composite, plastic- and combinations thereof.
8) A land cycle as described in claim 3 wherein said f orestay is tubular and
comprised of a material selected from the group consisting of aluminum, steel,
carbon fiber composite, plastic and combinations thereof.
9) A land cycle as described in claim 6 wherein said f orestay is tubular and
comprised of a material selected from the group consisting of aluminum, steel,
carbon fiber composite, plastic and combinations thereof.
10) A land cycle as described in claim 7 wherein said f orestay is tubular and
comprised of a material selected from the group consisting of aluminum, steel,
carbon fiber composite, plastic and combinations thereof.
11) A land cycle as described in claim 8 wherein said second end of said butterfly
jib boom is compromised of a sleeve positioned at the apex of the butterfly jib boom, said sleeve allowing insertion of said forestay, so said butterfly jib boom
may rotate upon said forestay.
12) A land cycle as described in claim 8 wherein said luff line is comprised of a
material selected from the group consisting of aluminum, steel, carbon fiber
composite, plastic and combinations thereof.
13) A land cycle as described in claim 9 wherein said luff line is comprised of a
material selected from the group consisting of aluminum, steel, carbon fiber
composite, plastic and combinations thereof.
14) A land cycle as described in claim 10 wherein said luff line is comprised of a
material selected from the group consisting of aluminum, steel, carbon fiber
composite, plastic and combinations thereof.
15) A land cycle as described in claim 11 wherein said luff line is comprised of a
material selected from the group consisting of aluminum, steel, carbon fiber
composite, plastic and combinations thereof.
16) A land cycle as described in claim 15 wherein said luff line has a circular
shape.
17) A land cycle as described in claim 11 wherein said forestay and sleeve have a
tubular circular shape.
18) A land cycle as described in claim 1, wherein said jib sail is transparent.
19) A land cycle as described in claim 1, wherein said jib sail has a transparent
window.
20) A land cycle as described in claim 18, wherein said jib sail is self -tacking.
21) A land cycle as described in claim 19, wherein said jib sail is self -tacking. 22) A land cycle as described in claim 3, wherein said jib sail is transparent.
23) A land cycle as described in claim.3, wherein said jib sail has a transparent
window.
24) A land cycle as described in claim 22, wherein said jib sail is self -tacking.
25) A land cycle as described in claim 23, wherein said jib sail is self -tacking
26) A land cycle as described in claim 4, wherein said jib sail is transparent.
27) A land cycle as described in claim 4, wherein said jib sail has a transparent
window.
28) A land cycle as described in claim 26, wherein said jib sail is self -tacking.
29) A land cycle as described in claim 27, wherein said jib sail is self -tacking.
30) -A land cycle as described in claim 7, wherein said jib sail is transparent. —
31) A land cycle as described in claim 7, wherein said jib sail has a transparent
window.
32) A land cycle as described in claim 11, wherein said jib sail is transparent.
33) A land cycle as described in claim 11, wherein said jib sail has a transparent
window.
34) A land cycle as described in claim 6, wherein said tricycle sprint has a caster
mounted for ground contact.
35) A land cycle as described in claim 26, wherein said tricycle sprint has a caster
mounted for ground contact.
36) A land cycle as described in claim 27, wherein said tricycle sprint has a caster
mounted for ground contact.
37) An apparatus for sailing on land comprising: a) a recumbent tricycle, wherein said recumbent tricycle includes:
i) a frame having a shape approximating a triangle, having first, second
and third vertices;
ii) a first wheel having a sprocket, said first wheel connected to said frame
and positioned at said first vertex of said frame;
iii) a second and third wheel attached to said second and third vertices of
said frame, said second wheel and said third wheel opposedly aligned,
and wherein said first wheel is centrally positioned behind said second
and third wheels;
iv) a seat for supporting a rider, said seat positioned behind said second
and third wheels and attached to said frame;
v) a boom extending anteriorly of said second and third wheels;
vi) a chain wheel supportably attached to said boom and positioned
anteriorly of said seat, said chain wheel connecting to a set of pedals for
input of motive force by said rider to a chain driving said first wheel
sprocket;
vii) a braking system acting on said second and third wheels and
controllable by said rider;
viii) a steering system acting on said second and third wheels and
controllable by said rider;
b) A sail deployment means attached to said recumbent tricycle;
c) A sail means connected to said sail deployment means; d) A sail support means, said sail support means attached between said
recumbent tricycle and sail deployment means to distribute forces
generated by said sail across said recumbent tricycle allowing stable
operation of said recumbent tricycle during land sailing.
38) An apparatus for sailing on land as described in claim 37, wherein said sail
support means includes a vertical support means mounted to said recumbent
tricycle to support the upper portion of said sail support means.
39) An apparatus for sailing on land as described in claim 38, wherein said sail
support means includes a tricycle sprint mounted to said recumbent tricycle to
support the lower portion of said sail deployment means.
40) An apparatus for sailing on land * as described in claim 39, wherein said ~ sail
support means includes means to restrict sideways movement of said vertical
support means.
41) An apparatus for sailing on land as described in claim 40, wherein said sail
support means includes means to restrict sideways movement of said tricycle
sprint means.
42) An apparatus for sailing on land as described in claim 41, wherein said sail
support means is rigid.
43) An apparatus for sailing on land as described in claim 42, wherein the sail
means is transparent.
44) An apparatus for sailing on land as described in claim 40, wherein sail
deployment means allows said sail means to be self -tacking. 45) An apparatus for sailing on land as described in claim 41, wherein said sail
deployment means allows said sail means to be self -tacking.
46) An apparatus for sailing on land as described in claim 42, wherein said sail
deployment means allows said sail means to be self -tacking.
47) An apparatus for sailing on land as described in claim 46, wherein said sail
means is transparent.
48) An apparatus for sailing on land as described in claim 41, wherein said land
sail vehicle has a braking system acting on said first wheel.
49) An apparatus for sailing on land as described in claim 42, wherein said land
sail vehicle has a braking system acting on said first wheel.
50) An apparatus for sailing on land as described in claim 46, wherein said land
sail vehicle has a braking system acting on said first wheel.
51) An apparatus for sailing on land as described in claim 46, wherein said sail
means is transparent.
52) An apparatus for sailing on land as described in claim 50, wherein said sail
means is transparent.
53) An apparatus for sailing on land as described in claim 24, wherein said sail
deployment means allows said sail means to be self -tacking.
54) An apparatus for sailing on land as described in claim 37, wherein said sail
means may be furled and unfurled.
55) An apparatus for sailing on land as described in claim 52, wherein said sail
means may be furled and unfurled. 56) An apparatus for sailing on land as described in claim 42, wherein said sail
deployment means and said sail support means are integral to said recumbent
tricycle.
57) An apparatus for sailing on land as described in claim 48, wherein said sail
deployment means and said sail support means are integral to said recumbent
tricycle.
58) An apparatus for sailing on land as described in claim 50, wherein said sail
deployment means and said sail support means are integral to said recumbent
tricycle.
59) An apparatus for sailing on land as described in claim 52, wherein said sail
deployment means and said sail support means are integral to said recumbent
tricycle.
