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Claims  |
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WHAT IS CLAIMED IS:
1. A boat decking system comprising:
a deck substructure; and
a multiplicity of elongate deck planks being attached to said deck
substructure in adjacent side-by-side relation to one another and above
said deck substructure to provide a deck platform upon said deck
substructure;
said planks including a plurality of middle planks each having a main
elongated platform-forming portion with a pair of opposite longitudinal
edges thereon, a plank-supporting rail portion depending adjacent one said
edge of said platform-forming portion, and attaching means defined along
said edges thereof and being matable with attaching means on edges of
adjacent ones of said middle planks;
said rail portion of each said middle plank having anchoring means thereon
being disposed outwardly of said one edge of said platform-forming portion
and exposed from thereabove such that said middle planks are assemblable
together one at a time progressing from one side of said deck substructure
to the other side thereof alternately with attachment of said middle
planks via said anchoring means thereon to said deck substructure from
above said substructure.
2. The decking system as recited in claim 1, wherein said deck substructure
is composed of a plurality of aluminum cross members.
3. The decking system as recited in claim 1, wherein said planks are
aluminum planks.
4. The decking system as recited in claim 1, wherein said attaching means
includes a channel portion defined along one said edge of said
platform-forming portion and a tongue portion defined along the other said
edge thereof and being insertable within said channel portion.
5. The decking system as recited in claim 4, wherein each of said tongue
portions has a longitudinal ridge formed thereon such that the combined
height of said ridge and thickness of the tongue portion is slightly
greater than the height of said channel portion whereby when said tongue
portion of one middle plank is inserted into said channel portion of an
adjacent middle plank, said ridge on said tongue portion deforms to
provide a tight fit between said tongue and channel portions of said
adjacent middle planks.
6. The decking system as recited in claim 1, wherein said anchoring means
on said middle plank rail portion is a bottom flange disposed below and
projecting outwardly away from one said edge of said main platform-forming
portion thereof.
7. The decking system as recited in claim 6, wherein said flange has an
upwardly-facing longitudinal groove defined therein which extends the
length of said middle plank.
8. The decking system as recited in claim 7, further comprising:
a plurality of self-tapping screws adapted to be applied from above said
deck substructure into said groove in said rail portion flange of each
middle plank for attaching said flange to said substructure, said groove
providing an assist in starting penetration of said self-tapping screws.
9. The decking system as recited in claim 1, wherein said planks include a
pair of planks being disposed at opposite outer sides of said deck
platform, each outer side plank having a main elongated platform-forming
portion with a pair of opposite longitudinal edges thereon, one outer side
plank having a plank-supporting runner portion depending adjacent one said
edge of said platform-forming portion and a plank-supporting rail portion
depending adjacent the other said edge thereof, the other outer side plank
having plank-supporting runner portions depending adjacent both said edges
thereof, one outer side plank having an attaching means defined along one
said edge thereof and being matable with said attaching means of an
adjacent one of said middle planks, and the other outer side plank having
attaching means defined along the other said edge thereof and being
matable with said attaching means of an adjacent one of said middle
planks.
10. The decking system as recited in claim 1, wherein said rail and runner
portions of each middle plank extend in generally orthogonal relation to
said platform-forming portion thereof.
11. The decking system as recited in claim 1 wherein said attaching means
includes a channel portion defined along one edge of said platform-forming
portion and a tongue portion defined along the other said edge thereof,
said tongue portion being insertable within said channel portion of an
adjacent said plank, said attaching means further including protrusion
means formed on one of said tongue portion or channel portion and
providing an interference fit between said tongue and channel portions.
12. The decking system as recited in claim 1, wherein each of said middle
planks includes a plank-supporting runner portion depending adjacent the
other said edge of said middle plank.
