The present invention relates generally to hybrid frame boats and, more particularly, yet not exclusively, to hybrid frame boats with drop-stitch bladders.
Inflatable boats, such as those available under the mark ZODIAC, often have sides and a bow made from inflatable tubes that are integral to each other. These inflatable boats typically have flexible, non-reinforced floors for boats under approximately nine feet or have rigid floors (for example, plywood sheets, aluminum sheets, or others) for boats over approximately nine feet. These inflatable boats with flexible floors typically have flat hull bottoms, providing rough rides and poor tracking. These inflatable boats with rigid floors typically maintain their footprint when the tubes are deflated, preventing convenient transporting of the boats.
Inflatable boats that employ drop-stitch bladders, such as those available under the mark SEA EAGLE, typically have sides and floors made from drop-stitch bladders that are integral to each other. The drop-stitch floor bladder of these inflatable boats can be prone to puncture. Moreover, these inflatable boats and the inflatable boats described in the immediately preceding paragraph typically require replacement of the entire boat when one of the inflatable portions fails. Thus, it is with regard to these considerations and others that the present invention has been made.
Non-limiting and non-exhaustive embodiments of the present innovations are described with reference to the following drawings. In the drawings, like reference numerals refer to like parts throughout the various figures unless otherwise specified. For a better understanding of the described innovations, reference will be made to the following Detailed Description of the Various Embodiments, which is to be read in association with the accompanying drawings, wherein:
The various embodiments now will be described more fully hereinafter with reference to the accompanying drawings, which form a part hereof and show, by way of illustration, specific example embodiments by which the invention may be practiced. The embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the scope of the embodiments to those skilled in the art. Among other things, the various embodiments may be methods, systems, or devices. The following detailed description is, therefore, not to be taken in a limiting sense.
Throughout the specification and claims, the following terms take the meanings explicitly associated herein, unless the context clearly dictates otherwise. The phrase “in one embodiment” as used herein does not necessarily refer to the same embodiment, though it may. Furthermore, the phrase “in another embodiment” as used herein does not necessarily refer to a different embodiment, although it may. Thus, as described below, various embodiments may be readily combined, without departing from the scope or spirit of the invention.
In addition, as used herein, the term “or” is an inclusive “or” operator and is equivalent to the term “and/or,” unless the context clearly dictates otherwise. The term “based on” is not exclusive and allows for being based on additional factors not described, unless the context clearly dictates otherwise. In addition, the meaning of “a,” “an,” and “the” include plural references. Also, plural references are intended to also disclose the singular, unless the context clearly dictates otherwise. The meaning of “in” includes “in” and “on.” Also, the use of “when” and “responsive to” do not imply that associated resultant actions are required to occur immediately or within a particular time period. Instead, they are used herein to indicate actions that may occur or be performed in response to one or more conditions being met, unless the context clearly dictates otherwise.
In the example shown in
In one or more of the various embodiments, boat 100 may have forward end cap 118, aft end cap 120, one or more handles 122, one or more sealable deck openings 124 (for example, one or more zippable deck openings, hook-and-loop deck openings, or others), one or more deck hatches 126 (for example, one or more roll-top, hinged, or removable deck hatches that may be opened or closed with one or more zippers, hook-and-loop fasteners, rotational threading, or others), and one or more deck fittings 128 (for example, strap eyes, deck loops, or others) disposed in cover 106. In some of the various embodiments, each cockpit 112 may include one or more seats that have one or more seat bottoms 130 or one or more seat backs 132. In some embodiments, each cockpit 112 may include coaming 134 that facilitate retaining a spray skirt. In some embodiments, coaming 134 may be disposed on cover 106. For example, cover 106 may have lip 136 that at least partially surrounds cockpit 112, and coaming 134 may be disposed on lip 136. In some embodiments, coaming 134 may be separable from cover 106 (for example, hook-and-loop fasteners, zippers, or others), may be fixed to cover 106 (for example, stitching, fusing, or others), or may be integral to cover 106 (for example, an extension of cover 106). In some embodiments, coaming 134 may include an inflatable tube, a cover over the inflatable tube, one or more closeable accesses 138 (for example, a flap that separably couples to another portion of coaming 134 with one or more hook-and-loop fasteners, snaps, or others), and valve 140 to inflate or deflate the inflatable tube.