60) A land cycle for sailing on land comprising:
a) a recumbent tricycle, wherein said recumbent tricycle includes:
i) a frame having a shape approximating a triangle, having first, second
and third vertices;
ii) a first wheel having a sprocket, said first wheel connected to said frame
and positioned at said first vertex of said frame;
iii) a second and third wheel attached to said second and third vertices of
said frame, said second wheel and said third wheel opposedly aligned,
and wherein said first wheel is positioned behind said second and third
wheels; iv) a seat for supporting a rider, said seat positioned behind said second
and third wheels and attached to said frame;
v) a frame boom extending anteriorly of said second and third wheels;
vi) a chain wheel supportably attached to said boom and positioned
anteriorly of said seat, said chain wheel connecting a set of pedals for
input of motive force by said rider to a chain driving said first wheel
sprocket;
vii)a braking system acting on said second and third wheels and
controllable by said rider;
viii) a steering system acting on said second and third wheels and
controllable by said rider;
an electrical system, said electrical system comprising:
i) an electrical energy generating means, wherein said electrical energy
generating means is operable to convert mechanical energy to electrical
energy;
ii) an electrical energy storing means, wherein said electrical storing
means is operable to store electrical energy;
iii) a powering means, wherein said powering means is operable to convert
electrical energy into mechanical energy; and,
iv) an electrical distribution system, wherein said electrical distribution
system is operable to allow communication among said electrical
energy generating means, said electrical energy storing means and said
powering means; c) a tricycle sprint having a first and second end, said first end of said tricycle
sprint engaged with said frame between said second and third wheels, said
second end of said tricycle sprint positioned anteriorly of second and third
wheels;
d) a vertically positioned mast having a first and second end, said first end of
said mast engaged with said frame between said second and third wheels;
e) a f orestay having a first and second end, said first end of said f orestay
attached to said second end of said mast and said second end of said
forestay attached to said second end of said tricycle sprint;
f ) a back stay having a first and second end, said first end of said back stay
attached to said second end of said mast and said second end of said back
stay attached to said frame, proximate said first vertex;
g) a starboard mast sidestay having a first and second end, said first end of
said starboard mast sidestay attached to said second end of said mast and
said second end of said starboard mast sidestay attached to said frame at
said second vertex;
h) a port mast sidestay having a first and second end, said first end of said
port mast sidestay attached to said second end of said mast and said
second end of said port mast sidestay attached to said frame at said third
vertex;
i) a starboard sprint sidestay having a first and second end, said first end of
said starboard sprint sidestay attached to said second end of said tricycle sprint and said second end of said starboard sprint sidestay attached to
said frame proximate said second vertex;
j) a port sprint sidestay having a first and second end, said first end of said
port sprint sidestay attached to said second end of said tricycle sprint and
said second end of said port sprint sidestay attached to said frame
proximate said third vertex;
k) a tricycle sprint bottom stay having a first and second end, said first end of
said tricycle sprint bottom stay attached to said second end of said tricycle
sprint and said second end of said tricycle sprint bottom stay attached to
said frame proximate to said mast interface with said frame;
1) a luff line having a first and second end, said first end of said hiff line
connected to said second end of said mast and said second end of said luff
line connected to a furler positioned at said second end of said tricycle
sprint;
m) a butterfly jib boom having a first and second end, said second end of said
butterfly jib boom attached to said f orestay;
n) a jib sail having a triangular shape and swivelly attached along its first
portion by said luff line, said jib sail positioned within said butterfly jib
boom, said jib sail adjusted by attachment of said top portion of said jib sail
to said mast and wherein said f orestay, rear stay, mast sidestays and sprint
stays cooperatively support attachment and use of said jib sail to said
recumbent tricycle thereby allowing a rider to apply wind force to stably
motivate said land cycle. 61) The land cycle for sailing on land as set forth in claim 60 wherein said
electrical energy generating means is further defined as a generator.
62) The land cycle for sailing on land as set forth in claim 60 wherein said
electrical energy generating means is further defined as an alternator.
63) The land cycle for sailing on land as set forth in claim 60 wherein said
electrical energy storing means is further defined as a plurality of batteries.
64) The land cycle for sailing on land as set forth in claim 60 wherein said
powering means is further defined as a direct current electrical motor capable
of varying mechanical energy output rotational speeds.
65) The land cycle for sailing on land as set forth in claim 60 wherein said
electrical system is further defined as including a throttlingmeans, wheferrT
said throttling means is operable to vary the amount of electrical energy
transferred to said powering means via a user interface and wherein said
throttling means communicates with other elements of said electrical system
via said electrical distribution system.
66) The land cycle for sailing on land as set forth in claim 65 wherein said
throttling means is further defined as a variable resistance electrical circuit.
67) The land cycle for sailing on land as set forth in claim 65 wherein said
electrical system further comprises:
a) a system key for opening and closing a master circuit, wherein said master
circuit controls electricity flowing between said electrical energy generating
means, said electrical energy storing means, said powering means and said
throttling means; b) a load light for indicating whether said electrical energy generating means
is engaged;
c) a toggle switch for engaging said electrical energy generating means; and,
d) a stored electricity display for determining and displaying the amount of
stored electrical energy in said electrical energy storing means.
68) The land cycle for sailing on land as set forth in claim 60 wherein said
electrical energy generating means is rotationally engaged with said first
wheel so that rotational forces of said first wheel are transferred to said
electrical energy generating means.
69) The land cycle for sailing on land as set forth in claim 68 wherein said first
wheel is further defined as having an inner portion for engagement with a
coupling means, said coupling means operable to couple said inner portion of
said first wheel with said electrical energy generating means, and a plurality of
outer portions on either side of said inner portion, said plurality of outer
portions operable for engagement with the ground surface and wherein said
plurality of outer portions are affixed to said inner portion.
70) The land cycle for sailing on land as set forth in claim 60 wherein said
powering means is coupled to said first wheel via a rear chain, an outside
sprocket on said powering means and a sprocket on said first wheel and
wherein said powering means is coupled to said chain wheel via a front chain
and an inside sprocket on said powering means.
71) The land cycle for sailing on land as set forth in claim 70 wherein said inner
sprocket is capable of a "free wheel" state wherein said powering means is engaged and applying rotational energy to said outer sprocket but not
applying rotational energy to said inner sprocket.
72) The land cycle for sailing on land as described in claim 60 having a braking
system acting upon said first wheel, independent of said braking system
acting upon said second and third wheels.
73) The land cycle for sailing on land as described in claim 60 wherein said tricycle
sprint is comprised of a material selected from the group consisting of
aluminum, steel, carbon fiber composite, plastic and combinations thereof.
74) A land cycle as described in claim 73 wherein said f orestay is tubular and
comprised of a material selected from the group consisting of aluminum, steel,
carbon fiber composite, plastic and combinations thereof.
75) A land cycle as described in claim 74 wherein said luff line is replaced with a
rigid jib spar, said rigid jib spar having a first and second end wherein said
first end of said rigid jib spar is connected to said second end of said mast and
said second end of said rigid jib spar is connected to a f urler, said rigid jib
functioning to increase overall efficiency of said jib sail during operation by
maintaining maximum wind exposure through enhanced rigidity of said jib
sail.
76) A land cycle as described in claim 75 wherein said rigid jib spar is comprised
of a material selected from the group consisting of aluminum, steel, carbon
fiber composite, plastic and combinations thereof.
77) A land cycle as described in claim 76 wherein said rigid jib spar has a circular
shape. 78) A land cycle as described in claim 70 wherein said f orestay and sleeve have a
tubular circular shape.
79) A land cycle as described in claim 60, wherein said jib sail is transparent.
80) A land cycle as described in claim 60, wherein said jib sail has a transparent
window.