13. A decking system for a pontoon boat, said decking system comprising:
a deck substructure composed of a plurality of aluminum cross members being
attached to a plurality of pontoons of a boat;
a multiplicity of elongated aluminum deck planks attached to said cross
members of said deck substructure in side-by-side relation to one another
and above said cross members of said deck substructure to provide a deck
platform upon said deck substructure;
said planks including a plurality of middle planks each having a main
elongated platform-forming portion with a pair of opposite longitudinal
edges thereon, a plank-supporting rail portion depending adjacent a first
said edge of said platform-forming portion, a plank-supporting runner
portion depending adjacent a second said edge thereof, a channel portion
defined along one of said edges, and a tongue portion defined along the
other of said edges, said channel and tongue portions being matable
respectively with said tongue and channel portions on edges of adjacent
ones of said middle planks;
said rail portion of each said middle plank having anchoring means thereon
being disposed outwardly of one of said edges of said platform-forming
portion and exposed from thereabove such that said middle planks are
assemblable together one at a time progressing from one side of said deck
substructure to the other side thereof alternately with the attachment of
said middle planks via said anchoring means thereon to said deck
substructure from above said substructure.
14. The decking system as recited in claim 13, wherein each of said tongue
portions has a longitudinal ridge formed thereon such that the combined
height of said ridge and thickness of the tongue portion is slightly
greater than the height of said channel portion whereby when said tongue
portion of one middle plank is inserted into said channel portion of an
adjacent middle plank said ridge on said tongue portion deforms to provide
a tight fit between said tongue and channel portions of said adjacent
middle planks.
15. The decking system as recited in claim 13, wherein said anchoring means
on said middle plank rail portion is a bottom flange disposed below and
projecting outwardly away from said main platform-forming portion thereof.
16. The decking system as recited in claim 15, wherein said flange has an
upwardly-facing longitudinal groove defined therein which extends the
length of said middle plank.
17. The decking system as recited in claim 16, further comprising:
a plurality of self-tapping screw means inserted from above said deck
substructure into said groove in said rail portion flange of each middle
plank for attaching said flange to said substructure, said groove
providing an assist in starting penetration of said self-tapping screw
means.
18. The decking system as recited in claim 13, wherein said planks include
a pair of planks being disposed at opposite outer sides of said deck
platform, each outer side plank having a main elongated platform-forming
portion with a pair of opposite longitudinal edges thereon, one outer side
plank having a plank-supporting runner portion depending adjacent a first
said edge of said platform-forming portion and a plank-supporting rail
portion depending adjacent a second said edge thereof, the other outer
side plank having plank-supporting runner portions depending adjacent both
said edges thereof, one outer side plank having a channel portion defined
along one of said edges thereof and being matable with said tongue portion
of an adjacent one of said middle planks, and the other outer side plank
having a tongue portion defined along one of said edges thereof and being
matable with said channel portion of an adjacent one of said middle
planks.
19. The decking system as recited in claim 13, wherein said rail and runner
portions of each middle plank extend in generally orthogonal relation to
said platform-forming portion thereof.
20. The decking system as recited in claim 13, wherein said channel portion
is disposed between and interconnects one said edge of said
platform-forming portion of said planks with said rail portion thereof.
21. A method of assembling a boat comprising the steps of:
constructing a deck substructure mounted to a pair of pontoons;
placing a plurality of deck planks on the deck substructure in side-by-side
relation to one another to provide a deck platform upon the deck
substructure, said planks including respective flanges extending
laterally;
the deck planks being placed on the deck substructure one at a time
progressing from one side of the deck substructure to the other side
thereof alternately with attachment of each plank to the deck substructure
from above the substructure before the next plank is placed thereon, the
planks being attached to the deck substructure by fastening the flanges to
the substructure from above.
22. The method as recited in claim 21, wherein said step of constructing
the deck substructure includes placing and attaching a plurality of cross
members on said pontoons in longitudinally spaced relation.
23. A method of assembling a boat decking system, comprising the steps of:
laying out a plurality of cross members in longitudinally spaced relation
to provide a deck substructure;
placing a plurality of deck planks on the cross members in side-by-side
relation to one another to provide a deck platform upon the deck
substructure, said planks including respective flanges extending
laterally;
the deck planks being placed one at a time on the cross members progressing
from one side of the deck substructure to the other side thereof
alternately with attachment of each plank to the cross members from above
the deck substructure before the next plank is placed thereon, the planks
being attached to the deck substructure by fastening the flanges to the
substructure from above; and
then attaching the assembled deck platform and substructure to a pair of
pontoons. |
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Description |
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BACKGROUND OF THE INVENTION
The present invention generally relates to boat deck construction and, more
particularly, is concerned with an improved boat decking system and method
of assembling the decking system.
