U.S. patent application number 10/005798 was filed with the patent office on 2002-05-09 for ventilation with filter for watercraft.
Invention is credited to Hattori, Toshiyuki.
Application Number | 20020053309 10/005798 |
Document ID | / |
Family ID | 26603517 |
Filed Date | 2002-05-09 |
United States Patent
Application |
20020053309 |
Kind Code |
A1 |
Hattori, Toshiyuki |
May 9, 2002 |
Ventilation with filter for watercraft
Abstract
A watercraft has a water preclusion structure for internal
ventilated cavities. A ventilation tube connects an internal
cavity, such as an engine compartment, with the atmosphere for
allowing air transfer to or from the cavity. A water preclusion
structure is disposed between the atmosphere and the cavity. In one
arrangement, water repellant filters are installed over an end of a
tube that allows the air transfer. In another arrangement, an air
box that communicates with the cavity contains air inlets that have
water repellant filters disposed between the outlet of the air box
and the inlet of the air box. The air box also contains a drain to
allow water removed from the air to drain out of the air box.
Inventors: |
Hattori, Toshiyuki; (Iwata,
JP) |
Correspondence
Address: |
KNOBBE MARTENS OLSON & BEAR LLP
620 NEWPORT CENTER DRIVE
SIXTEENTH FLOOR
NEWPORT BEACH
CA
92660
US
|
Family ID: |
26603517 |
Appl. No.: |
10/005798 |
Filed: |
November 7, 2001 |
Current U.S.
Class: |
114/55.51 |
Current CPC
Class: |
F02M 35/167 20130101;
B63B 34/10 20200201; B63J 2/06 20130101; F02B 61/045 20130101; F02M
35/10052 20130101 |
Class at
Publication: |
114/55.51 |
International
Class: |
B63B 001/00 |
Foreign Application Data
Date |
Code |
Application Number |
Nov 7, 2000 |
JP |
2000-338834 |
Aug 23, 2001 |
JP |
2001-252650 |
Claims
What is claimed is:
1. A personal watercraft comprising a deck and a lower hull, said
deck and said lower hull being joined to define a cavity within
said personal watercraft, a ventilation system comprising a
passageway extending between said cavity and a location outside of
said cavity, said location being in communication with atmospheric
air and said ventilation system comprising a water repellant filter
disposed along said passageway.
2. The watercraft of claim 1, wherein said passageway comprises an
inlet disposed proximate said location and said water repellant
filter is disposed at said inlet.
3. The watercraft of claim 2, wherein said inlet is disposed within
an air chamber defined between said deck and a body panel.
4. The watercraft of claim 3, wherein said inlet is disposed
proximate a bow hatch and said body panel comprises said bow
hatch.
5. The watercraft of claim 3, wherein said inlet is disposed
beneath a forward portion of a seat of said watercraft and said
body panel comprises a side panel.
6. The watercraft of claim 2, wherein said inlet is disposed within
an air chamber defined beneath a seat of said watercraft.
7. The watercraft of claim 6, wherein said inlet is disposed on a
sloping surface positioned below said seat.
8. The watercraft of claim 7, wherein said inlet is disposed lower
than said sloping surface.
9. The watercraft of claim 8, wherein said inlet is disposed
beneath a rear portion of said seat.
10. The watercraft of claim 8, wherein said seat comprises
separable front and rear portions and said inlet is disposed
beneath a juncture of said portions.
11. The watercraft of claim 1, wherein said filter has a length
defined along a longitudinal direction of said watercraft and a
width defined along a transverse direction of said watercraft, said
width being greater than said width.
12. The watercraft of claim 11, wherein said filter has a generally
rectangular plan-view section.
13. The watercraft of claim 11, where said filter comprises four
upstanding walls.
14. A personal watercraft comprising a hull defining a
substantially enclosed cavity, a ventilation system comprising a
first passage, a second passage and a third passage, each of said
passages extending outward from said cavity to a region filled with
atmospheric air, a water-repellant filter disposed over an end of
each of said passages that is associated with said region filled
with atmospheric air.
15. The watercraft of claim 14 further comprising a longitudinally
extending central vertical plane, said filters associated with said
first, second and third passages each being disposed along said
plane.
16. The watercraft of claim 14, wherein said filters comprise a
nonwoven fabric that is air permeable and water repellant.
17. The watercraft of claim 14, wherein each said region comprises
at least one drain that lead from said region to a location outside
of said cavity.
18. The watercraft of claim 14, wherein said filters are removably
mounted to said watercraft.
19. A removable filtration unit for a personal watercraft
comprising an upper plate, a lower plate, an opening extending
through said lower plate, a filter disposed between said upper
plate and said lower plate and encircling said opening, said filter
being formed of a material that is air permeable and water
repellant.
20. The filtration unit of claim 19, wherein said opening has a
rectangular shape and said filter has a corresponding rectangular
shape.
21. The filtration unit of claim 19, wherein said upper plate
comprises a sleeve that is adapted to receive a mounting fixture
for a watercraft seat.
22. The filtration unit of claim 19, wherein said upper plate
comprises a portion of a bow hatch locking arrangement.
23. The filtration unit of claim 19, wherein said opening comprises
a downwardly depending wall that extends below said lower
plate.
24. The filtration unit of claim 23, wherein said wall is
rectangular in plan-view cross section.
25. A personal watercraft comprising a hull, a cavity disposed
within said hull, a removable filtration unit attached to said hull
and comprising an upper plate, a lower plate, and an opening
extending through said lower plate, said opening cooperating with
an opening through said hull, a filter being disposed between said
upper plate and said lower plate and encircling said opening, said
filter being formed of a material that is air permeable and water
repellant.
26. A personal watercraft comprising a hull, a cavity communicating
with the atmosphere through a ventilation opening and means for
repelling water from said opening.
Description
PRIORITY INFORMATION
[0001] This application is based on and claims priority to Japanese
Patent Application Nos. 2000-338834, filed Nov. 7, 2000, and
2001-252650, filed Aug. 23, 2001, the entire contents of which are
hereby expressly incorporated by reference.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] The present invention generally relates to hull
constructions for watercraft. More particularly, the present
invention relates to water preclusion systems that reduce the
likelihood that water can infiltrate ventilated compartments within
the hull of the watercraft.
[0004] 2. Description of the Related Art
[0005] Personal watercraft are designed for sporting operation. The
watercraft generally comprise an engine contained within a
substantially enclosed engine compartment. Obviously, air must be
provided to the engine for combustion. The air commonly is drawn
from within the engine compartment that is defined within the body
of the watercraft.
[0006] Air is provided to the engine compartment through various
ducts and ventilation systems. These ventilation systems usually
have an atmospheric end that is mounted beneath the seat or forward
of the seat at a location near the bow of the watercraft.
Importantly, most of these ventilation systems also have internal
duct work that extends throughout a portion of a chamber formed
within the hull such that air can be directed to strategic
locations. This duct work takes up valuable space but reduces the
free splashing of water throughout the chamber when water is pulled
into the ventilation system.
[0007] It is not unusual to operate the watercraft in such a manner
that the watercraft is heavily splashed with water. The water can
splash over the seat and the water can splash over the bow. With
such heavy water splashing, the likelihood of water being pulled
into the engine compartment with air that is drawn in for
combustion is high. Although minimal amounts of water can be
expected to enter the engine compartment, such water must be
removed by bilge units and the like. Additionally, if such water
were to be ingested by the engine, performance of the engine can be
adversely affected.