81) A land cycle as described in claim 80, wherein said jib sail is self-tacking.
82) A land cycle as described in claim 81, wherein said jib sail is self -tacking.
83) A land cycle as described in claim 60, wherein said wherein said tricycle sprint
has a caster mounted for ground contact.
84) A combination of cooperating elements offered as a kit for converting a
recumbent tricycle to a land sail vehicle comprising:-
a) a tricycle sprint having a first and second end, said first end of said tricycle
sprint allowing for cooperative engagement with the frame of a recumbent
tricycle between the second and third wheels of the recumbent tricycle,
said second end of said tricycle sprint positioned anteriorly of the second
and third wheels of the recumbent tricycle wherein said recumbent tricycle
is further comprised of:
i) a frame having a shape approximating a triangle, having first, second
and third vertices;
ii) a first wheel having a sprocket, said first wheel connected to said frame
and positioned at said first vertex of said frame;
iii) a second and third wheel attached to said second and third vertices of
said frame, said second wheel and said third wheel opposedly aligned, and wherein said first wheel is centrally positioned behind said second
and third wheels;
iv) a seat for supporting a rider, said seat positioned behind said second
and third wheels and attached to said frame;
v) a boom extending anteriorly of said second and third wheels;
vi) a chain wheel supportably attached to said boom and positioned
anteriorly of said seat, said chain wheel connecting to a set of pedals for
input of motive force by said rider to a chain driving said first wheel
sprocket;
vii) a braking system acting on said second and third wheels and
controllable by said rider;
viii) a steering system acting on said second and third wheels and
controllable by said rider;
b) a vertically positioned mast having a first and second end, said first end of
said mast engaged with said frame between said second and third wheels;
c) a f orestay having a first and second end, said first end of said f orestay
attached to said second end of said mast and said second end of said
f orestay attached to said second end of said tricycle sprint;
d) a back stay having a first and second end, said first end of said back stay
attached to said second end of said mast and said second end of said back
stay attached to said frame, proximate said first vertex of said frame;
e) a starboard mast sidestay having a first and second end, said first end of
said starboard mast sidestay attached to said second end of said mast and said second end of said starboard mast sidestay attached to said frame at
said second vertex;
f ) a port mast sidestay having a first and second end, said first end of said
port mast sidestay attached to said second end of said mast and said
second end of said port mast sidestay attached to said frame at said third
vertex;
g) a starboard sprint sidestay having a first and second end, said first end of
said starboard sprint sidestay attached to said second end of said tricycle
sprint and said second end of said starboard sprint sidestay attached to
said frame proximate said second vertex;
h) a port sprint side stay having a first and second end, said first end of said
port sprint side stay attached to said second end of said tricycle sprint and
said second end of said port sprint side stay attached to said frame
proximate said third vertice;
i) a tricycle sprint bottom stay having a first and second end, said first end of
said tricycle sprint bottom stay attached to said second end of said tricycle
sprint and said second end of said tricycle sprint bottom stay attached to
said frame proximate to said mast interface with said frame;
j) a luff line having a first and second end, said first end of said luff line
connected to said second end of said mast and said second end of said luff
line connected to a furler positioned at said second end of said tricycle
sprint; k) a butterfly jib boom having a first and second end, said second end of said
butterfly jib boom attached to said f orestay;
1) a jib sail having a triangular shape and swivelly attached along its first
portion by said luff line, said jib sail positioned within said butterfly jib
boom, said jib sail adjusted by attachment of said top portion of said jib sail
to said mast and wherein said f orestay, rear stay, mast sidestays and sprint
stays cooperatively support attachment and use of said jib sail to said
recumbent tricycle thereby allowing a rider to apply wind force to stably
motivate said land vehicle.
85) The combination of cooperating elements offered as a kit according to claim 84
also including a sprint stay spreader with first and second ends positioned
transverse of said tricycle sprint and wherein said first end of said sprint stay
spreader cooperates with said port sprint sidestay and said second end of said
sprint stay spreader cooperates with said starboard sprint sidestay to maintain
a pre-determined distance between said port sprint sidestay and said
starboard sprint sidestay.
86) The combination of cooperating elements offered as a kit according to claim 85
further comprising:
a) A back stay having a first and second section wherein said first section of
said back stay is a single line having an end which is attached to said
second end of said mast and said second section of said back stay is
comprised of a first and second line wherein each of said first and second
lines has an end for attachment; b) A stern stay bar having a first and second opposing ends is mounted to
said recumbent tricycle frame in a position posterior of said first wheel and
transverse to said first wheel and wherein said stern stay bar has a pre¬
determined length selected to maintain a pre-determined distance between
said first and second lines of said second section of said back stay and
wherein the ends of said first and second lines of said second section of
said back stay are attached to said first and seconds ends of stern stay bar.
87) The combination of cooperating elements offered as a kit according to claim 86
also including a braking system acting upon said first wheel, independent of
said braking system acting upon said second and third wheels.
88) The combination of cooperating elements offered as a kit according to claim 87
also including a set of turnbuckles cooperatively engaged between first and
said second ends, respectively, of said f orestay, said back stay, said starboard
mast sidestay, said port mast sidestay, said starboard sprint sidestay, said port
sprint sidestay, and said tricycle sprint bottom stay to allow independent
mechanical tension adjustment.
89) The combination of cooperating elements offered as a kit according to claim 88
wherein said tricycle sprint is comprised of a material selected from the group
consisting of aluminum, steel, carbon fiber composite, plastic and
combinations thereof.
90) The combination of cooperating elements offered as a kit according to claim 89
wherein said f orestay is tubular and comprised of a material selected from the group consisting of aluminum, steel, carbon fiber composite, plastic and
combinations thereof.
91) The combination of cooperating elements offered as a kit according to claim 90
including a rigid jib spar instead of a luff line, said rigid jib spar having a first
and second end wherein said first end of said rigid jib spar is connected to said
second end of said mast and said second end of said rigid jib spar is connected
to a f urler, said rigid jib functioning to increase overall efficiency of said jib sail
during operation by maintaining maximum wind exposure through enhanced
rigidity of said jib sail.
92) The combination of cooperating elements offered as a kit according to claim 91
wherein said rigid jib spar is comprised of a material selected from the group
consisting of aluminum, steel, carbon fiber composite, plastic and
combinations thereof.
93) The combination of cooperating elements offered as a kit according to claim 84
also including a braking system acting upon said first wheel of said recumbent
tricycle, independent of said braking system of said recumbent tricycle acting
upon said second and third wheels of said recumbent tricycle.
94) The combination of cooperating elements offered as a kit according to claim 93
wherein said jib sail is transparent.
95) The combination of cooperating elements offered as a kit according to claim 94
wherein said jib sail has a transparent window.
96) The combination of cooperating elements offered as a kit according to claim 91
wherein said rigid jib spar is comprised of a material selected from the group consisting of aluminum, steel, carbon fiber composite, plastic and
combinations thereof.
97) The combination of cooperating elements offered as a kit according to claim 96
wherein said jib sail is transparent.
98) The combination of cooperating elements offered as a kit according to claim 96
wherein said jib sail has a transparent window.
