The present disclosure relates to a modular storage structure that is configured to be assembled and positioned in a body of water. More particularly, the present disclosure relates to a modular storage structure that can be assembled and positioned in a body of water proximate a dock or other structure configured to retain or lift a boat.
Many people enjoying boating activities on the water. These activities include fishing and other recreational activities, such as, but not limited to water skiing, water tubing and wakeboarding. Many of these activities require a significant amount of equipment. For instance, fishing requires fishing rods and reels, a tackle box, typically a landing net and in some instances a live bait bucket. Similarly, recreational water activities can require skis, tubes and wakeboards are required for water skiing, water tubing and wakeboarding. In all instances, life jackets or floatation devices are also required.
However, many people do not want to leave the equipment in their boats for extended periods of time. For instance, weather can adversely affect the equipment over time. Further, leaving equipment in an unattended boat increases the possibility of the equipment being taken or stolen.
As such, many people transport the equipment to the boat from a secure location, such as a house, cabin or outdoor shed when the equipment is used and back to the secure location after the equipment has been used. However, the transportation of the equipment to and from the boat can be time consuming and tiresome.
An aspect of the present disclosure is directed to a storage structure configured to be buoyant or retained above a water line. The storage structure includes a frame having a back beam, a left beam attached to the back beam, a right beam attached to the back beam and a front beam attached to the left beam and the right beam to form a substantially rectangular configuration, wherein prior to a last of the beams being secured together an interior space accessible through an opening. The storage structure includes a bladder configured to be positioned through the interior space though the opening wherein the bladder is sized to be retained within the interior space whether the storage structure is above the water line or buoyant, the bladder including a vent, a fill port and a drain wherein an amount of water within the bladder is manipulated to provide ballast or buoyancy to the storage structure. The storage structure includes at least one floor panel secured to the frame over the bladder, side walls extending from a perimeter of the floor panel, wherein one side wall includes a door for ingress and egress to the storage structure. The storage structure includes a roof attached to the side walls.
Another aspect of the present disclosure includes a storage structure configured to be buoyant or retained above a water line the storage structure. The storage structure includes a frame with a back beam, a left beam attached to the back beam, a right beam attached to the back beam, and a front beam attached to the left beam and the right beam to form a substantially rectangular configuration, wherein prior to a last of the beams being secured together an interior space accessible through an opening. The storage structure includes a bladder configured to be retained within the interior space of the frame, the bladder including a vent, a fill port and a drain wherein an amount of water within the bladder configured to is manipulated to provide ballast or buoyancy to the storage structure. The storage structure includes at least one floor panel supported by the frame over the bladder, side walls extending from a perimeter of the floor panel, wherein one side wall includes a door for ingress and egress to the storage structure, and a roof attached to the side walls. The storage structure includes a plurality of legs extending from the frame, each of the plurality of legs being independently adjustable in length, wherein when the plurality of legs is in a first position, the legs support the structure above the water line and wherein when the plurality of legs is in a second position, the bladder provides buoyancy to the structure to maintain the structure afloat.
The present disclosure is directed to a modular storage structure that is configured to be installed proximate a dock, a pier or a boat lift. Once constructed, the storage structure is positioned in a body of water proximate the dock, pier or boat lift to provide a structure for securely storing equipment that is used while on a boat, dock or pier. The storage structure 10 can be retained above a water level with a plurality of legs 11, as illustrated in
Referring to
A plurality of joists 20 is secured to the left side beam 16 and the right side beam 18. The plurality of joists 20 is substantially uniformly spaced apart and provide rigidity to the frame 12 by retaining the left and right side beams 16 and 18 in a substantially parallel orientation. The plurality of joists 20 also provide support for a bladder 30 that is installed below a floor of the storage structure 10.
The bladder 30 is installed within the frame 12 through an opening 22 in the frame 12, where the opening 22 is opposite the back beam 14. The bladder 30 has a width that is slightly less than a length of the back beam 14 such that the bladder can be positioned within the opening 22. The bladder 30 has a length that is approximately a length of the left and right side beams 16 and 18 such that the bladder 30 is retained within the “U” shaped structure of the frame 12.
Once the bladder 30 is positioned within the frame 12, a front end beam 24 is fixedly secured to the left and right side beams 16 and 18 with a weld or a bolt and nut connector, where the front end beam 24 is substantially “C” shaped in cross-section. However, other cross-sectional configurations of the front end beam 24 is within the scope of the present disclosure including, but not limited to a tubular cross-section and an I-beam cross-section. With the front end beam 24 secured to the left and right side beams 16 and 18, the frame 12 is substantially continuous which retains the bladder 30 within the frame 12 and prevents the bladder 30 being removed from the frame 12. While the bladder 30 is illustrated as being installed through the front end of the frame 12, the frame 12 can be constructed such that the bladder 30 can be installed through any side of the frame where the beam for the selected side is then secured to the frame 12 after the bladder 30 is installed.
In other embodiments, the front end beam 24 is removably secured to the left and right side beams 14 and 16, which allows the bladder 30 to be removed from the frame 12 and reinserted into the frame 12. In this alternative embodiment, the bladder 30 includes a plurality of handles to aid in manipulating the bladder 30 into and out of the frame 12.
In the embodiment disclosed in
While a pin 19 inserted through aligned apertures 21 is disclosed and illustrated, other retaining mechanism are within the scope of the present disclosure including set screws. The present disclosure can also utilize legs 11 where the length can be adjusted with an actuator, such as, but not limited to a threaded bolt that moves the lower portion 17 relative to the fixed upper portion 15.