Pontoon boats typically have a large deck supported on a pair of laterally
spaced elongated pontoons which float on the water. The deck provides a
spacious platform close to the surface of the water which makes it easy
for a family or group of friends to enjoy a variety of recreational
activities, such as pleasure cruising, entertaining, swimming, water
skiing, sunning and scuba diving.
Historically, the decks of pontoon boats have been made of sheets of wood,
such as plywood, screwed to a substructure of cross members, such as
aluminum channels, which in turn are bolted to aluminum pontoons. One
disadvantage of wood decks is that they deteriorate over time and must be
painted or otherwise preserved to avoid the deleterious effects of water.
One particular problem area is the region between the plywood deck
platform and the cross members which tends to trap water, thereby
promoting rotting of the wood. Another disadvantage of wood decks is found
in their customary mode of assembly. Typically, holes are drilled through
the cross members and then screws are installed from underneath to attach
the wood sheets thereto. This is a cumbersome and difficult procedure.
One approach to eliminating the problems associated with wood decks is to
use aluminum instead of wood. One aluminum decking system known in the
prior art includes a plurality of elongate aluminum planks mounted in
longitudinally extending, side-by-side relation on a substructure of
longitudinally spaced aluminum cross members. Each plank has grooves on
the upper side of its main platform-forming portion into which glue is
applied for adhering carpet to the platform formed by the planks. Each
plank has a pair of nestable spaced J-shaped support runner portions
depending from along opposite longitudinal edges of the main
platform-forming portion of the plank.
However, a significant disadvantage still resides in this all-aluminum
decking system. The above-described plank configuration requires that the
screws used to attach the runner portions of the planks to the cross
members still be inserted from underneath the decking system, as customary
in assembling the wood deck. As before, this necessitates a very difficult
procedure for properly assembling the planks to the substructure.
Consequently, there exists a need for an improved decking system and method
of assembly which will avoid the above mentioned problems.
SUMMARY OF THE INVENTION
The present invention provides a boat decking system and assembling method
designed to satisfy the aforementioned needs. The decking system of the
present invention incorporates several improved features which make the
deck planks easy to assemble from above the deck substructure, hold
tightly together the assembled planks so as to prevent them from rattling,
and allow assembling and storage of decking systems as subassemblies for
later attachment to pontoons when needed to complete assembly of the
boats.
One feature relates to the provision of a plurality of long aluminum or
galvanized steel deck planks that are fastened to a deck substructure of
cross members by welding, crimping, self-tapping screws or other types of
fasteners. Each of the planks has a main elongated platform-forming
portion and a plank-supporting rail portion depending along one
longitudinal edge of the platform-forming portion. An upwardly-facing
longitudinal groove may be formed in a bottom flange of the rail portion
and extends the length of the plank to assist in starting penetration of
the self-tapping screws. The groove-bearing bottom flange projects from
the rail portion outwardly away from the main platform forming portion of
the plank so that the flange is exposed from above and thus the attaching
screws or other fastening means can be applied from above the deck
substructure.
Another feature relates to employment of matable tongue and channel
portions by adjacent ones of the planks for allowing easy assembling of
the planks to provide the deck platform. The planks are assembled together
one at a time progressing from one side of the deck substructure to the
other alternately with installation of screws in the rail portion bottom
flange of each plank.
Still another feature relates to the provision of longitudinal ridges on
the tongue portions of planks. The combined height of the ridge and
thickness of the tongue portion is slightly greater than the height of the
channel portion. Thus, when the tongue portion of one plank is inserted
into the channel portion of the adjacent plank which is already attached
to the deck substructure, the ridge on the tongue portion deforms slightly
by flattening to prevent occurrence of rattling between the tongue and
channel portions.