99) A combination of cooperating elements offered as a kit for converting a
recumbent tricycle to a land sail vehicle comprising:
a) a tricycle sprint having a first and second end, said first end of said tricycle
sprint engaged with said frame between said second and third wheels, said
second end of said tricycle sprint positioned anteriorly of second and third
wheels;
b) a vertically positioned mast having a first and second end, said first end of
said mast engaged with said frame between said second and third wheels;
c) a f orestay having a first and second end, said first end of said f orestay
attached to said second end of said mast and said second end of said
f orestay attached to said second end of said tricycle sprint;
d) a back stay having a first and second end, said first end of said back stay
attached to said second end of said mast and said second end of said back
stay attached to said frame, proximate said first vertex;
e) a starboard mast sidestay having a first and second end, said first end of
said starboard mast sidestay attached to said second end of said mast and said second end of said starboard mast sidestay attached to said frame at
said second vertex;
f ) a port mast sidestay having a first and second end, said first end of said
port mast sidestay attached to said second end of said mast and said
second end of said port mast sidestay attached to said frame at said third
vertex;
g) a starboard sprint sidestay having a first and second end, said first end of
said starboard sprint sidestay attached to said second end of said tricycle
sprint and said second end of said starboard sprint sidestay attached to
said frame proximate said second vertex;
h) a port sprint side stay having a first and second end, said first end of said
port sprint side stay attached to said second end of said tricycle sprint and
said second end of said port sprint side stay attached to said frame
proximate said third vertex;
i) a tricycle sprint bottom stay having a first and second end, said first end of
said tricycle sprint bottom stay attached to said second end of said tricycle
sprint and said second end of said tricycle sprint bottom stay attached to
said frame proximate to said mast interface with said frame;
j) a luff line having a first and second end, said first end of said luff line
connected to said second end of said mast and said second end of said luff
line connected to a f urler positioned at said second end of said tricycle
sprint; k) a butterfly jib boom having a first and second end, said second end of said
butterfly jib boom attached to said f orestay;
1) a jib sail having a triangular shape and swivelly attached along its first
portion by said luff line, said jib sail positioned within said butterfly jib
boom, said jib sail adjusted by attachment of said top portion of said jib sail
to said mast and wherein said f orestay, rear stay, mast sidestays and sprint
stays cooperatively support attachment and use of said jib sail to said
recumbent tricycle thereby allowing a rider to apply wind force to stably
motivate said land cycle, when wind force is available;
m) an electrical system, said electrical system comprising:
- i) an electrical energy generating means, " wherein said electrical energy
generating means is operable to convert mechanical energy to electrical
energy;
ii) an electrical energy storing means, wherein said electrical storing
means is operable to store electrical energy;
iii) a powering means, wherein said powering means is operable to convert
electrical energy into mechanical energy; and,
iv) an electrical distribution system, wherein said electrical distribution
system is operable to allow communication among said electrical
energy generating means, said electrical energy storing means and said
powering means, thereby allowing a rider to use electrical energy alone
or in combination with wind force, if available, to stably motivate said
land cycle. 100) The combination of cooperating elements offered as a kit according to
claim 99 also including a sprint stay spreader with first and second ends
positioned transverse of said tricycle sprint and wherein said first end of said
sprint stay spreader cooperates with said port sprint sidestay and said second
end of said sprint stay spreader cooperates with said starboard sprint sidestay
to maintain a pre-determined distance between said port sprint sidestay and
said starboard sprint sidestay.
101) The combination of cooperating elements offered as a kit according to
claim 100 further comprising:
a) A back stay having a first and second section wherein said first section of
said back stay is a single line having an end which is attached to said
second end of said mast and said second section of said back stay is
comprised of a first and second line wherein each of said first and second
lines has an end for attachment; and,
b) A stern stay bar having a first and second opposing ends is mounted to
said recumbent tricycle frame in a position posterior of said first wheel and
transverse to said first wheel and wherein said stern stay bar has a pre¬
determined length selected to maintain a pre-determined distance between
said first and second lines of said second section of said back stay and
wherein the ends of said first and second lines of said second section of
said back stay are attached to said first and seconds ends of stern stay bar.
102) The combination of cooperating elements offered as a kit according to
claim 101 also including a second braking system acting upon only said first wheel independent of said first braking system acting upon said second and
third wheels.
103) The combination of cooperating elements offered as a kit according to
claim 102 also including a set of turnbuckles cooperatively engaged between
first and said second ends, respectively, of said f orestay, said back stay, said
starboard mast sidestay, said port mast sidestay, said starboard sprint
sidestay, said port sprint sidestay, and said tricycle sprint bottom stay to allow
independent mechanical tension adjustment.
104) The combination of cooperating elements offered as a kit according to
claim 103 wherein said tricycle sprint is comprised of a material selected from
the group-consisting of aluminum, steel, carbon fiber composite, plastic and
combinations thereof.
105) The combination of cooperating elements offered as a kit according to
claim 104 wherein said f orestay is tubular and comprised of a material selected
from the group consisting of aluminum, steel, carbon fiber composite, plastic
and combinations thereof.
106) The combination of cooperating elements offered as a kit according to
claim 105 wherein said rigid jib spar is comprised of a material selected from
the group consisting of aluminum, steel, carbon fiber composite, plastic and
combinations thereof.
107) The combination of cooperating elements offered as a kit according to
claim 99 further comprising a second braking system acting upon said first wheel independent of said first braking system acting upon said second and
third wheels.
108) The combination of cooperating elements offered as a kit according to
claim 107 wherein said jib sail is transparent.
109) The combination of cooperating elements offered as a kit according to
claim 108 wherein said jib sail has a transparent window.
110) The combination of cooperating elements offered as a kit according to
claim 105 wherein said rigid jib spar is comprised of a material selected from
the group consisting of aluminum, steel, carbon fiber composite, plastic and
combinations thereof.
111) The combination of cooperating elements offered as a kit according to
claim 110 wherein said jib sail is transparent.
112) The combination of cooperating elements offered as a kit according to
claim 111 wherein said jib sail has a transparent window. |
TITLE OF INVENTION
Rechargeable Sailing Recumbent Tricycle
FIELD OF THE INVENTION
The present invention relates to an apparatus for improving the performance of a
recumbent tricycle by allowing the user to harness the motive force of wind and
generate electricity during use.
CROSS REFERENCE TO RELATED APPLICATIONS
The present application claims priority from patent application #11,329,903
entitled "Recumbent Tricycle Sail" filed on January 11, 2006, and patent
application #1-1,518,045 entitled "Rechargeable Sailing Recumbent Tricycle" filed
on September 8, 2006 with the United States Patent and Trademark Office.
Applicant herein claims priority from said patent applications and incorporates
said patent applications by reference herein.
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR
DEVELOPMENT
No federal funds were used to develop or create the invention disclosed and
described in the patent application.
REFERENCE TO SEQUENCE LISTING, A TABLE, OR A COMPUTER
PROGRAM LISTING COMPACT DISK APPENDIX
Not Applicable
DETAILED DESCRIPTION - BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of the sailing system mounted to a recumbent tricycle
as described herein;
FIG. IA, IB and 1C are generalized perspectives of the sailing subsystems
comprising the sailing system described herein;
FIG. 2 is a side view of recumbent tricycle before mounting of the sailing system
shown in FIG. 1;
FIG. 3 is a right side view of the front portion of the sailing system;
FIG. 4 is a left side view of the front portion of the sailing system described herein;
FIG. 5 is a top view of tricycle center section without the sailing system mounted
as described herein; - - - -
FIG. 6 is a detailed view of the jib boom in relation to the recumbent tricycle frame
and mast as described herein;
FIG. 7 is a right side perspective view of the sailing system mounted to a
recumbent tricycle as described herein;
FIG. 8 is a detailed view of the jib boom of the sailing system described herein;
FIG. 9 is another embodiment of the sailing system described herein; and,
FIG. 10 is a detailed view of another embodiment of the sailing system jib boom
described herein.