SUMMARY OF THE INVENTION
[0008] Accordingly, an arrangement in which water can be removed
from the ventilation air is desired. Such an arrangement should
allow the water to drain from the filtration unit while allowing
air to pass relatively easily into the hull of the watercraft. By
providing such an arrangement, the extensive ducting can be
eliminated if desired.
[0009] One aspect of the present invention involves a personal
watercraft comprising a deck and a lower hull. The deck and the
lower hull are joined to define a cavity within the personal
watercraft. A ventilation system comprises a passageway extending
between the cavity and a location outside of the cavity. The
location is in communication with atmospheric air and the
ventilation system comprises a water repellant filter disposed
along the passageway.
[0010] Another aspect of the present invention involves a personal
watercraft comprising a hull defining a substantially enclosed
cavity. A ventilation system comprises a first passage, a second
passage and a third passage, with each of the passages extending
outward from the cavity to a region filled with atmospheric air. A
water-repellant filter is disposed over an end of each of the
passages that is associated with the region filled with atmospheric
air.
[0011] A further aspect of the present invention involves a
removable filtration unit for a personal watercraft comprising an
upper plate, a lower plate, and an opening extending through the
lower plate. A filter is disposed between the upper plate and the
lower plate and encircles the opening. The filter is formed of a
material that is air permeable and water repellant.
[0012] Another aspect of the present invention involves a personal
watercraft comprising a hull, a cavity disposed within the hull and
a removable filtration unit attached to the hull. The filtration
unit comprising an upper plate, a lower plate, and an opening
extending through the lower plate. The opening cooperates with an
opening through the hull and a filter is disposed between the upper
plate and the lower plate. The filter encircles the opening and the
filter is formed of a material that is air permeable and water
repellant.
[0013] An aspect of the present invention also involves a personal
watercraft comprising a hull, a cavity communicating with the
atmosphere through a ventilation opening and means for repelling
water from the opening.
BRIEF DESCRIPTION OF THE DRAWINGS
[0014] These and other features, aspects and advantages of the
present invention will now be described with reference to the
drawings of a pair of preferred embodiments, which embodiments are
intended to illustrate and not to limit the invention. The drawings
comprise 17 figures.
[0015] FIG. 1 is a partially-sectioned, side elevation view of a
personal watercraft arranged and configured in accordance with
certain features, aspects and advantages of the present invention.
Certain components have been illustrated with hidden lines and
other components are not illustrated for clarity.
[0016] FIG. 2 is a top plan view of the watercraft of FIG. 1.
Certain components are illustrated with hidden lines, other
components are illustrated with phantom lines and yet other
components are not illustrated for clarity.
[0017] FIG. 3 is another plan view of the watercraft of FIG. 1
illustrating some of the internal components of the watercraft.
[0018] FIG. 4 is a simplified sectional view of the watercraft of
FIG. 1 taken along the line 4-4 in FIG. 1.
[0019] FIG. 5 is a simplified sectional view of the watercraft of
FIG. 1 taken along the line 5-5 in FIG. 1.
[0020] FIG. 6 is a simplified sectional view of the watercraft of
FIG. 1 taken along the line 6-6 in FIG. 1.
[0021] FIG. 7 is a rear elevational view of the watercraft of FIG.
1.
[0022] FIG. 8 is a perspective view of a portion of a handle used
on the watercraft of FIG. 1.
[0023] FIG. 9 is a sectional view of a portion of the hull
illustrating an improved bumper construction used on the watercraft
of FIG. 1.
[0024] FIG. 10 is a perspective view of a seat mounting arrangement
used on the watercraft of FIG. 1.
[0025] FIG. 11 is a sectional view of a portion of the seat
mounting arrangement illustrated in FIG. 10.
[0026] FIG. 12 is a sectional view of a portion of a fuel tank of
the watercraft of FIG. 1. The sectional view illustrates a water
pool, a selectively openable access into the fuel tank and a fuel
supply unit mounting configuration.
[0027] FIG. 13 is a partially-sectioned, side elevation view of
another personal watercraft arranged and configured in accordance
with certain features, aspects and advantages of the present
invention. Certain components have been illustrated with hidden
lines and other components are not illustrated for clarity.
[0028] FIG. 14 is a top plan view of the watercraft of FIG. 13.
Certain components are illustrated with hidden lines, other
components are illustrated with phantom lines and yet other
components are not illustrated for clarity.
[0029] FIG. 15 is a simplified sectional view of the watercraft of
FIG. 13 taken along the line 15-15 in FIG. 13.
[0030] FIG. 16 is a simplified sectional view of the watercraft of
FIG. 13 taken along the line 16-16 in FIG. 13.
[0031] FIG. 17 is a simplified sectional view of the watercraft of
FIG. 1 taken along the line 17-17 in FIG. 13.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0032] The present invention generally relates to hull
constructions for personal watercraft and, more particularly, water
preclusion structures for storage compartments. The water
preclusion structures are described in conjunction with personal
watercraft because this is an area of application for which the
water preclusion structures have particular utility. Those of
ordinary skill in the relevant arts will readily appreciate that
the arrangements described herein also may have utility in a wide
variety of other settings. For instance, the water preclusion
structures also can be used in other types of marine craft and land
vehicles, such as snowmobiles, all terrain vehicles and the like,
where desirable. Thus, unless otherwise specified, the scope of the
present invention is not intended to be limited to personal
watercraft.
[0033] With reference initially to FIG. 1, a personal watercraft,
which is indicated generally by the reference numeral 20, is
illustrated therein. As indicated near the tip of the bow of the
watercraft 20, the illustrated watercraft 20 includes a hull 22
that is defined by a upper portion or deck 24 and a lower portion
26. In the illustrated arrangement, a liner 28 is disposed between
the upper portion 24 and the lower portion 26.
[0034] These portions 24, 26 28 of the hull 22 preferably are
formed from a suitable material such as, for example, a molded
fiberglass reinforced resin. For instance, the deck 24 can be
formed using a sheet molding compound (SMC), i.e., a mixed mass of
reinforced fiber and thermal setting resin, that is processed in a
pressurized, closed mold. The molding process desirably is
temperature controlled such that the mold is heated and cooled
during the molding process. For this purpose, male and female
portions of the mold can include fluid jackets through which steam
and cooling water can be run to heat and cool the mold during the
manufacturing process.
[0035] The lower hull portion 26 and the deck 24 preferably are
joined around a peripheral edge at a bond flange 30. Thus, the bond
flange 30 generally defines the intersection of the lower portion
26 of the hull 22 and the deck 24. With reference to FIG. 9, the
deck 24 preferably slightly overhangs the bond flange 30. In the
illustrated configuration, a nut and bolt combination 32 secures a
bow bumper 34 to the overhanging portion of the deck 24.
[0036] The illustrated bow bumper 34 preferably comprises a
two-part construction that is designed to absorb slight impacts,
such as those encountered when docking. In one arrangement, the two
parts are formed of a polypropylene and rubber composite with
differing mixing ratios. For instance, the outer layer 36 can be
stronger and resistant to scuffing, rubbing and other acts that
might mar the surface or otherwise detract from an aesthetic
appearance while the inner layer 38 can be softer to better absorb
shock loads. With reference to FIG. 2, stem bumpers 39 also can be
provided for the watercraft 20. The stem bumpers 39 can be
constructed similarly to the bow bumper 34.