Accordingly, the present invention is directed to a boat decking system
which comprises a deck substructure and a multiplicity of elongated deck
planks being attachable to the deck substructure in adjacent side-by-side
relation to one another and above the deck substructure to provide a deck
platform upon the deck substructure. The planks include a plurality of
middle planks each having a main elongated platform-forming portion with a
pair of opposite longitudinal edges thereon, a plank-supporting rail
portion depending adjacent one edge of the platform-forming portion, a
plank-supporting runner portion depending adjacent the other edge thereof,
and attaching means defined along the edges thereof and being matable with
attaching means on edges of adjacent one of the middle planks.
More particularly, the rail portion of each middle plank has anchoring
means thereon being disposed outwardly of one edge of the platform-forming
portion and exposed from thereabove. Thus, the middle planks are
assemblable together one at a time progressing from one side of the deck
substructure to the other side thereof alternately with attachment of the
middle planks via their anchoring means thereon to the deck substructure
from above the substructure. The deck substructure is preferably composed
of a plurality of aluminum cross members, whereas the planks are
preferably aluminum planks. However, other rust resistant materials, such
as galvanized steel, can be used.
Further, the attaching means includes a channel portion defined along one
edge of the platform-forming portion and a tongue portion defined along
the other edge thereof and being sized to insert within the channel
portion. Also, each of the tongue portions has a longitudinal ridge or
protrusion formed thereon. The combined height of the ridge and thickness
of the tongue portion is slightly greater than the height of the channel
portion whereby when the tongue portion of one middle plank is inserted
into the channel portion of an adjacent middle plank, the ridge on the
tongue portion deforms to provide a tight fit which prevents occurrence of
rattling between the tongue and channel portions of adjacent middle
planks.
Still further, the anchoring means on the middle plank rail portion is a
bottom flange disposed below and projecting outwardly away from one edge
of the main platform-forming portion of the plank. The flange has an
upwardly-facing longitudinal groove defined therein which extends the
length of the middle plank and is adapted to assist in starting insertion
of self-tapping screws through the flange and into the deck substructure
for attaching the planks thereto.
Also, the present invention relates to a method of assembling a boat
decking system, comprising the steps of: constructing a deck substructure,
and placing a plurality of deck planks on the deck substructure in
side-by-side relation to one another to provide a deck platform upon the
deck substructure. The deck planks are placed on the deck substructure one
at a time progressing from one side of the deck substructure to the other
side thereof alternately with attachment of each plank to the deck
substructure from above the substructure before the next plank is placed
thereon. The deck substructure constructing step includes placing and
attaching a plurality of cross members on pontoons in longitudinally
spaced relation to one another.
These and other advantages and attainments of the present invention will
become apparent to those skilled in the art upon a reading of the
following detailed description when taken in conjunction with the drawings
wherein there is shown and described an illustrative embodiment of the
invention.
BRIEF DESCRIPTION OF THE DRAWINGS
In the course of the following detailed description, reference will be made
to the attached drawings in which:
FIG. 1 is a perspective view, with portions broken away, of a pontoon boat
having a decking assembly employing the features of the present invention;
FIG. 2 is an enlarged cross sectional view of the decking system on the
boat of FIG. 1;
FIG. 3 is an enlarged view of a fragmentary portion of the decking system
of FIG. 2;
FIG. 4 is a perspective view depicting one method of assembling the decking
system of FIG. 2; and
FIG. 5 is a perspective view depicting an alternative method of assembling
the decking system of FIG. 2.
DETAILED DESCRIPTION OF THE INVENTION
Referring now to the drawings, and particularly to FIG. 1, there is shown a
pontoon boat 10, which incorporates a decking system 12 constituting the
preferred embodiment of the present invention. While the decking system 12
is shown installed on a boat having a pair of elongated cylindrical
pontoons 14, it should be understood that the decking system 12 has
application to other types of boats as well.