FIG. 11 is a perspective view illustrating the sail as deployed perpendicular to the
tricycle.
FIG. 12 is a right side view illustrating another powered embodiment of the
present invention.
FIG. 13 is a left side view of the embodiment shown at FIG. 12.
FIG. 14 is a side view of the embodiment shown at FIG. 12.
FIG. 15 is a top perspective view of embodiment shown in FIG. 14.
FIG. 16 is a side view illustrating the generator of the powered system.
FIG. 17 is a detailed view of the controls and indicator panel of the hybrid power
system.
FIG. 18 is a detailed rear perspective view of the embodiment shown at FIG. 12.
Element Name Element Number
Recumbent tricycle 1
Hub mount 2
Front wheels 3
Frame boom 4 Outriggers c
Main frame 6
Chain wheel 7
Pedals 8
Accessory mounting tube 9
Chain 10
Chain guide 11
Right side brake handle 12
Left side brake handle 13
Seat 14
Recumbent tricycle rear wheel 15
Sprint caster 16
Steering rods for front wheels 17
Handle bars 18
Rear wheel brake handle 19
Rear wheel brake line 20
Front derailleur shifter 21
Rear derailleur shifter 22
Rear wheel frame fork 23
Rear wheel brake 24
Rear wheel tricycle rack 25
Mast mount 26
Element Name Element Number
Mast 27
Forestay 28
Starboard (right) sprint sidestay 29
Port (left) sprint sidestay 30
Back stay 31
Sprint sidestay spreader 32
Derailleur shifter line 33
Stern stay bar 34
Dogleg 35
Rear starboard (right side) stay 36
Rear port (left side) stay 37
Starboard (right) mast sidestay 38
Port (left side) mast sidestay 39
Jib (head) sail 40
Tricycle sprint bottom stay 41
Jib sheet 42
Butterfly jib boom 43
Tricycle sprint 44
Butterfly jib boom bracket with cleat 45
Jib sheet mast cleat 46
Jib swivel 47
Jib f urler 48
Jib sail f urler line 49
Luff line 50
Butterfly jib boom apex 51
Rigid jib spar 52
Butterfly jib boom sleeve 53
Turnbuckle 54
Element Name Element Number
Rigid forestay 55
Securement pins 56
Support strut 57
Mast rigging subsystem 58
Tricycle sprint rigging subsystem 59
Sail deployment subsystem 60
Sailing system 61
Sail window 62
Generator 63
Generator belt 64
Intentionally Blank 65
Control Box 66
Intentionally Blank 67
Battery 68
Battery Platform 69
Electrical System Key 70
Generator on/ off switch 71
Battery volt meter 72
System light 73
Generator mounting bracket 74
Generator drive pulley 75
Electric motor 76
Intentionally Blank 77
Generator belt tension adjuster 78
Electrical wiring 79
Central Turnbuckle Tube 80
Front chain 81
Rear chain 82
Inside sprocket 83
Outside sprocket 84
Motor throttle 85
Front disc brake 86
Front disc brake caliper 87
Rear wheel tire 88
Rear wheel spokes 89
DETAILED DESCRIPTION
In overview, the apparatus and method as described herein teaches a sailing method and apparatus which allows a sail to be added to a recumbent tricycle. The inventor discloses and claims adding a frontally mounted sail to an existing recumbent tricycle through a combination of parts sold as a kit, the method of mounting and using said front sail in combination with a recumbent tricycle and a land sail cycle wherein the sail and recumbent tricycle are integral as well as any other means to accomplish the function of frontally mounted sails in combination with recumbent tricycles.
In the following description reference is made to the accompanying drawings, which form a part hereof, and in which is shown by way of illustration specific embodiments in which the invention may be practiced. These embodiments will be described in sufficient detail to enable those skilled in the art to practice the invention, and it is to be understood that other embodiments may be utilized and that structural changes may be made without departing from the scope of the invention. In the accompanying drawings, like reference characters designate the same or similar parts throughout the several views.
Recumbent tricycles (sometimes referred to simply as "trikes") are closely related to recumbent bicycles, although they have three wheels instead of two. Tricycles come in two varieties, the delta, with two rear wheels, and the tadpole, with two front wheels. Most recent high-performance tricycles are of the tadpole variety. Tricycles are very stable and are capable of turning sharply without leaning, producing lateral "g forces" similar to a sports car.
FIG. 1 illustrates a perspective view of one embodiment of the sailing system 61 as mounted to a recumbent tricycle 1 and as shown in greater detail in FIG. 3 and 6- 10. FIGS. 2, 4 and 5 show the recumbent tricycle 1 with various sections of sailing system 61 removed to highlight certain elements and features discussed in greater detail herein. In overview, the sailing system 61 is composed of a mast rigging
subsystem 58 (FIG. IA), tricycle sprint rigging subsystem 59 (FIG. IB) and sail deployment subsystem 60 (FIG. 1C). The mast rigging subsystem 58 includes mast 27 and various stays, as shown generally at FIG. IA in complete lines and described in more detail herein, which are affixed between the recumbent tricycle 1 and the mast 27. A stay, as typically used in nautical applications, is defined as a wire, rope or cable. The mast rigging subsystem stays support the mast 27 and distribute forces generated by the jib sail 40 across the mast rigging subsystem 58 and recumbent tricycle 1 to allow for stable operation of the recumbent tricycle 1 during land sailing. The tricycle sprint rigging subsystem 59, as shown generally at FIG. IB in complete lines, including tricycle sprint 44, sprint sidestays 29 and 30, jib boom 43 and luff line 50, along with other elements further described and defined herein, generally function to support the tricycle sprint 44 which supports the jib sail 40 as deployed. Sail deployment subsystem 60 shown at FIG. 1C in complete lines includes jib sail 40, jib sheet 42, butterfly jib boom 43, butterfly jih_ boom bracket with cleat 45, jib sheet mast cleat 46, jib swivel 47, jib furler 48, jib sail furler line 49 and luff line 50 along with other elements further described and defined herein, functioning to deploy jib sail 40 and cooperating with the other elements and subsystems of sailing system 61 and recumbent tricycle 1.
Jib sail 40, as shown may be made of any suitable strong lightweight material compatible with sailing which may or may not be transparent. Suitable jib sail 40 materials may include canvas, Aramid fibre laminates, (also known by the tradename Kevlar®) polyurethane films, Dacron®, Mylar or Pentex laminates, woven fabrics, monofilm and composites incorporating carbon or any combination thereof. As designed, the rider may operate the land sail vehicle with a jib sail having a material that is relatively opaque. Rider visibility may be increased by choosing a sail that is fully transparent or as shown in FIG.l having a transparent sail window 62.
FIG. 2 illustrates the lower front portion of the recumbent tricycle 1, as found in the prior art, with seat 14 removed to better show frame 6. The general shape of
the tricycle frame 6 is that of an isosceles triangle with a rear wheel 15 at the first vertex of the triangle, proximate to rear wheel frame fork 23 and front wheels 3 at the second and third vertices of the triangle.