In other embodiments, coaming 134 may be rigid or molded and affixed (for example, glued, stitched, attached with hook-and-loop fasteners, or others) to cover 106. In some embodiments, coaming 134 may include one or more sections of rigid tubing that slide into one or more openings in one or more sleeves that are affixed (for example, glued, stitched, attached with hook-and-loop fasteners, or others) to cover 106 along one or more portions of lip 136. In some embodiments, the one or more openings may be disposed in one or more tops, inward-facing sides, outward-facing sides, or ends of one or more sleeves.
In one or more of the various embodiments, keel beam 242 may extend along one or more portions of floor 248, thereby facilitating increasing rigidity of floor 248 or providing or retaining the shape of the hull of boat 100 (for example, a rounded, V-shaped, flat, pontoon, or other-shaped hull). In some of the various embodiments, keel beam 242 may be disposed in a center portion of floor 248. In some embodiments, boat 100 may have multiple keel beams 242 that are laterally separated from each other to define multiple hulls when boat 100 floats in water.
In one or more of the various embodiments, one or more portions of keel beam 242 (for example, one or more bow or stern deck-riser beams that are coupled to or part of keel beam 242) may extend along one or more portions of deck 114 (for example, extending from one or more of aft end portion 102 or forward end portion 104 partially or entirely to cockpit 112) to facilitate increasing rigidity of deck 114 or providing ridge 116. In some of the various embodiments, keel beam 242 may have one or more bends or joints to provide one or more U-shaped or V-shaped curves in keel beam 242 at one or more of aft end portion 102 or forward end potion 104, thereby facilitating keel beam 242 extending along one or more portions of floor 248 and one or more portions of deck 114. In other embodiments, one or more deck-riser beams (for example, a bow deck-riser beam, a stern deck-riser beam, or others) that are separate or distinct from keel beam 242 may extend along one or more portions of deck 114 to facilitate increasing rigidity of deck 114. In some embodiments, keel beam 242 or the one or more deck-riser beams may include one or more socketed poles that are separable from each other, one or more telescoping sections, or other mechanisms for reducing size for storage or transportation. For example, one or more portions of keel beam 242 or the one or more deck-riser beams may include one or more locking sleeves that have threads, spring-loaded couplings, push-button couplings, or others to facilitate locking an end portion of a first separable socket pole to an end portion of another separable socket pole received in the end portion of the first separable socket pole.
In one or more of the various embodiments, one or more portions of keel beam 242 or one or more deck-riser beams may be disposed in the interior space of boat 100 defined by cover 106. In some of the various embodiments, one or more portions of keel beam 242 or the one or more deck-riser beams may be disposed on the exterior surface of boat 100. For example, one or more straps, bungee cords, hooks, loops, or others may extend from the interior or exterior surface of cover 106 and may wrap at least partially around keel beam 242 or the one or more deck-riser beams to secure keel beam 242 to cover 106. In some embodiments, one or more portions of keel beam 242 or the one or more deck-riser beams may be at least partially disposed in cover 106. For example, cover 106 may include multiple layers or one or more fabric tubes or sleeves, and keel beam 242 or the deck-riser beam may be positioned between two of the layers or in the one or more tubes, such as i) by sliding through an opening to the space between the layers or in the one or more tubes at an end or middle portion of boat 100, with the opening being accessible from the interior or exterior of cover 106, or ii) by opening the space with a hook-and-loop fastener, zipper, set of snaps, or other fasteners disposed along one or more portions of the longitudinal length of the space, with the opening being accessible from the interior or exterior of cover 106.