[0037] With reference again to FIG. 1, the deck 24 includes a bow
portion 40. Rearward of the bow portion 40 is a control mast 42
that is disposed forward of both a front seat 44, a rear seat 46
and a boarding platform 48. The bow portion 40 preferably slopes
upwardly toward the control mast 42. The control mast 42 supports a
handlebar assembly that controls the steering of the watercraft 20
in a conventional manner. The handlebar assembly also carries a
variety of the controls of the watercraft, such as, for example, a
throttle control, a start switch and a lanyard switch. The
handlebar assembly desirably is mounted for pivotal movement
forward of the front seat 44.
[0038] A hatch cover 50 can be provided in the bow portion 40. The
hatch cover 50 preferably is pivotably attached to the deck 24 and
preferably is capable of being selectively locked in a closed and
substantially watertight position. The hatch cover 50 preferably
covers an opening 51 to a bow storage bin 52. The bow storage bin
52 generally defines a bow storage space 54 in which a rider or
operator of the watercraft can place articles for transportation,
for instance.
[0039] The bow storage bin 52 preferably is mounted within an
opening defined between the deck 24 and the liner 28. In the
illustrated arrangement, the bow storage bin 52 is secured in
position relative to the liner 28 with fasteners 56 that are
positioned within recesses formed in the bottom of the bow storage
bin 52. The recesses advantageously position an upper portion of
the fasteners 56 flush with or lower than a lower internal surface
of the bow storage bin. Thus, the fasteners 56 are less likely to
snag any articles placed into the bow storage bin 52.
[0040] With reference to FIG. 4, the bow storage bin 52 also
preferably comprises a drain 58. The drain 58 in the illustrated
arrangement extends through the bottom of the bow storage bin in a
central location. Advantageously, this location places the outlet
of the drain 58 between the recesses through which the fasteners 56
extend. Thus, in the illustrated arrangement, water or other liquid
passing through the drain 58 can travel over a portion of the
illustrated liner, which slopes downward in a rearward direction,
toward a desired collection location for removal from the
watercraft. Other suitable locations of a drain also can be
used.
[0041] With continued reference to FIG. 4, the bottom wall of the
illustrated bow storage bin 52 is integrally formed with upwardly
extending sidewalls. In some constructions, the sidewalls may not
be integral with the bottom wall and the drain can be formed by
providing openings at one or more of these intersections.
Additionally, the shape of the bow storage bin 52 and the number of
sidewalls can be varied as desired. At an upper end of the sidewall
or sidewalls, a seal 60 is provided. The seal 60 advantageously is
interposed between the side wall of the bow storage bin 52 and an
inner surface of the deck 24 or other adjacent surface. The seal
reduces the likelihood of ingress of water through the joint
between the bow storage bin 52 and the body of the watercraft
20.
[0042] One or more removable panels 62 preferably form a portion of
the bow storage bin 52. These removable panels 62 can be secured in
place in any suitable manner. For instance, in some applications,
the panels 62 may be hinged along one side to the bow storage bin
52. In other applications, the panels 62 may slide within a slide
track created by suitable members, such as opposing L-shaped
brackets. In yet other applications, the panels 62 may be secured
in position using pins, threaded fasteners, clips or other similar
mechanical members. In the illustrated arrangement, the panels 62
are secured in position by threaded fasteners 64 that extend
through each of the comers of each of the panels 62. Once removed,
components positioned within the body of the watercraft but outside
of the bow storage bin can be accessed through the opening 63 over
which the panel 62 is ordinarily disposed.
[0043] With continued reference to both FIGS. 1 and 4, the
illustrated watercraft also features a seal 66 that is disposed
about the circumference of the opening 51 leading into the bow
storage bin 52. The seal 66 preferably is disposed along an outer
surface of the deck 24. In some constructions, such as those in
which the opening 51 is not defined through a portion of the deck
24, the seal 66 can be disposed on a cover or other body panel.
Also, the seal 66 can be mounted to the underside of the hatch
cover 50. A lower surface of the hatch cover 50 preferably abuts
the seal 66 such that the seal 66 is effectively sandwiched between
the hatch cover 50 and the deck 24, such as the arrangement
illustrated in FIG. 4.
[0044] Forward of the seal 66, the illustrated hatch cover 50 is
pivotally connected to the deck 24 such that the hatch cover 50 can
pivot about a forward end. Preferably, a hinge member 68 forms the
pivotal connection. Other suitable pivotal connections also can be
constructed. In some constructions, the hatch cover 50 may be
connected to the deck 24 such that it will pivot about a lateral
side; however, pivoting about a forward end eases access into the
bow storage bin 52.
[0045] To further aid access into the bow storage bin 52, a gas
spring cylinder 70 or other suitable lifting member can be
provided. The gas spring cylinder 70 can be provided to provide
enough lifting force to raise an unlatched hatch cover on its own.
In other arrangements, the gas spring cylinder 70 can be sized to
merely maintain the position of the hatch cover once manually
raised. Preferably, the lifting member 70 is disposed between the
hinge 68 and the seal 66. More preferably, both the hinge 68 and
the lifting member 70 are substantially concealed from external
view beneath the hatch cover 50.
[0046] A locking mechanism 72 is disposed at an upper end of the
illustrated hatch cover 50. In a presently preferred construction,
the locking mechanism 72 comprises a locking member 74 that is
connected to an actuator 76 by a cable or other suitable
transmission component 78. The actuator 76 preferably is positioned
rearward of the locking member 74. Preferably, the locking member
74 is disposed along a longitudinally extending generally vertical
plane. In one arrangement, the actuator is positioned laterally to
one side of and rearward of the locking member 74.
[0047] The locking member 74 can comprise a biased finger that
hooks under a U-shaped strike when not being actuated. In such a
locking mechanism, the actuator 76 can comprise a lever that is
connected to the locking member with a Bowden wire cable such that,
when the lever is depressed or lifted, the finger releases the
strike and the hatch cover 50 can be raised. Other constructions of
the particular components also can be used. For instance, an
electrical construction can be used such that operation of the
actuator sends an electric signal to the locking member to unlock
the hatch cover 50. Such a construction would preferably be
weatherproofed to mitigate the effect of the watery environment of
use. In one particular construction, the electrical lines could
extend though an inner cavity defined by the body of the watercraft
and the lock member 74 could be disposed within the circumference
defined by the seal 66. Other suitable constructions and
arrangements of the locking member and the actuator also can be
used.
[0048] In the illustrated arrangement, the locking member 74 is
disposed very proximate the seal 66 (i.e., within about 2 to 9
inches). In some applications, the locking member 74 is disposed as
close as mechanically possible to the seal 66. It has been
discovered that placement of the locking member proximate the seal
66 increases the security of the sealing effect established by the
seal 66 between the hatch cover 50 and the deck 24. Additionally,
the locking member 74 preferably is substantially concealed from
external view beneath the hatch cover 50. Such a construction
noticeably improves the aesthetics of the watercraft and generally
protects the locking member 74 from a large amount of water
contact.