The upper portion 15 typically includes a square or rectangular through bore that accepts the lower portion 17 having a complimentary configuration. The square or rectangular through bore in the upper portion 15 that accepts the exterior surface of the lower portion 17 prevent rotation of the lower portion 17 relative to the upper portion 15, which aids is aligning the apertures in the respective portions of the leg 11. While square or rectangular cross-sectional portions 15 and 17 are disclosed, the legs the portions 15 and 17 can be any complementary configuration include in polygonal, cross-sections with a single flat surface and a circular cross-section (where rotation of the leg within the bracket must be accounted for with a securing mechanism). However, it is also within the scope of the present disclosure to utilize circular cross-sectional tubular members for the legs 11 or to have a leg of a fixed length move within a receptacle of a mounting bracket attached to the frame 12 to adjust the length of each leg 11.
When the storage structure 10 is above the waterline, the bladder 30 is supported by the lower interior surfaces extending around a perimeter of the frame 12 and the plurality of joints 20. When the bladder 30 is used to provide buoyancy to the storage structure 10 as illustrated in
The bladder 30 includes a fill port 32 configured to accept water (or other liquid) therein to provide ballast to the storage structure 10 to provide stability when the storage structure 10 is retaining equipment of a substantially weight. The bladder 30 includes a drain 34 to allow water to drain from the bladder to provide floatation or buoyancy when empty. The bladder 30 also includes a vent 36 to allow air to escape when adding water through the fill port 32 and to allow air to enter the bladder 30 when draining water through the drain 36, such that a vacuum is prevented within the bladder 30.
The storage structure 10 includes a plurality of floor or decking panels 40 that are secured to the inner upper surface of the frame 12, typically with nuts and bolts. However, other fastening devices including, but not limited to screws and interlocking abutting surfaces are also contemplated.
The decking panels 40 are typically of the same construction so that the panels 40 are interchangeable for ease of constructions. However, at least one panel 40 includes access panels 42 to the fill port 32 and the vent 36 to allow the bladder 30 to manipulated without having to remove the bladder 30 from the frame 12. As the bladder 30 is substantially open from the bottom, the drain 34 can be accessed by raising the storage structure 10 above the waterline.
The storage structure includes a skeleton or stud structure 50 that defines a shape of the structure. The structure 50 includes a plurality of spaced apart vertical studs 52 secured to the back beam 14, the left beam 16 and the right beam 24 and in the corners of the frame 12. A plurality of studs 52 are also secured to right beam 18. However, a substantially horizontal beam 54 is secured between a spaced apart studs 52 to provide an entryway 56 to an interior of the structure 10. Upper ends of the studs 52 are secured together with horizontal beams 58 that extend around a perimeter of the structure 50.
A roof line portion 60 of the structure 50 includes studs 62 secured to the horizontal beam 58 above the right beam 18. The studs 62 are secured to an upper beam 64 that is raised above the beam 58 a distance of the studs.
A left upper beam 66 is secured to the beam 58 above the left side beam 16 and trusses 68 are secured to the beams 64 and 66 to provide a roof line that slopes from the right side to the left side.
Referring to
Once the walls 70, 72, 74 and 76 are secured to the structure 50, roof panels 88 are secured to the upper beams 64 and 66 and the trusses 68 to provide a substantially waterproof structure.
A door 90 is then hingedly secured within the doorway 86 and can be locked. In some embodiments, one or more windows 92 and 94 can be utilized to provide natural light and ventilation into the structure 10. However, more or less windows can be utilized and in different locations.
As illustrated, the siding and roof of the structure can be constructed of panels. However, it is within the scope of the present disclosure to utilize a one-piece shell 110 as illustrated in
In the present disclosure, the studs 52 are utilized to mount or secure various items within the structure. By way of non-limiting example, the studs 52 can provide an interior surface for mounting or secure a sink, lights, storage brackets, live well, a pump for suppling water to the sink, bladder, the live well or a hose, a battery for storing electricity from the solar panel, lights, electrical connections, interior finish work, shelving and the like.
In alternative embodiments, the panels can include interlocking return bends that form the vertical seams 58 that aid in preventing water leakage. The return bends that form the seams that extend inwardly into the storage structure and provide interior surfaces for mounting items, as discussed above. Alternatively, the panels can include interlocking surfaces that are formed using a molding or extrusion process.
Optionally, the storage structure 10 can include one or more solar panel 100 secured to the side wall 76 where the solar panel 100 can provide electricity to the storage structure 10. However, any number of solar panels 100 can be secured to any of the exterior surfaces of the storage structure.
In some embodiments the solar panel 100 is used to charge a battery 132 within the storage structure 10. The battery 132 can be utilized to power a pump 132 to add water to the bladder 30 or running water for a sink 136 proximate a fish cleaning station 138. Further, the electricity from the solar panel 100 can be utilized to power electric lights 140 for visibility and any number of electric powered equipment including, but not limited to a charger, a speaker, and electric appliances.
In some embodiments, the frame 12 can be extended by adding length to the left and right beams 16 and 18 which allows additional panels to be utilized to increase the foot print of the storage structure 10.
Although the present disclosure has been described with reference to preferred embodiments, workers skilled in the art will recognize that changes may be made in form and detail without departing from the spirit and scope of the disclosure.
The present application claims the benefit of U.S. Provisional Patent Application Ser. No. 62/970,976 entitled MODULAR STORAGE STRUCTURE FOR POSITIONING IN A BODY OF WATER that was filed on Feb. 6, 2020, the contents of which is incorporated by reference in its entirety.
Number | Date | Country | |
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62970976 | Feb 2020 | US |