In one or more of the various embodiments, boat 100 may include one or more aft thwarts 250 or one or more forward thwarts 252 that apply lateral force to left and right bladders 244, 246, thereby facilitating bracing boat 100 crosswise. In some embodiments, a user may place gear in the interior space of boat 100 to provide one or more functions of one or more thwarts 250, 252. In some of the various embodiments, one or more thwarts 250, 252 may have heights (for example, fully-inflated heights when external to cover 106) that exceed the distance between floor 248 and deck 114 at the installation position of one or more thwarts 250, 252 when left and right bladders 244, 246 are inflated and before installation of thwarts 250, 252, thereby facilitating increasing rigidity of deck 114 or providing ridge 116. For example, the top face or the bottom face of one or more thwarts 250, 252 may have slopes that define the installed slope of one or more portions of keel beam 242 or the one or more deck-riser beams, thereby facilitating providing a predefined slope to deck 114 or floor 248.
In one or more of the various embodiments, one or more thwarts 250, 252 may be inflatable, foldable, or otherwise collapsible. In some of the various embodiments, one or more valves (for example, one or more twist valves, Boston valves, or others) may be disposed in one or more thwarts 250, 252 or in one or more hoses that fluidly couple the one or more valves to interior space in one or more thwarts 250, 252, such as valve 254 positioned in cockpit 112 and fluidly coupled via hose 255 to interior space in aft thwart 250. In some embodiments, one or more thwarts 250, 252 may have one or more elbow fittings (for example, one or more 90-degree elbows or others) disposed at one or more of the port or starboard side faces of one or more thwarts 250, 252 and that fluidly couple one or more hoses 255 to the interior space of one or more thwarts 250, 252. In some embodiments, one or more thwarts 250, 252 may have footprints that correspond to the dimensions of the interior space that one or more thwarts 250, 252 occupy when installed in boat 100. For example, as shown in
In one or more of the various embodiments, one or more straps 256 coupled to seatback 132 may be coupled to one or more clasps 258 (for example, one or more snap-fit buckles or others) that removably couple to cover 106, thereby facilitating supporting seatback 132 and adjustment of the position of seatback 132 relative to cover 106. In other embodiments, one or more straps 256 coupled to cover 106 may be coupled to one or more clasps 258 that removably couple to seatback 132.
In one or more of the various embodiments, one or more of left or right bladders 244, 246 may be in a straight configuration when fully inflated and in a resting state (for example, fully inflated external to cover 106). For example, the longitudinal length of one or more of left or right bladders 244, 246 may follow a straight line (for example, parallel to the longitudinal length of cover 106 or parallel to keel beam 242) when one or more of left or right bladders 244, 246 are fully inflated external to cover 106 and are in the resting state (for example, no external lateral force applied to one or more of left or right bladders 244, 246). Accordingly, in some embodiments, the bowed configuration may be achieved based on the outward lateral force applied by one or more thwarts 250, 252 at the middle portion of one or more of left or right bladders 244, 246 and the inward lateral force applied by cover 106 at the aft and forward end portions of one or more of left or right bladders 244, 246.
In other embodiments, one or more of left or right bladders 244, 246 may be in the bowed configuration when fully inflated and in the resting state. For example, the inner side walls left and right bladders 244, 246 may have shorter longitudinal lengths than the outer side walls of left and right bladders 244, 246, thereby facilitating providing the bowed configuration when fully inflated in the resting state. As another example, a laminate may be applied with heat and glue to one or more sidewalls of one or more of left or right bladders 244, 246 to facilitate providing one or more curves along the longitudinal length of the one or more bladders 244, 246 that corresponds to the shape of cover 106. In some embodiments, one or more of the top or bottom faces of one or more of left or right bladders 244, 246 may be cut or shaped to promote the bowed configuration. In some embodiments, one or more of the top or bottom faces of one or more of left or right bladders 244, 246 may be bend or stretch to conform to the bowed configuration.