[0049] With reference now to FIG. 2, a side body panel 80 extends
along each side of the bow of the watercraft. In particular, in the
illustrated arrangement, the side body panels extend rearward from
proximate a forward end of the bow hatch cover 50 and extend
rearward to a position proximate a forward end of the front seat
44.
[0050] Rearward of the hatch cover 50 and between the side body
panels 80, a center cover 82 extends rearward toward the control
mast 42. In the illustrated arrangement, a forward end of the
center cover 82 is disposed rearward of the locking member 74. The
center cover 82 preferably includes a raised central portion 84
that encases a forward portion of the control mast 42 and other
related components. In some constructions, this raise central
portion 84 can form a separate component relative to the center
cover 82. Preferably, at least a portion of the cable 78 extends
beneath the center cover 82. As illustrated in FIG. 2, the center
cover 82 and the bow hatch 50 advantageously shield a majority of
the length of the cable 78.
[0051] A gauge cluster (i.e., multiple gauges or the like) or a
single gauge 86 can be provided between the bow storage bin 52 and
the control mast 42. In the illustrated arrangement, the gauge 86
is a speedometer that displays a reading of water speed of the
watercraft 20. The gauge advantageously is nestled forward of the
central portion 84 of the center cover 82, rearward of the bow
storage bin 52 and below a rear lip of the hatch cover 50. In this
position, the gauge 86 is blended into the fluid lines of the
aesthetic design features of the watercraft 20. In addition, the
gauge 86 is somewhat protected within this region. Furthermore, in
the illustrated watercraft 20, the gauge 86 and the associated
mounting brackets and housings provide addition protection to the
locking member 74. In one construction, the gauge 86 can be mounted
in a housing member that seals in any suitable manner with a
portion of the deck 24 and the hatch cover 50 to define a
subchamber in which the locking member 74 is enclosed for
protection.
[0052] The front seat 44 and the rear seat 46 are desirably of the
straddle-type. A straddle-type seat is well known as a
longitudinally extending seat configured such that operators and
passengers sit on the seat with a leg positioned to either side of
the seat (e.g., two-wheeled motorcycles employ straddle seats).
Thus, an operator and at least one passenger can sit in tandem on
the seats 44, 46. Moreover, these seats 44, 46 are preferably
centrally located between the sides of the hull 22.
[0053] The front seat 44 preferably is positioned on a bottom plate
88 that forms a portion of a seat supporting frame 90. The bottom
plate 88 covers an access opening 92 that allows access into a
cavity 94, which comprises at least an engine compartment, that is
defined within the hull 22. Of course, the two seats 44, 46 can be
combined in some arrangements into a single seat mounted to the
watercraft by a single bottom plate or the like.
[0054] With reference to FIG. 2, the illustrated bottom plate 88
for the front seat 44 is supported by a bridgeboard 96. The
bridgeboard 96 is supported on lateral sides of a seat pedestal 98.
Generally, the pedestal 98 supports the front seat 44 and the rear
seat 46 in the illustrated arrangement. Foot areas 99 are formed
alongside the pedestal 98 and are generally defined as the lower
area located between the pedestal 98 and a pair of raised side
gunwales or bulwarks 101 that extend along the outer sides of the
watercraft 20. As best illustrated in FIGS. 2 and 6, the foot areas
99 preferably are sized and configured to accommodate the lower
legs and feet of the riders who straddle the seats 44, 46. As
described above, the illustrated watercraft 20 also includes the
boarding platform 48 that is connected to the illustrated foot
areas 99 and that is formed at the rear of the watercraft 20 behind
the pedestal 98.
[0055] The access opening 92 generally is defined within the
pedestal 98. A lower surface of the bottom plate 90 or an upper
surface of the bridgeboard 96 preferably carries a seal 100 that at
least partially circumscribes the access opening 92. Thus, the seal
100 is sandwiched between the bottom plate 90 and the bridgeboard
96 and the seal 100 preferably is configured to substantially
preclude water intrusion into the cavity 94 through the access
opening.
[0056] With reference now to FIG. 10, the bridgeboard 96 preferably
is mounted to the pedestal 98 with the use of resilient members 102
and suitable fasteners 104, such as bolts. As illustrated in FIG.
11, the fastener 104 and a washer 105 can be used to secure the
bridgeboard 96 to the pedestal 98 with the resilient member 102
sandwiched in between the bridgeboard 96 and the pedestal 98. The
illustrated resilient members 102 have a stepped configuration with
the bridgeboard 96 resting upon a portion having a reduced
thickness relative to the overall thickness of the resilient member
102. Preferably, the openings that received the fastener 104 are
sized to reduce transverse contact between the resilient member,
the bridgeboard and the fastener. Such a construction reduces the
transfer of side-to-side vibrational energy. The resilient members
102 can be formed of any suitable vibration-absorbing or
vibration-damping material, including rubber, for instance.
Advantageously, the resilient members 102 reduce vibrational energy
that can be transferred from the pedestal 98 to the bridgeboard 96
and, ultimately, to individuals seated on the seats 44, 46.
[0057] With reference to FIG. 1, the front seat 44 preferably is
supported at a forward end with at least a tongue 106 that is
supported within a channel 108, which will be discussed below in
more detail. With reference now to FIG. 10, at a rear portion, the
front seat 44 preferably includes a lock member 110. The lock
member 110 can be secured to the front seat 44 with a pair of
threaded fasteners 112. Other manners of securing the lock member
110 in position also can be used. The lock member 110 preferably
includes a central aperture 114 that receives a knob 116 that
extends upward from the bridgeboard 96. In some configurations, the
knob 116 can be mounted to the seat and the lock member 110 can be
secured to the bridgeboard 96. As illustrated, a lever 118
preferably extends rearward from the lock member 110 and allows an
operator to release the knob 116 from the lock member 110. Thus,
the lever 118 is disposed for fairly easy access to release the
knob 116 from within the aperture 114 such that the front seat 44
can be removed from the bridgeboard 96 and, ultimately, the
watercraft 20.
[0058] With continued reference to FIG. 10, a forward portion of
the rear seat 46 preferably comprises a pair of engaging tabs 120
that are received within suitably configured receptacles 122 (see
FIG. 2). The receptacle 122 in the illustrated arrangement is a
generally U-shaped plate that is secured to the bridgeboard 96 with
threaded fasteners. Other configurations can be used. With the tab
120 engaged within the receptacle 122, the rear seat 46 can be
secured in position on the watercraft 20 using a further lock
member 124, which can be similarly constructed to the lock member
110 associated with the front seat 44. Preferably, a rear storage
bin 126 is disposed beneath the rear seat 46 and a seal 128
circumscribes an upper opening of the rear storage bin 126. The
rear storage bin 126, in the illustrated arrangement, extends
downward into a rearmost compartment that is defined within the
hull 22 by an aft bulkhead 130, at least in part.
[0059] With reference now to FIGS. 2, 7 and 8, a handle 132 can be
provided at an aft end of the pedestal 98. The handle 132
advantageously provides a handhold for riders of the watercraft 20
to pull themselves up to the boarding platform 48. As illustrated
in FIG. 8, the handle 132 preferably comprises an integrally formed
flange 134 that includes a number of holes 136 through which
fasteners can extend to fasten the flange 134 and the associated
handle 132 to a suitable portion of the deck 24, such as the
pedestal 98.