As shown in FIG. 5 the portions of the frame 6 extending out sideways from the center to the wheels are known as outriggers 5. Hub mounts 2 connect the outriggers 5 to the front wheels 3. Extending anteriorly out from front wheels 3 is frame boom 4 upon which chain wheel 7 has been mounted (FIG. 2). Pedals 8 turn chain wheel 7, which is connected through chain 10 to a sprocket attached to rear wheel 15. Turning chain wheel 7 allows motive force to be applied by a rider sitting on seat 14 attached to frame 6, positioned posterior to front wheels 3. A front derailleur shifter 22 allows changes in the front crankset gear ratio (not shown) through derailleur shifter line 33 (FIG. 5) and rear derailleur shifter 21 allows changes in rear cassette gear ratio (not shown) to further improve user selection of tricycle speeds. The tricycle 1 may also be slowed down or stopped using independent brakes (shown as disc brakes 86 and calipers 87 in FIG. 5) mounted at both left and right front wheels 3 and controlled by right and left brake handles 12, 13 (FIG. 2). Directional control and steering by the rider is delivered through handle bars 18 (FIG. 5) which are connected to front wheel steering rods 17. To allow the rider to manage the jib sail 40 with left hand and control the recumbent tricycle 1 with right hand, a rear brake 24 (FIG. 2) has been added to the rear wheel 15. The rear brake 24 also allows stable control of the recumbent tricycle 1 through a single brake controlled by the rear brake handle 19 (FIG. 6), thus freeing the rider's other hand to control the jib sail 40 through jib sail sheet 42. Most recumbent tricycles of the tadpole variety used with this sailing system do not come outfitted with a rear-wheel brake. This rear wheel brake disclosed and claimed herein provides even braking with one hand, freeing the rider's other hand to control the sail deployment subsystem 60 (FIG. 1C) of the sailing system 61 (FIG. 1). The rear wheel brake 24 as shown is one means of stably braking the land sail vehicle using one hand, as recited in the claims (FIG. 7).
FIG. 4 illustrates the lower support portion of the tricycle sprint rigging subsystem 59 (FIG. IB) as attached to the recumbent tricycle 1. As shown in FIG. 4, the tricycle sprint 44 has a first and second end. The first end of the tricycle sprint 44 is engaged with the frame boom 4 portion of the tricycle 1 between the front wheels 3 and is positioned anteriorly of the front wheels 3 (second and third vertices) (FIG. 5). The tricycle sprint 44 may be a hollow tapered tube made to be lightweight and strong. The preferred material is a carbon fiber composite, but other materials may be chosen such as plastic, steel and or aluminum. The tricycle sprint 44 comprises the upper portion of the tricycle sprint rigging subsystem 59 shown generally at FIG. IB and the lower portion of the sail deployment subsystem 60. It may be mounted to or simply engage frame boom 4 at the front axle.
As shown in FIG. 3, the front (or second end) of the tricycle sprint 44 is connected to the lower end of the f orestay line 28 and the lower end of the luff line 50 through jib f urler 48. As shown, actual connection hardware is an eye-bolt (no numeral assigned). Those skilled in the art will appreciate that other attachment means and methods including screws and brackets may be used without departing from the spirit and intent of present disclosure. In the embodiment shown, the first end of the tricycle sprint 44 detachably abuts boom 4 (FIG. 2). The various sprint sidestays (FIG. 3) shown provide the necessary tension to hold the tricycle sprint 44 in place against the recumbent tricycle boom 4. With proper modification, the tricycle sprint 44 may also be attached to the boom 4 with securements such as bolts, brackets and screws. The tricycle sprint 44 may be also formed integral with the frame of the recumbent tricycle 1. The tricycle sprint 44 as shown is one means of providing support for the lower portion of sailing system 61, as recited in the claims (FIG. 1). Additionally, as shown in FIG. 1, 3, 4, 6 and 7 the front (or second end) of tricycle sprint 44 incorporates a caster 16 or wheel means to protect the tricycle sprint 44 in the event of contact with the ground. The caster 16 as shown is one means of providing support for the tricycle sprint 44, as recited in the claims.
As shown in FIG. 1, IA and FIG. 7, the mast rigging subsystem 58 has a vertically- positioned mast 27 having a first and second end. The first end of the mast 27 mounts to the mast mount 26 (FIG. 5) for engagement with and mounting upon the tricycle frame 6 between the second and third wheels 3 (FIG. 6). For stability, the mast 27 is mounted in the center between the second and third wheels 3. The mast 27 is supported by a f orestay 28 (FIG. 1) which is a component of both mast and tricycle rigging subsystems, 58 and 59, respectively. In the preferred embodiment, the mast mount 26 (FIG. 2) is not secured to the frame 6 of the recumbent tricycle 1 but only abuts against it. Those skilled in the arts will appreciate that mast mount 26 may also be secured to the frame 6 with bolts or brackets, or made integral to the frame 6. The mast mount 26 and mast 27 may also be fabricated in either one or two distinct pieces. The mast 27 and mast mount 26, as shown, are one means of vertically supporting the upper portion of sailing system 61, as recited irrthe claims (FIG. 1). - - - . . . __
The f orestay 28 is attached to the top of the mast 27 at one end and at the front end of the tricycle sprint 44 at the other end (FIG.l). A back stay 31 having a first end attached to the top end of the mast 27 and a second end attached to the tricycle frame 6 proximate the rear vertex. The forestay 28 is one means of supporting the anterior portion of the sailing system 61, as recited in the claims.
As shown in FIG. 1, the back stay 31 starts as one line but may be split into two lines using a dogleg 35 before attachment to the stern stay bar 34 which attaches to the rear wheel tricycle rack 25 (FIG. 7). In this configuration, the stern stay bar 34 maintains the position of the rear starboard stay 36 and rear port stay 37 creating or maintaining a functional space for the rider. The back stay 31 is one means of supporting the rear portion of the mast rigging subsystem 58, as recited in the claims. The rear wheel tricycle rack 25 provides one means of attachment of the rear portion of the mast rigging subsystem 59 to the recumbent tricycle 1, as recited in the claims.
As illustrated in FIG. 1 and FIG. 7, the starboard mast sidestay 38 has a first and second end. The first or upper end of the starboard mast sidestay 38 (FIG. 7) is connected to the top end of the mast 27. The second or lower end of the starboard mast sidestay 38 connects to the second vertex of the frame 6, which in this embodiment is the hub mount 2 of the tricycle 1 (FIG. 5). The starboard mast sidestay 38 (FIG. 7) directs sail system 61 support forces to the right side of tricycle 1 to increase stability. Also as illustrated in FIG. 1 and FIG. 7, the port mast sidestay 39 has a first and second end. The first or upper end of which is connected to the top end of the mast 27. The second or lower end of the port mast sidestay 39 connects to the third vertex of the frame 6, which in this embodiment is the hub mount 2 of the tricycle 1. The port mast sidestay 39 directs the mast rigging subsystem 58 support forces to the left side of tricycle 1 to increase stability. The starboard and port mast sidestays 38, 39 work together to prevent the mast 27 from moving sideways. (FIG. IA) The starboard mast sidestay 38 and port mast sidestay 39 are one means of restricting the mast 27 from moving sideways, as recited in the claims.