In one or more of the various embodiments, boat 100 may include one or more deck lines 362 that run through or otherwise couple to one or more deck fittings 128, thereby facilitating stowing gear on deck 114. In some of the various embodiments, one or more deck fittings 128 may be hingeably coupled to cover 106, thereby facilitating decreasing the likelihood that one or more deck fittings 128 break when stowed gear causes one or more deck lines 362 to apply one or more pulling forces on one or more deck fittings 128. In some embodiments, boat 100 may include one or more loops or anchors coupled to cover 106, and the one or more loops or anchors may be wrapped around one or more portions of one or more deck fittings 128, thereby facilitating the one or more deck fittings 128 swiveling or rotating relative to the one or more loops or anchors.
In one or more of the various embodiments, boat 100 may include one or more reinforcement members 364 (for example, one or more patches adhered, stitched, or otherwise secured to cover 106) that secure the one or more loops or anchors to cover 106. In some of the various embodiments, one or more reinforcement members 364 may be disposed in line (for example, in line from the perspective of an overhead view) with an expected force vector that is expected to be applied to one or more deck fittings 128 by one or more deck lines 362 when gear is stowed on deck 114. In some embodiments, one or more reinforcement members 364 may be disposed in cover 106 on the opposite sides of one or more deck fittings 128 than one or more locations toward which one or more deck fittings 128 are expected to be pulled when gear is stowed on deck 114. In the example shown in
In one or more of the various embodiments, one or more deck openings 124 or deck hatches 126 may provide access to the interior space in boat 100, such as the interior space forward or aft of one or more thwarts 250, 252, thereby facilitating storing gear in the interior space, installing one or more thwarts 250, 252, positioning or anchoring one or more bladders 244, 246, installing or adjusting the position of one or more thwarts 250, 252, or accessing one or more valves to inflate or deflate one or more portions of boat 100. In some of the various embodiments, a user may i) partially deflate one or more thwarts 250, 252, ii) reach through one or more deck openings 124, deck hatches 126, or cockpits 126 to grab one or more partially deflated thwarts 250, 252, iii) reposition the one or more partially deflated thwarts 250, 252, and iv) inflate one or more repositioned thwarts 250, 252. In some embodiments, one or more deck openings 124 or deck hatches 126 may provide access to one or more containers in boat 100.
In one or more of the various embodiments, boat 100 may include one or more floor pads 474 removably disposed between one or more portions of floor 248 and one or more elements above floor 248, such as keel beam 242, seat bottom 130, or others, thereby facilitating reducing the likelihood of puncturing cover 106. In some of the various embodiments, floor pad 474 may have a longitudinal length that meets or exceeds the longitudinal length of seat bottom 130, such as a longitudinal length of 1.5, 2, 2.5, 3, 3.5, or 4 times the longitudinal length of seat bottom 130. In some embodiments, floor pad 474 may have a width that corresponds to the width of seat bottom 130 or the lateral distance between the inner faces of the left and right bladders 244, 246 at the longitudinal position floor pad 474, such as a width that is 25, 50, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, or more percent of the width of seat bottom 130 or the lateral distance between the inner faces of the left and right bladders 244, 246 at the longitudinal position of floor pad 474. In some embodiments, floor pad 474 may include rubber, foam, plastic, or other materials.