[0060] The illustrated watercraft 20 advantageously comprises a
mid-deck storage compartment 140. Thus, the illustrated watercraft
comprises three storage compartments that are positioned along, and
spaced from one another along, a vertical longitudinal center
plane. With reference to FIG. 2, the mid-deck storage compartment
140 comprises an opening 142 that overlaps in a vertical plan view
with the access opening 92 such that a rear portion of the opening
142 is positioned within an imaginary vertical volume defined in a
vertical direction by the access opening 92. This construction
takes advantage of available space within in vehicle such that a
compact construction can be achieved without unnecessarily
inhibiting access into the cavity 94 that is accessed through the
access opening 92.
[0061] With reference now to FIG. 1, the illustrated mid-deck
storage compartment 140 comprises a removable storage bin 144. In
one preferred construction, the bin 144 is disposed within an
opening formed between the center cover 82 and a forward portion of
the front seat 44. In some configurations, the storage bin 144 can
be removed and the opening covered by an auxiliary body panel (not
shown). The illustrated storage bin 144 advantageously comprises a
first section that is substantially rectangular and a second
section that doglegs forward from a lower portion of the first
section. This construction makes advantageous use of space
available upon the illustrated watercraft 20. Other constructions
are possible and other shapes and configurations can be used as
desired.
[0062] As indicated above, the storage bin 144 preferably is
removable. In some applications, the storage bin may be made
permanent within the watercraft. In the illustrated arrangement,
the storage bin 144 is secured to the watercraft with two sets of
fasteners 146. While other suitable connection techniques (tongue
and groove, threaded fasteners, snap-fit, sliding fit, etc.) can be
used, the illustrated storage bin 144 is secured in position using
a first set of threaded fasteners 146 to the deck and a second set
of threaded fasteners 148 to the center cover 82. These two sets of
threaded fasteners 146, 148 preferably extend in generally the same
axial direction to ease access to the threaded fasteners 146, 148
and these two sets of threaded fasteners 146, 148 preferably are
separated into two different horizontal planes. Furthermore, in one
preferred construction both sets of threaded fasteners 146, 148 are
disposed on a forward half of the storage bin 144. The different
planes and forward position of the fasteners better distributes the
load on the fasteners that is created by items stored within the
sloping storage bin 142.
[0063] With reference to FIG. 6, the illustrated storage bin 144
has a downwardly expanding construction such that an upper portion
150 has a smaller volume than a lower portion 152. By expanding the
volume in a downward direction, the storage bin 144 can complement
the shape of the watercraft 20 in the mid-deck portion.
Additionally, the overall volume of the storage bin 144 can be
increased.
[0064] As illustrated in FIGS. 1 and 6, a removable beverage holder
154 (indicated in FIG. 1 in two locations--showing the easy
removability of the beverage holder 154) can be inserted into the
storage bin 144. Preferably, the beverage holder includes an upset
flange that is received over the throat of the storage bin 144.
Other constructions also can be used. For instance, while not
illustrated, the beverage holder 154 can include pins or can be
mounted on pins (or other suitable construction) such that any cup
or can 156 supported by the beverage holder 154 will pivot under
the force of gravity to maintain the cup or can 156 in a
substantially upright position.
[0065] In one arrangement, the beverage holder 154 tightly receives
the cup or can 156 such that the beverage holder is removed from
the storage bin 144 with the cup or can 156. In another
arrangement, the beverage holder 154 loosely retains the cup or can
156 and the bottom of the bin 144 supports the bottom of the cup or
can 156 to limit downward movement of the cup or can 156 into the
bin 144. In a preferred construction, the bin is sized and
configured such that a standard beverage can disposed within the
beverage holder 154 will rest on a portion of the bottom of the bin
144 and a lid 158 can close over the can 156.
[0066] The lid 158 preferably is pivotally attached to the storage
bin 144 such that the lid 158 pivots about a forward portion of the
storage bin 144. In one arrangement, the lid 158 comprises a
structure on its lower surface that can accept the upper end of the
can or cup 156 to reduce splashing that may be caused by rough
waters and an open top cup. In effect, the lid 158 can form a lid
for the container (cup or can).
[0067] The storage bin 144 can include a drain, if desired.
Additionally, the storage bin can be sized and configured for more
than one beverage holder 154, if desired. The lid can be biased to
a closed position in any suitable manner (e.g., torsion springs).
In some applications, the lid will remain in any location in which
it is left; however, biasing the lid to a closed position is
desired to limit the inflow of water and water spray during
operation of the watercraft.
[0068] With reference to FIG. 1, an upstanding channel 160 is
defined around the circumference of the opening into the storage
bin 144. The channel 160 may drain to the outside of the storage
bin 144 such that water or other liquids that may spill into the
channel 160 is drained away from the storage bin 144. For instance,
drain passages (not shown) may extend through a lower portion of
the outer wall defining the channel 160. In one arrangement, the
drain passages may be formed in the rearward portion of the
laterally extending channel 160 that is positioned on the rearward
side of the storage bin 144 because this portion is the lowermost
portion on the inclined upper portion of the storage bin 144.
[0069] With reference to FIG. 6, the side body panels 80 can be
secured to a portion of the storage bin 144 with any suitable
fastening mechanism. In the illustrated arrangement, the rear
portion of the side body panels 80 is secured to the storage bin
144 with generally horizontally extending threaded fasteners 162. A
better integrated body construction results from connecting the
side body panels 80 with the deck 24 in a fore region and the
mid-deck storage bin 140 in a rear region of the panels 80.
[0070] With reference again to FIG. 1, the cavity 94 formed between
the deck 24 and one or more bulkheads, such as the bulkhead 130,
divide the lower portion 26 into an engine compartment 170 and a
pump chamber 172. An in-line, four cylinder, four-cycle engine 174
preferably is mounted within the engine compartment 170 of the
illustrated watercraft 20 using resilient mounts 176 as is well
known to those of ordinary skill in the art. While the illustrated
engine 174 is of the four-cycle variety, the engine 174 can also be
of the two-cycle, rotary or diesel variety as well. Moreover, the
engine 174 can have one, two, three or more than four cylinders and
can be inclined, vertical, transverse, formed with two banks of
cylinders that extend at an angle relative to each other (v) or
formed with two opposing banks of cylinders.
[0071] The general construction of the present four-cycle engine
174 is well known to those of ordinary skill in the art.
Additionally, operations of the engine 174 can be controlled
through the use of an ECU 175 in any suitable manner. As
illustrated in FIGS. 1, 3 and 6, the engine 174 generally comprises
a cylinder block 178, a cylinder head 180, a cylinder head cover
182 and a crankcase member 184. A set of cylinders (not shown) is
formed within the cylinder block 178. The cylinder head 180 and the
cylinder head cover 184 cap the cylinders. A piston (not shown) is
reciprocally mounted within each of the cylinders. Each cylinder
contains a combustion chamber defined by the top of the piston (not
shown), the wall of the cylinder and a recess (not shown) formed
within a lower surface (not shown) of the cylinder head 180.
[0072] The crankcase member 184 is attached to the opposite end of
the cylinder block 178 from the cylinder head 180. A crankshaft 186
is positioned within the crankcase member 184 and is connected to
the pistons (not shown) through a set of connecting rods (not
shown). As the pistons (not shown) reciprocate within the
cylinders, the crankshaft 186 is rotated within a crankcase
chamber, which is at least partially defined by the crankcase
member 184.