As illustrated in FIG. 3 and 7, a starboard (right) sprint sidestay 29 supports the right front of the tricycle sprint rigging subsystem 59. The starboard sprint sidestay 29 connects to the tricycle sprint 44 at the front and then runs through the stay spreader 32 to connect to wheel mount 2 (FIG. 5), proximate the second vertex of tricycle frame 6. Correspondingly, a port (left) sprint sidestay 30 (FIG. 3) supports the left front of the tricycle sprint rigging subsystem 59. The port sprint sidestay 30 connects to tricycle sprint 44 at the front and runs through the sprint stay spreader 32 to connect to wheel mount 2 (FIG. 5), proximate third vertex of tricycle frame 6. The combination of sprint sidestays stabilize the front of the tricycle sprint 44 and restrict sideways movement during sail operation. The starboard sprint sidestay 29 and port sprint sidestay 30 are one means of restricting the tricycle sprint 44 from moving sideways, as recited in the claims. Tricycle sprint bottom stay 41 as shown in FIG. 1 and 4 attaches at the first end to the underside of recumbent tricycle boom 4 (FIG. 2). The first end of bottom stay
41 may also be connected to the tricycle frame proximate to the mast mount 26, as long as the tricycle sprint bottom stay 41 does not interfere with the chain wheel 7, pedals 8 or chain 10. The second end of tricycle sprint bottom stay 41 is attached to the front end of the tricycle sprint 44. Tricycle sprint bottom stay 41 provides support for the front portion of tricycle sprint rigging subsystem 59. The tricycle sprint bottom stay 41 prevents the tricycle sprint 44 from moving upwards when the jib sail 40 is active. The tricycle sprint bottom stay 41 is one means of restricting the tricycle sprint 44 from moving upwards, as recited in the claims.
Luff line 50, as illustrated in FIG. 8, is a cable or rope running through the front inside portion of the jib sail 40 which is connected at the top to the jib sail swivel 47 (FIG. 1) and at the bottom to the jib furler 48, which is connected to tricycle sprint 44. The jib furler 48 rotates to furl and unfurl the jib sail 40 in combination with jib sail swivel 47. FIG. 7 illustrates the jib sail 40 furled. The jib sail 40 is connected at its upper end to mast 27 (FIG. 1) at jib sail swivel 47 and at its lower end connects to the anterior end of tricycle sprint 44 at jib sail furler 48. The jib sail 40 has a luff line 50 (FIG. 8) on the leading edge which supports it under load. Deployment of the jib sail 40 (FIG. 1) allows the recumbent tricycle 1 to capture the wind and be used as a land cycle sail vehicle. The jib sail 40 is one means of sail for the land cycle sail vehicle, as recited in the claims. The luff line 50 as shown in detail at FIG. 8 is one means of supporting the jib sail 40, as recited in the claims. Additionally, the combination of jib sail swivel 47 and jib sail furler 48 as shown in FIG. 1 and 7 are one means of deploying the jib sail 40, as recited in the claims.
FIG. 3, 7 and 8 illustrate the butterfly jib boom 43 which bi-sects the lower portion of the jib sail 40. The front portion of the butterfly jib boom 43 is attached to the forestay 28. The leading edge of the jib sail 40 (sometimes referred to as the sail "luff") and the luff line 50, run inside the front portion of the butterfly jib boom 43, but are not attached to the forestay 28 nor to the butterfly jib boom 43, in order that the jib sail 40 may be furled freely. The butterfly jib boom 43 acts to hold jib
sail 40 taunt when unfurled by butterfly jib boom bracket with cleat 45 (FIG. 6). The butterfly jib boom bracket with cleat 45 also acts to allow jib sail 40 to be partially or wholly furled, depending on wind conditions. The butterfly jib boom 43 is one means of varying the amount of sail area exposed to the wind, as recited in the claims.
The front point where the curves of the two tubes comprising the butterfly jib boom 43 meet is defined as the butterfly jib boom apex 51 (FIG. 8). The butterfly jib boom apex 51 is also the connection point to the forestay 28. The butterfly jib boom 43, as attached to forestay 28, permits the rear end of the butterfly jib boom 43, together with the jib sail 40, to swing to the port or starboard side of the recumbent tricycle 1, depending on the direction of the wind. FIG. 11 illustrates butterfly jib boom 43 and jib sail 40 swung out to the port side of the recumbent tricycle 1. This action of~the butterfly jib boom 43 permits, the jib sail 40. to be "self-, tacking" when the operator changes the direction of the recumbent tricycle 1 relative to the wind. The butterfly jib boom 43 is one means of deploying the jib sail 40 to be self-tacking, as recited in the claims.
FIG. 9 illustrates further embodiments of the sailing system disclosed herein wherein line comprising forestay 28 has been replaced by rigid forestay 55. Preferred materials for the rigid forestay 55 are carbon fiber composites for lightweight, flexibility and rigidity. Alternative materials such as plastics and lightweight metals or combinations thereof may also be selected. As shown in FIG. 9 and more particularly in FIG. 10, the apex of the butterfly jib boom 51 has been further modified with the addition of a butterfly jib boom sleeve 53. This modification improves upon the butterfly jib boom 43. The butterfly jib boom sleeve 53 fits over the rigid forestay 55 and allows the butterfly jib boom 43 to swing from side to side without permitting the opposite end of the butterfly jib boom 43 to move up or down. The support struts 57 are one means to further strengthen the connection of the butterfly jib boom sleeve 53 to the butterfly jib boom 43. Securement pins 56 restrict movement of the butterfly jib boom sleeve 53
along the tubular f orestay 55. To reduce the weight of the rigid f orestay 55, it may ¬ be tubular or hollow.
As shown in FIG. 10, the addition of the butterfly jib boom sleeve 53 to the butterfly jib boom 43 and the use of a rigid tube as a f orestay, inside the butterfly jib boom sleeve 53, prevents the back end of the butterfly jib boom 43 from moving up or down while sailing, which would otherwise cause slack or bending in the sail surface area. This improvement makes the self -tacking jib sail 40 maintain maximum surface area exposed to the wind at all times increasing the efficiency of the jib sail 40. The butterfly jib boom sleeve 53 in combination with butterfly jib boom 43 is one means of allowing the rear end of the butterfly jib boom 43 to swing laterally while maintaining maximum surface area exposed to the wind at all times, as recited in the claims. Securement pins 56 are one means of restricting movement of the butterfly jib boom sleeve 53 along the tubular f orestay 55, as recited in the claims. FIG. 11 illustrates the position of the butterfly jib boom 43 as jib sail 40 is swung out away from the tricycle 1 during sail deployment.
FIG. 9 and 10 also illustrate another embodiment of the sailing system disclosed herein. In this embodiment, the luff line 50 has also been replaced with a rigid jib spar 52, also capable of minimal flex and having enhanced rigidity, similar to the rigid f orestay 55. This rigid jib spar 52 does not bow out or bend as does luff line 50. During sailing, rigid jib spar 52 increases overall efficiency of jib sail 40 during operation by maintaining maximum exposure of "luff" to the wind, by not bending.
The preferred materials for the rigid jib spar 52 are carbon fiber composites for lightweight flexibility and rigidity. Alternative materials such as plastics and lightweight metals or combinations thereof may also be selected. The rigid jib spar 52 may also be tubular or hollow. The rigid f orestay 55 and rigid jib spar 52 may be implemented together as shown in FIG. 9 and 10 or independently. Although rigid forestay 55 and rigid jib spar 52 as shown in FIG. 9 and 10 are circular, non-
circular shapes may also be chosen. The rigid f orestay 55 is one means of increasing the rigidity of both the mast rigging subsystem 59 and sail deployment subsystem 60, as recited in the claims. The rigid jib spar 52 is one means of increasing the rigidity of the sailing system 61 to enhance sail performance, as recited in the claims.