Referring now to FIGS. 1 to 3, the decking system 12 basically includes a
deck substructure 16, and a deck platform 18 disposed upon the deck
substructure 16. The deck substructure 16 of the decking system 12
preferably is composed of a plurality of elongated aluminum cross members
20. Each cross member 20 includes upper and lower planar portions 20A, 20B
and an intermediate planar portion 20C extending between and
interconnecting the upper and lower portions 20A, 20B so as to dispose
them in fore-and-aft offset relation but generally parallel to one another
and in generally orthogonal relation to the intermediate portion 20C. The
cross members 20 are attachable at their lower forward portions 20B by
bolts 22 to mounting brackets 24 being fixed in longitudinally spaced
relation to one another on the pontoons 14. When attached to the pontoon
brackets 24 as seen in FIG. 4, the cross members 20 form an array in which
they are spaced from one another longitudinally along the pontoons 14 and
extend in generally orthogonal relation to the pontoons 14.
The deck platform 18 of the decking system 12 is composed of a multiplicity
of elongated aluminum deck panels or planks 26 being attachable to the
cross members 20 of the deck substructure 16 in adjacent side-by-side
relation to one another and above the cross members 20. The deck planks 26
include a pair of planks 26L, 26R being disposed at opposite outer sides
of the deck platform 18 and a plurality of intermediate or middle planks
26M disposed between the opposite outer side, or left and right hand,
planks 26L, 26R. Each of the middle and outer side planks 26M, 26L, 26R
have a main elongated platform-forming portion 28 with a pair of opposite
longitudinal edges thereon.
Also, each middle plank 26M includes a plank-supporting rail portion 30
depending adjacent the left edge of the platform-forming portion 28
thereof and a plank-supporting runner portion 32 depending adjacent the
right edge thereof. Further, attaching means in the form of a channel
portion 34 is defined along the left edge of the platform-forming portion
28 and a tongue portion 36 is defined along the right edge thereof. The
tongue portion 36 on one middle plank 26M is adapted to insert within the
channel portion 34 on an adjacent middle plank.
The runner portion 32 of each middle plank 26M is in the form of a
generally vertical planar strip being fixed and depending generally
perpendicular to the underside of the plank platform-forming portion 28
inwardly from the tongue portion 36 defined by the right edge of the
platform-forming portion 28. On the other hand, the rail portion 30 of
each middle plank 26M is in the form of a generally vertical planar strip
30A and a horizontal planar bottom flange 30B integrally connected thereto
and extending in orthogonal relation outwardly from the left edge of the
platform-forming portion 28 of the middle plank 26M. The channel portion
34 has a U-shaped cross-sectional configuration and is connected at the
outer end of its lower one leg 34A to the upper end of the vertical strip
30A of the rail portion 30 and at its base 34B to the left edge of the
platform-forming portion 28 of the middle plank 26M which also constitutes
the upper leg 34C of the channel portion 34. Thus, both the runner portion
32 and the vertical strip 30A of the rail portion 30 of each middle plank
26M extend in generally orthogonal relation to the platform-forming
portion 28 thereof.
In addition, as seen in FIG. 3, each tongue portion 36 has a longitudinal
ridge 38 formed thereon having a generally triangular cross-sectional
shape before insertion of the tongue portion 36 into one of the channel
portions 34. The combined height of the ridge 38 and thickness of the
tongue portion 36 is slightly greater than the height of the channel
portion 34. Thus, as the tongue portion 36 of one middle plank 26M is
inserted into the channel portion 34 of an adjacent middle plank 26M as
seen in FIG. 3, the ridge 38 on the tongue portion 36 flattens or deforms
somewhat to provide a tight fit between the channel and tongue portions
34, 36 of the adjacent middle planks 26M. The tight fit prevents rattling.
Also, each platform-forming portion 28 of the middle planks 26M has a
plurality of longitudinal grooves 40 defined on the upper surface thereof
for receiving glue to attach a carpet 41 on the upper surface of the deck
platform 18, as depicted in FIG. 1.