[0073] The crankshaft 186 preferably is in driving relation with a
jet propulsion unit 188. Specifically, the jet propulsion unit 188
preferably includes an impeller shaft 190 to which a propeller or
an impeller 192 is attached. The crankshaft 186 and the impeller
shaft 190 desirably are connected through a conventional
shock-absorbing coupling 194. The impeller shaft 190 extends in the
longitudinal direction and extends through a propulsion duct that
has a water inlet port 196 positioned on a lower surface of the
hull 22. The lower portion 26 of the hull 22 also includes an
opening 198 in the stern of the watercraft in which a nozzle 200 of
the propulsion unit 188 is positioned. The propulsion unit 188
generates propulsive force by applying pressure to water drawn up
from the water inlet port 196 by rotating the impeller shaft 190
and by forcing the pressurized water through the nozzle 200 in a
manner well known to those of ordinary skill in the art.
[0074] A reverse bucket 202 is suitably mounted relative to the
nozzle 200 with horizontally extending pins 204. Thus, the reverse
bucket 202 can be pivoted in front of the nozzle 200 about an axis
defined through the pins 204 such that a reversing thrust can be
used to slow, stop and reverse the watercraft 20. An operator can
control the movement of the reverse bucket 200 with a lever 206
that is connected to the reverse bucket 202 with a suitable linkage
208 (see FIG. 5). Other arrangements also can be used. A
conventional steering arrangement also cooperates with the nozzle
200 to effect steering movement in accordance with operator
demand.
[0075] With reference now to FIGS. 1, 6 and 7, the engine 174 also
includes an induction system 212 that provides air to each
combustion chamber (not shown) for combustion. Air within the
engine compartment 170 is supplied to the engine 174 through the
air intake system. A replenishable air supply is provided to the
engine compartment 170 in manners that will be described in greater
detail below.
[0076] Preferably, the air intake system includes an intake box 214
or silencer into which air from within the engine compartment 170
is drawn. The air is then pulled into an intake conduit 216 after
passing through a water repellant filtration unit 218. The air
passes into the combustion chambers and can be mixed with fuel
within the combustion chambers with direct fuel injection or can be
mixed with fuel prior to passing into the combustion chambers
(e.g., indirect injection, port injection or carburetion).
Preferably, a throttle body (not shown) is provided to control the
rate of air flow into the combustion chamber.
[0077] With reference now to FIGS. 1, 3, 5 and 11, fuel is drawn
from a fuel tank 220 positioned within the cavity 94 defined by the
hull 22. Fuel is provided to the fuel tank through a fuel fill tube
221 that extends upward from the fuel tank 220 to a location along
an outer surface of the hull 22. Preferably, a cap 223 is provided
to removably close the tube 221. Conventional means, such as straps
or the like secure the fuel tank 220 in position along the lower
hull portion 26 or liner 28.
[0078] With continued reference to FIG. 1, the fuel tank 220
advantageously comprises a water pool 222. Preferably, the water
pool 222 is disposed in the lowermost portion of the fuel tank 220.
Hence, a forward portion of the illustrated water pool 222
preferably slopes upward in a forward direction. In the illustrated
arrangement, the water pool 222 is disposed in a rearmost portion
of the fuel tank 220, as this comprises a lowermost portion of the
illustrated fuel tank 220. In this manner, water, which is heavier
than fuel, can sink into the water pool 222.
[0079] With reference now to FIG. 11, a water removal opening 224
is formed though an upper surface of the fuel tank 220. In
particular, the unibody construction of the illustrated fuel tank
220, which comprises a single outer wall 226, also includes two
openings, the water removal opening 224 and a fuel pump opening
228. Preferably, the water removal opening 224 is disposed directly
above the water pool 222. Thus, the water removal opening 224 is
advantageously designed to accept a water removal hose 230. The
water removal hose 230 can be connected to a suitable pump, such as
an electric pump 232.
[0080] In one configuration, the water removal hose 230 is inserted
by a service technician during servicing and removed during normal
operation. In such a configuration, the water removal opening 224
receives a removable lid 234. The lid preferably simply snaps into
place and can be secured in position using a strap, band or other
suitable mechanical fastening configuration 236. In some
arrangements, the lid 234 can be threaded onto an outer surface
that partially defines the water removal opening 224.
[0081] With continued reference to FIG. 12, fuel is supplied from
the fuel tank 42 to a charge former (e.g., carburetor or fuel
injector) through any suitable fuel pumping arrangement. In the
illustrated arrangement, a fuel supply unit 238 is mounted to and
in the fuel tank 220. The fuel supply unit 238 generally comprises
an upper cylinder 240 and a lower cylinder 242. A spring 244
extends vertically adjacent the cylinders 240, 242. The lower
cylinder 242 is spaced from the bottom surface of the fuel tank 220
with a set of spacers 246.
[0082] A float 248 is connected by a link 250 to a pointer that is
disposed adjacent a scale 252. This assembly generally defines a
level gauge 254 used to show the level of fuel within the fuel
tank.
[0083] A fuel pump 256 and a vapor separator 258 are mounted within
the fuel supply unit 238. In the illustrated arrangement, both of
these components are mounted within the lower cylinder 242 of the
fuel supply unit 238. Thus, fuel drawn from within the fuel tank
220 by the fuel pump 256 passes through the vapor separator 258
enroute to a fuel pipe 260. The fuel pipe 260 supplies fuel to the
engine 174 for combustion.
[0084] Vapor gases separated from the fuel passes through a check
valve 262, which reduces the likelihood that the vapor can return
to the fuel tank 220. The check valve 262 is connected to a water
removal unit 264 with an air pipe 266. The water removal unit 264
removes water that may become entrained in the vapor being removed
through the air pipe 266. Preferably, the water removal unit 264
comprises a drain and a drain cap 268. The drain cap 268 can be
removed to allow water contained within the water removal unit 264
to drain. Generally, the drain cap 268 is removed during servicing.
The water removal unit 264 is disposed along the air pipe 266, in
part, because a water-resistant ventilation unit 270 forms a
housing for an outlet 271 of the air pipe 266.
[0085] The illustrated water-resistant ventilation unit 270
generally comprises a filter container 272 that is mounted to the
hull 22. The container 272 preferably comprises a pair of openings
274 that are mounted on opposite walls of the container 272.
Interposed between the outlet 271 of the air pipe 266 and the
openings 274 are a pair of filters 276. The filters 276 preferably
comprise a water repellant material and/or construction to reduce
the likelihood of water entering into the fuel supply system
through the vapor removal system. The illustrated container 272
advantageously is enclosed with a lid 278. Thus, vapor passing from
the fuel tank 220 passes through the water removal unit 264 and one
of a pair of water resistant filters 276 before escaping to the
atmosphere. In some arrangements, a single water resistant filter
276 can be used. In other arrangements, more than two water
resistant filters 276 can be used. As illustrated, the ventilation
unit can be mounted proximate the mid-deck storage bin 140.
[0086] With reference again to FIG. 12, the fuel tank 220 also is
constructed to reduce the likelihood that water can infiltrate the
fuel storage area within the fuel tank 220. The fuel supply unit
238 comprises an outwardly extending upper flange 280 that has an
outer portion 281 that creates dimension that is greater than a
corresponding dimension of the opening 228 through which the fuel
supply unit 238 is inserted into the fuel tank. Thus, the upper
flange 280 provides a lip that can support the fuel supply unit 238
within the fuel tank.