In contrast to the flat hull bottom of
In one or more of the various embodiments, one or more bladders 244, 246 may have a rectangular shape as viewed from aft or forward end portions 576, 578 (see FIG. 7), with the heights of one or more bladders 244, 246 exceeding the widths of one or more bladders 244, 246 along the majority of the longitudinal lengths of one or more bladders 244, 246. For example, the height may be 1.25, 1.5, 1.75, 2, 2.25, 2.5, 2.75, 3, or more times the width. In some of the various embodiments, one or more bladders 244, 246 may have widths of 3, 4, 5, 6, 7, 8, 9, ten, eleven, twelve, or fewer inches. In some embodiments, one or more bladders 244, 246 may have a smaller height at one or more aft or forward end portions 576, 578 than the other of aft or forward end portions 576, 578 or than the middle portion of one or more bladders 244, 246. For example, the bottom face of one or more bladders 244, 246 may slope upward along the longitudinal length of one or more bladders 244, 246 from a middle portion toward one or more end portions in the aft-most or forwardmost 5, 10, 15, 20, 25, 30, or more percent of one or more bladders 244, 246 (see
In one or more of the various embodiments, keel beam 242 may have multiple sections. In some of the various embodiments, keel beam 242 may include one or more joints 888 where each section of keel beam 242 meets another section of keel beam 242. In some embodiments, the sections are separable from each other. In some embodiments, keel beam 242 may include one or more locks 890 that facilitate securing two or more sections to each other. For example,
In one or more of the various embodiments, one or more seat bottoms 130 or seat backs 132 may include one or more inflatable portions and one or more valves 892 (for example, one or more twist valves, Boston valves, or others) to inflate or deflate the one or more inflatable portions. In some of the various embodiments, the interior space in seat bottom 130 may be fluidly coupled to the interior space in seat back 132. In some embodiments, the interior space in seat bottom 130 may be fluidly isolated from the interior space in seat back 132. In some embodiments, valve 140 may be disposed in hose 894 that fluidly couples valve 140 to interior space in one or more inflatable tubes in coaming 134.
In one or more of the various embodiments, one or more reinforcement members 364 that secure one or more loops or anchors at one or more bases of one or more handles 122, deck fittings 128, or others may include one or more inner reinforcement members 896 and one or more outer reinforcement members 898. In some of the various embodiments, one or more inner reinforcement members 896 may be disposed over the one or more loops or anchors and may be adhered, stitched, or otherwise secured to cover 106. In some embodiments, one or more outer reinforcement members 898 may be disposed over one or more inner reinforcement members 898 and may be adhered, stitched, or otherwise secured to cover 106. In some embodiments, one or more inner or outer reinforcement members 896, 898 may include one or more patches of one or more materials, such as one or more materials that are the same as or different than one or more materials in cover 106.
In one or more of the various embodiments, when disassembling boat 100, a user may deflate one or more inflatable components, such as one or more of seat bottom 130, seat back 132, left bladder 244, right bladder 246, aft thwart 250, forward thwart 252, or others to provide the relaxed configuration of cover 106. In some of the various embodiments, after at least partially deflating the one or more components, the user may remove one or more of the removable components of boat 100 from cover 106 for storage or transportation, such as one or more of seat bottom 130, seat back 132, keel beam 242, bow or stern deck-riser beams, left bladder 244, right bladder 246, floor pad 474, or others. In some embodiments, when the removable components of boat 100 are installed in cover and the inflatable components are fully inflated (for example, cover 106 in the taut configuration), boat 100 may have a length of five, six, or fewer feet (for example, play boats or others), a length of seven, eight, or fewer feet (for example, whitewater kayaks or others), a length of nine, 10, 11, 12, 13, 14 or more feet (for example, recreational kayaks or others), a length of 15, 16, 17, 18, 19, or more feet (for example, touring kayaks, sea kayaks, or others), or other lengths. In some embodiments, when the removable components of boat 100 are installed in cover and the inflatable components are fully inflated (for example, cover 106 in the taut configuration), boat 100 may have a width of 20, 22, 24, 26, 28, 30, or more inches. In some embodiments, when the inflatable components are deflated and boat 100 is disassembled and folded for transportation or storage, boat 100 may have a folded size of 35 inches by 21 inches by 9 inches.
The foregoing examples should not be construed as limiting or exhaustive, yet rather, illustrative use cases to show implementations of at least one of the various embodiments of the invention. Accordingly, many changes can be made without departing from the spirit and scope of the invention. For example, changes to the example implementation illustrated in