The bottom horizontal flange 30B of the rail portion 30 of each middle
plank 26M defines an anchoring means disposed outwardly of its channel
portion 34 at the left edge of its platform-forming portion 28 so as to be
exposed from above the plank. Thus, as depicted in FIG. 4, it is readily
apparent that the middle planks can be assembled together one at a time by
inserting the tongue portion 36 on a free plank into the groove portion 34
on a plank already attached to the cross members 20 of the deck
substructure 16. Such assembling of the planks proceeds or progresses from
the right side of the deck substructure 16 to the left side thereof, as
viewed in FIG. 2, alternately with attachment of the middle planks 26M via
their bottom flanges 30B to the deck substructure 16. It will be seen that
exposure of the bottom flanges 30B facilitates attachment thereof to the
cross members 20 from above the substructure 16. Attachment of the flange
30B to the cross members 20 is facilitated by the presence of an
upwardly-facing longitudinal groove 42 defined in the flange 30B and
extending the length of the plank. A plurality of self-tapping screws 44
are used to attach the flange 30B to the cross members 20. The pointed
leading ends 44A of the screws 44 are sized to fit into the groove 42 from
above the deck substructure 15 with the groove then providing an assist in
starting penetration of the self-tapping screws 44 into the flange 30B.
Referring to FIG. 2, as mentioned earlier, each outer right and left side
plank 26R, 26L has the main elongated platform-forming portion 28 with the
pair of opposite longitudinal edges thereon. Also, the right side plank
26R has a plurality of spaced apart plank-supporting runner portions 32
fixed to and depending adjacent and below the right edge of its
platform-forming portion 28 and a single plank-supporting rail portion 30
depending adjacent the left edge thereof. Further, the right side plank
26R has a groove portion 34 on its left edge adjacent the rail portion 30.
The left side plank 26L has a plurality of spaced apart plank-supporting
runner portions 32 fixed to and depending adjacent and below the left edge
of its platform-forming portion 28 and a single plank-supporting runner
portion 32 fixed to and depending adjacent and below the right edge
thereof. Further, the left side plank 26L has a tongue portion 36 on its
right edge adjacent the one runner portion 32.
The channel portion 34 of the right side plank 26R receives the tongue
portion 36 of the adjacent farthest right one of the middle planks 26M,
whereas the tongue portion 36 of the left side plank 26L is received in
the channel portion 34 of the adjacent farthest left one of the middle
planks 26M. Rub rails (not shown) are attached to the right and left side
planks 26R, 26L for anchoring them to the deck substructure 16.
In the method of assembling the decking system 12 illustrated in FIG. 4, it
is seen that, first, the deck substructure 16 is constructed by placing
and attaching the cross members 20 to the mounting brackets 24 located on
the pontoons 14 in longitudinally spaced relation therealong. Then, the
right side plank 26R is the first plank applied to the deck substructure
16 in assembling the deck platform 18. After the right side plank 26R is
attached to the cross members 20 as seen in FIG. 2, the first middle plank
26M is then applied by slidably mating its tongue portion 36 into the
channel portion 34 on the right side plank 26R and by attaching its flange
30B to the cross members 20. The other middle planks 26M are similarly
applied in succession in side-by-side relation to one another and
progressing from right to left, with the left side plank 26L being the
last plank to be applied to the deck substructure 16 to complete
construction of the deck platform 18 upon the substructure 16, with the
substructure, in turn, attached upon the pontoons 14.
Alternatively, as seen in FIG. 5, a decking system 12 can be assembled
before being mounted on the pontoons 14. This is the approach used when it
is desired to assemble and store decking systems 12 and then only later
mount them to pontoons as needed. It is much more convenient to store
assembled decking systems 12 separate from the pontoons 14. In the latter
method the deck substructure is constructed by laying out the cross
members 20 in the longitudinally spaced relation they will have when
mounted to the pontoons. Then, the planks 26 are mounted to the cross
members 20 in the same manner as before and the deck system 12 is mounted
to a pair of pontoons.
It is thought that the present invention and many of its attendant
advantages will be understood from the foregoing description and it will
be apparent that various changes may be made in the form, construction and
arrangement of the parts thereof without departing from the spirit and
scope of the invention or sacrificing all of its material advantages, the
form hereinbefore described being merely a preferred or exemplary
embodiment thereof.
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