[0087] A seal 282 can be positioned between the flange 280 and the
fuel tank 220. Preferably, the seal 282 greatly reduces the
likelihood that gas can leak out of the fuel tank 220 and that
water or other contaminants can leak into the fuel tank 220.
[0088] A bracket or mounting ring 284 is used to secure the upper
flange 280 in place on the fuel tank 220. In the illustrated
arrangement, the mounting ring 284 has a stepped configuration with
a downward jog 286 that is sized to compress the flange 280 and the
seal 282 in position. Threaded inserts, acorn nuts, or insert nuts
288 are embedded within the wall defining the upper surface
proximate the opening 228. While the nuts or inserts could be
mounted in other regions, by embedding the nuts or inserts, the
likelihood of leakage is greatly reduced. A stub shaft 290 extends
into each insert or nut 288 and a nut 292 is used on each stub
shaft 290 to tighten the mounting ring 284 in position. As
discussed above, this mounting arrangement for the fuel supply unit
238 reduces the likelihood that fuel can leak through the opening
228 into the hull 22 and that water from within the hull 22 can
leak into the fuel tank 220.
[0089] As discussed above, an air-fuel charge is passed to the
combustion chamber for combustion. Thus, a suitable ignition system
is provided for igniting the air and fuel mixture in each
combustion chamber (not shown). Preferably, this system comprises a
spark plug corresponding to each cylinder. The spark plugs
preferably are fired by a suitable ignition system, as well known
to those of skill in the art.
[0090] Exhaust gas generated by the engine 174 is routed from the
engine 174 to a point external to the watercraft 20 by an exhaust
system, which includes an exhaust passage 300 leading from each
combustion chamber through the cylinder block 180. An exhaust
manifold 302 or pipe is connected to a side of the engine 174. As
best illustrated in FIG. 6, the exhaust manifold 302 is connected
to one side of the engine 174 while the intake system of the engine
174 is connected to the opposite side of the engine 174.
[0091] The manifold 302 has a set of branches 304 each having a
passage that corresponds to one of the exhaust passages 300 leading
from the combustion chambers. The branches 304 of the manifold 302
merge at a merge pipe portion 306 of the manifold 302, which
extends in a generally forward direction. An exhaust pipe 308 is
connected to the exhaust manifold 302 and wraps around a forward
portion of the engine 174. The exhaust pipe 308 extends through the
bulkhead 130 and connects with a water lock 310. A further pipe
connects the water lock 310 to a muffler 312. A discharge exhaust
pipe extends from the muffler to an underwater discharge 314.
[0092] The engine 174 can include a suitable lubricating system for
providing lubricating oil to the various moving parts thereof and
for injection with the fuel. Specifically, a lubrication reservoir
316 can be provided within the engine compartment. In some
arrangements, the lubrication reservoir 316 is formed as an oil pan
while in certain dry sump arrangements, the lubrication reservoir
316 may include a separate oil supply tank. Thus, the lubrication
reservoir 316 can be positioned below, behind, forward of or to one
side of the engine 174.
[0093] In addition, the engine 174 can include a suitable liquid
and/or air cooling system. Moreover, the watercraft 20 can include
a bilge system for drawing water from within the hull cavity 94 and
discharging it into the body of water. For instance, in the
illustrated arrangement, a mechanical bilge pump 318 that is driven
by the crankshaft 186 or the impeller shaft 190 and an electrical
bilge pump 320 are used. Water or other liquids picked up by either
of the pumps 318, 320 is transferred through a conduit 322, 324
associated with the respective pumps 318, 320. Three outlet
conduits 326, 328, 330 are provided to transfer the liquids to
either a tell-tale 332 or other outlets that are disposed below the
waterline. Thus, the conduits 322, 324, 326, 328, 330 extend upward
and then downward to reduce the likelihood that water can back
through the lines into the hull 22.
[0094] Preferably, air is drawn into the engine compartment 170
through several air ducts. As illustrated, a pair of crossing air
ducts 340 are provided proximate the fuel tank 220. An upper end of
each of the air ducts 340 is disposed within a respective
compartment 342 defined within the side body panels 80. To reduce
the likelihood that water can flow into the cavity 94 through the
ducts 340, a water repellant filter 344 is disposed between the
ducts 340 and the atmosphere. In the illustrated arrangement, the
water repellant filter 344 is mounted over the end of each of the
ducts 340. In one arrangement, the side panel or other members
forming a cavity about an inlet into the ducts 340 can be sealed by
a water repellant filter 344 that allows air to flow into the
chamber but that substantially excludes large volumes of water from
flowing into the chamber. As will be recognized, the number of
ducts 340 is not critical and can be varied as desired depending
upon the application. In addition, for semantics, the outer end of
any air duct that extends through the hull 22 away from the hull
cavity 94 is considered the inlet end while the other end of the
duct that is positioned within the hull cavity 94 is considered the
outlet end; however, as used herein, inlet and outlet are used for
convenience and, depending upon the particular operating
conditions, the flow of air through the air ducts can be in either
direction or in both directions.
[0095] With reference now to FIGS. 13-17, another arrangement of a
personal watercraft having certain features, aspects and advantages
of the present invention is illustrated therein. To simplify the
following discussion, components that are generally the same as the
components discussed above with maintain the same reference
numerals and will not be described in further detail below. In
addition, only a seat mounting arrangement and a water preclusive
ventilation arrangement will be discussed in further detail
below.
[0096] With reference initially to FIG. 13, the watercraft 20
comprises the front seat 44 and the rear seat 46. With reference to
FIGS. 14 and 16, the seats both comprise a forwardly extending
tongue 400. The tongue 400 of each seat 44, 46 is received within a
corresponding sleeve 402. Thus, the tongue 400 slides forward into
the sleeve 402 while the seats 44, 46 are being mounted to the
watercraft 20.
[0097] With reference again to FIG. 13, the front seat 44 and the
rear seat 46 each comprises a manually-operated locking arrangement
404. In the illustrated arrangement, the locking arrangement 406
generally comprises a lever actuated lock or latch that cooperates
with a peg or other suitable configuration 408. After each seat 44,
46 has been slid into position, the lock mechanism 406 is forced
downward onto the peg 408. In some arrangements, of course, the peg
408 and the lock mechanism 406 can be reversed.
[0098] Prior to describing the water preclusion arrangement of the
illustrated watercraft 20, the bow hatch locking mechanism 74 will
be described with reference to FIG. 15. In particular, in the
illustrated arrangement, the bow hatch locking mechanism generally
comprises a generally U-shaped strike 410 and a latching hook 412.
When the latching hook 412 is brought into registry with the strike
410, the hook 412 securely connects with the strike 410 such that
the two are secured together until released by an actuator such as
that described above.
[0099] With reference now to FIGS. 13-17, the ventilation system
generally provides a communication passage for air contained within
an internal cavity, such as the engine compartment 94, and the
atmosphere. In the illustrated arrangement, air is introduced into
a forward chamber 420 defined between the side panels 80 and the
deck 24. In one arrangement, a downwardly facing gap 422 is defined
between a lower portion of the side panels 80 and the deck 24.
Thus, air can be drawn upwardly from outside the forward chamber
420. In addition, water can drain downwardly through the same
opening 422.