ELECTRICAL GENERATION SYSTEM
In another embodiment, shown in FIGS. 12-18, an electrical system may be used to generate, store and subsequently release electrical energy as needed by the operator. In the embodiment shown in FIG. 12, a generator 63 is mounted with a generator mounting bracket 74 to the stern stay bar 34 and rear wheel tricycle rack 25. The generator 63 may be mounted in other positions on the recumbent tricycle 1, and such placement in no way limits the scope of the current invention. A generator 63 is one form of electrical energy generating means as recited in the claims. As shown in FIG. 18, the generator 63 is mechanically engaged with a generator drive pulley 75 by a generator belt 64 (FIG. 18). In a first embodiment, the generator drive pulley 75 is affixed to and sandwiched between dual recumbent tricycle rear tires 88 on rear wheel 15 (FIG. 12). Rear wheel 15 may be composed of three bicycle rims 77 secured together by welding or other securement means with the center rim 77 used as pulley 75 and the two outer rims 77 fitted with tubes and tires. Those practiced in the arts will understand that rear wheel 15 may also be composed of a unitary apparatus allowing a pulley 75 to be placed between the two wheels 15 for mounting of tires 88. In another embodiment, the arrangement of rims 88 and pulley 75 may be used with only a single tire 88 with only slight decrease in stability. Placing the generator drive pulley 75 between two recumbent tricycle rear tires 88 adds to the stability of the recumbent tricycle 1 when the generator 63 is engaged, and the dual tire 88 placement allows for a more even load distribution over the generator 63 and the recumbent tricycle rear tires 88. On the circumference of the outer recumbent tricycle rear rims 77 are rear wheel tires 88 which provide an interface between the recumbent tricycle rear wheel 15 and the ground surface. As the recumbent
tricycle rear wheel 15 rotates, the rotational forces are transferred to the generator 63 by the generator belt 64. The tension on the generator belt 64 may be adjusted by rotating the central turnbuckle tube 80 on the generator belt tension adjuster 78.
The generator 63 converts the mechanical energy of the rotational forces from the recumbent tricycle rear wheel 15 to electrical energy. The generator 63 may act as a type of regenerative braking, because when the generator 63 is engaged and the batteries 68 are being charged, the recumbent tricycle rear wheel 15 experiences more rotational resistance than when the generator 63 is not engaged. In this same manner, the electrical system may be used by the operator as a type of hill descent control, wherein the speed at which the recumbent tricycle 1 is allowed to descend an incline may be partially controlled by the operator's engagement of the generator 63. The principle energy input is derived from the motive force of the wind as captured by sail 40 and converted into electrical energy by the electrical generating system previously described.
The electrical energy generated by the generator 63 is transferred to batteries 68 through electrical wiring 79 (FIG. 12). Batteries 68 are one type of electrical energy storing means as recited in the claims as illustrated in FIG. 18. The batteries 68 are located on battery platforms 69 mounted on the rear wheel frame fork 23 (FIG. 2). The current invention is not limited by the chemistry associated with a particular battery type or the capacity of batteries 68 that are employed.
The generator may be switched to a load or no load state via the generator on/ off switch 71 on the control box 66 (FIG. 17). An electrical system key 70 is also located in the control box 66. The electrical system key 70 is operable to energize or disengage the entire electrical system. When the system key is in the "off" position, no current is drawn from the batteries 68 by the electrical motor 76 (FIG. 12), as described in detail below, system light 73 and battery voltmeter 72 and the system circuit is open. When the system key is in the "on" position, current may be drawn from the batteries 68 by the electrical motor 76 (described in detail
below), system light 73, and battery voltmeter 72 and the system circuit is closed. The system light 73 may be configured to illuminate when the electrical system key 70 is in the "on" position, and generator on/ off switch 71 is in the "on" position, but there is generation of electricity by generator 63. The battery voltmeter 72 is located on the control box 66 and provides the user with information as to the amount of electrical energy available in the batteries 68. The battery voltmeter 72 indicates at what moment and to what magnitude electricity- energy is being drawn from or routed into the batteries 68. Voltmeter 72 may be analog, as shown in FIG. 17, or digital (not shown).
As shown in FIGS. 12-15, an electric motor 76 may be coupled to both the recumbent tricycle rear wheel 15 and the chain wheel 7 (FIG. 1). Shown in more detail in the embodiment in FIG. 15, the electric motor 76 may be mounted to the main frame 6. An electric motor 76 is one type of powering means as recited in the claims, and it may be of the type able to operate at a plurality of revolutions per minute. The electrical motor 76 includes a shaft for providing rotational mechanical energy. Affixed to said shaft are two sprockets; an inside sprocket 83 and an outside sprocket 84. The inside sprocket 83 communicates with the chain wheel 7 via a front chain 81 and the outside sprocket 84 communicates with the recumbent tricycle rear wheel 15 via a rear chain 82. The inside sprocket 83 is coupled to said shaft in a manner similar to that in which a gear cluster is coupled to the rear axle of a conventional multi-speed bicycle allowing for a "free-wheel" motion, as is well known to those skilled in the art. That is to say that if the electric motor 76 is rotating (and hence rotating the shaft to which the inside sprocket 83 is coupled), the inside sprocket 83 need not rotate, so that the chain wheel 7 need not rotate. The outside sprocket 84 is coupled to said shaft in a conventional manner not allowing the previously explained "free-wheel" motion. In this way, when the electrical motor 76 is turning, the outside sprocket 84 turns as a result and transfers rotational energy to the recumbent tricycle rear wheel 15. In this configuration, the operator may also pump the pedals 8 and use the
electrical motor 76 concurrently, thus conserving electrical energy while expending less effort pedaling.
In the embodiment shown in FIG. 18, the amount of electrical energy routed to the electric motor 76 (FIG. 15) may be varied by the user via the motor throttle 85 (FIG. 18). The motor throttle 85 is one type of throttling means as recited in the claims. Adjusting the rotational position of the motor throttle 85 changes the amount of electrical energy routed from the batteries 68 to the electric motor 76. The motor throttle 85 may be composed of variable resistance circuitry, as is well known to those skilled in the art, and choice of throttling means in no way limits the scope of the current invention. When the motor throttle 85 is in the "off" position, the electric motor 76 disengages for minimal drag to the mechanical drive system so that mechanical input to the chain wheel 7 from the user is not lost in rotating the electric motor 76. When the motor throttle 85 is rotated to an "on" position (a position in which the electric motor 76 draws electrical energy from the batteries 68), the electric motor 76 rotates, subsequently rotating the outside sprocket 84 and transferring mechanical energy to the recumbent tricycle rear wheels 15 via the rear chain 82. In this way, the electric motor 76 may provide mechanical energy to the recumbent tricycle rear wheels 15 (thereby reducing the mechanical energy required to be input by the user at a given speed) when the user desires. The amount of mechanical energy the electric motor 76 provides is dictated by the user via the motor throttle 85. The further the user rotates the motor throttle 85 from the "off" position, the more electrical energy is consumed and converted to mechanical energy by the electric motor 76 until the electrical motor 76 is operating at the maximum electrical energy consumption allowed by the electrical system.
While the invention has been described with reference to preferred embodiments, variations or modifications would be apparent to one of ordinary skill in the art without departing from the scope of the invention. Consequently, the appended
claims should not be limited to their literal terms, but should be broadly construed in accordance with the scope of the invention, as described above.
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