[0100] The air within the forward chamber 420 can then be drawn
into a forward filtration unit 424. The forward filtration unit 424
preferably is mounted over a forward ventilation opening 426 formed
in the deck 24. In one arrangement, such as the illustrated
arrangement, the deck 24 can comprise a generally flat portion 428
and the forward ventilation opening 426 can extend through the
generally flat portion 428.
[0101] The forward filtration unit 424 preferably comprises a lower
wall 430 and an upper wall 432. In the illustrated arrangement, the
lower wall 430 comprises a projection 434 that extends downward
into the opening 426. The projection 434 advantageously forms a
duct-like structure that extends into the compartment 94 generally
above the fuel tank 220. In some arrangements, a hose or other
conduit can be attached to the projection 434. The lower wall 430
can be connected to the flat portion 428 of the deck 24 in any
suitable manner.
[0102] The upper wall 432 is disposed above the lower wall 430 and
can be connected to the lower wall 430 in some arrangements.
Preferably, the locking mechanism 74 is connected to the upper wall
432 for a compact construction. In some arrangements, the locking
mechanism 74 is attached to a mounting strap 436 that is used to
secure the forward filtration unit 424 to the deck 24. In the
illustrated arrangement, the mounting strap 436 is secured to the
deck 24 with bolts 437. Other fasteners and other suitable mounting
methods also can be used.
[0103] Interposed between the upper wall 432 and the lower wall 430
are filters 438. The filters 438 preferably are water repellant in
nature. In one application, the filters 438 include a component
that is substantially water impermeable. In another application,
the filters 438 are formed of a nonwoven fabric that generally is
air permeable and water repellant.
[0104] Preferably, the forward filtration unit 424 comprises a
substantially enclosed box with the upper wall 432 and the lower
wall 430 forming two of at least four walls. Openings are formed
that define inlets and the projection 430 of the illustrated
arrangement forms an outlet. Interposed between the inlets and the
outlet are the filters 438. Preferably, a drain is arranged on the
inlet side of the filters 438 such that water separated from the
air can be drained away from the forward filtration unit 424. Thus,
the forward filtration unit 424 effectively removes a majority of
water from air passing into the engine compartment. It should be
noted that any of the ventilation ducts can allow air to flow in
either or both directions and the filters 438 can serve to simply
limit or eliminate water ingestion into the compartment while air
flows in either direction through the filters 438.
[0105] With reference now to FIG. 16, a mid-deck filtration unit
440 also is provided on the illustrated watercraft 20. The mid-deck
filtration unit 440 filters air being pulled into the compartment
94 from mid chambers 442 formed between the side panels 80 and the
deck 24 in the illustrated arrangement. In this arrangement, the
air is drawn upward into the mid chambers 442 through gaps 444
formed between a lower portion of the side panels 80 and the deck
24.
[0106] The mid-deck filtration unit 440 is constructed similarly to
the forward filtration unit 424 discussed above. Accordingly,
variations discussed above with respect to the forward filtration
unit 424 can also be used with the mid-deck filtration unit 440. A
lower wall 446 and an upper wall 448 define an outer box-like
structure of the mid-deck filtration unit. A projection 450 formed
in the lower wall 446 extends through a vent opening 452 that
extends into the compartment 94 at a location generally above the
engine 174. Again, filters 454 that have any suitable shape
separate water from the air such that water ingestion through the
filtration unit 440 is substantially minimized. In one arrangement,
the filter 454 is cylindrical in shape and circumscribes the
opening 452. A mounting strap 456 secures the filtration unit 440
in place and preferably is integrally formed with the sleeve 402.
In addition, the mounting strap 456, in the illustrated
arrangement, is attached to a generally vertical wall 458 and a
generally horizontal wall 460 with bolts or other suitable
fastening arrangements 462.
[0107] With reference now to FIG. 17, an aft filtration unit 470
can be provided for an aft ventilation duct 472. This filtration
unit 470 can be constructed in any manner described above.
Generally speaking, for manufacturing reasons, the three filtration
units that filter air entering the compartment 94 preferably are
very similar in construction to reduce the number of different
parts. The aft filtration unit 470, however, is designed to extend
downward into the compartment 94. The other filtration units also
can be similarly constructed.
[0108] The aft filtration unit 470 preferably filters air drawn
from a chamber 474 formed beneath the seats 44, 46. The air can
pass into the chamber through gaps 475 formed to the sides of the
illustrated seat 44. A communication passage 476 preferably extends
downward around the filtration unit 470. A lower portion of this
passage 476 advantageously contains a recess 478 that is connected
to one or more drain hoses 480. The drain hoses 480 extend through
a surface of the watercraft 20 to allow water separated by the
filtration unit 470 to be drained to the outside of the watercraft
20. In the illustrated arrangement, a pair of drain hoses 480
extend through a surface of the pedestal 98.
[0109] The aft filtration unit 470 preferably is secured to a flat
portion 482 of the deck 24. Preferably, while the flat portion 482
is flat, the flat portion 482 slopes upwardly in a rearward
direction. Placing filtration units in a sloping portion of the
watercraft aids in removal of water from the air being filtered.
Furthermore, in the illustrated arrangement, a seal is disposed
forward of the filtration unit and water can be removed from the
region proximate the seal through the drain hoses 480. Such an
arrangement helps to clear the air passage of water in a rapid and
effective manner.
[0110] In the illustrated arrangement, the aft filtration unit is
mounted within an opening formed rearward of the aft end of the
access opening 92. In addition, the aft filtration unit is secured
in position with bolts 484 in the illustrated arrangement. Other
suitable fastening arrangements also can be used. Similar to the
arrangements discussed above, the aft filtration unit 470
preferably comprises a lower wall 486 and an upper wall 488 that
can be joined in any suitable manner. The upper wall 488 preferably
supports the sleeve 402 for the rear seat 46 and the peg 408 for
the front seat 44 and the lower wall 486 preferably extends
downward into the chamber 94. A projection or duct 490 preferably
extends from the lower wall 486 and extends through the opening
472.
[0111] A filter 492 preferably extends around the area 494 disposed
within the filtration unit 470 above the duct 490 such that air
entering the filtration unit 470 passes through the filter 492
before entering the area 494 and being pulled through the duct 490.
In one arrangement, the filter 492 is cylindrical and extends from
the lower wall 486 to the upper wall 488. In the illustrated
arrangement, the filter 492 is a rectangular box in cross section
(see FIG. 14) such that it corresponds to the opening 472. Other
configurations also can be used. For instance, the filter 492 can
be positioned over an openings into the interior of the filtration
unit (e.g., multiple separate filters that are mounted over
respective multiple openings in the walls defining the filtration
unit).
[0112] As illustrated in FIG. 16, the filtration unit 218 that is
contained within the illustrated air intake box 214 comprises a
filter 217 that substantially surrounds an inlet duct 219.
Preferably, the filter is formed of a water repellant material,
similar to those discussed above. Thus, air entering into the
intake box 214 has a majority of entrained water removed by the
filter 217.
[0113] Of course, the foregoing description is that of certain
features, aspects and advantages of the present invention to which
various changes and modifications may be made without departing
from the spirit and scope of the present invention. A watercraft
need not feature all objects of the present invention to use
certain features, aspects and advantages of the present invention.
The present invention, therefore, should only be defined by the
appended claims.
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