1. Field of the Invention
At least some example embodiments of the invention concern kayaks. However, one or more of the concepts, in various combinations, disclosed herein may extend to other types of watercraft as well such as, for example, sailboats, surfboards, paipo boards, boards for wind surfers, paddleboards, knee boards, canoes, wakeboards, and body boards, examples of which include boards referred to as boogie boards.
2. Description of Related Art
Kayaks can be difficult to stabilize and maneuver, especially for children. It can also be difficult for children to enter or reenter a kayak especially, for example, after they fall off of the kayak. In addition, it can be difficult for children to initially sit on a kayak or get back on the kayak if they fall off. One or more of these problems may manifest themselves in other types of watercraft as well.
Disclosed embodiments are concerned with watercraft. Some example embodiments within the scope of this disclosure may, but need not, include one or more of the following elements, in any combination: a sloped transom; a ramp; one or more projections on the bottom of the hull; one or more longitudinal recesses on the bottom of the hull; a cockpit; a reverse-chine geometry incorporated in the hull. None of the foregoing should be interpreted to be an essential or critical element, and other embodiments may omit one or more of any of the foregoing elements while remaining within the scope of the invention. Moreover, none of the aforementioned elements are mutually exclusive and all could be included in a single embodiment.
In one example embodiment, a kayak is provided that includes one, some or all of the aforementioned elements, in any combination. A portion, or all, of the kayak may be constructed of blow-molded plastic and one or more of the aforementioned elements, in any combination, may be integrally formed as part of the kayak during a blow-molding process.
The appended drawings contain figures of example embodiments to further illustrate and clarify various aspects of the present invention. It will be appreciated that these drawings depict only example embodiments of the invention and are not intended to limit its scope. Aspects of the invention will be described and explained with additional specificity and detail through the use of the accompanying drawings in which:
As noted elsewhere herein, at least some example embodiments of the invention concern kayaks. However, one or more of the concepts, in any combination, disclosed herein may extend to other types of watercraft as well such as, for example, sailboats, surfboards, paipo boards, boards for wind surfers, paddleboards, knee boards, canoes, wakeboards, and body boards, examples of which include boards referred to as boogie boards. Thus, the scope of this disclosure is not limited to kayaks, or to any other type(s) of watercraft.
A. General Aspects of Some Example Embodiments
While the discussion herein makes reference to a kayak, it should be understood that reference to a kayak is by way of illustration and the discussion applies as well to the various other types of watercraft disclosed herein, and to any other types of watercraft that would be apparent to a person of ordinary skill in the art.
In at least some embodiments, a portion, or all, of a watercraft such as a kayak may be constructed of blow-molded plastic. However, the scope of this disclosure is not limited to blow-molding processes or blow-molded elements. Other processes that may be used to construct a portion, or all, of a kayak, or other watercraft, include roto-molding, vacuum molding, and processes sometimes referred to as twin-sheet processes. It will also be appreciated that the kayak need not be constructed from plastic and may be constructed using other materials having other suitable characteristics.
Portions of a kayak that may be integrally formed as part of the kayak by way of a blow-molding process include, in any combination, one or more of: a sloped transom; a ramp; one or more projections on the bottom of the hull; one or more longitudinal recesses on the bottom of the hull; a cockpit; a reverse-chine geometry incorporated in the hull. Additionally, or alternatively, one or more other elements, in any combination, may be integrally formed with the kayak as part of a blow-molding process. Examples of such other elements include, but are not limited to, seats, hand holds, foot wells, recesses of any type, storage areas, drain holes, paddle rests, and projections of any type.
In at least some instances, one or more of the elements disclosed herein, such as the preceding examples, may be integrally formed with a hull of the kayak as part of a blow-molding, or other, process. Any embodiment of the kayak that is constructed at least partly of blow-molded plastic may have an interior that is partly, or completely, hollow. Such embodiments may also include, disposed in the interior, one or more depressions, sometimes referred to as “tack-offs.” In such embodiments, these tack-offs may be integrally formed as part of a unitary, one-piece structure during the blow-molding process. The depressions may extend from a first surface, such as a first interior surface of the kayak, towards a second surface, such as a second interior surface of the kayak. The ends of one or more depressions may contact or engage the second surface, or the ends of one or more of the depressions may be spaced apart from the second surface by a distance.
In some instances, one or more depressions on a first interior surface may be substantially aligned with corresponding depressions on a second interior surface, and one or more depressions on the first interior surface may contact one or more corresponding depressions on the second interior surface or, alternatively, one or more depressions on the first interior surface may be spaced apart from corresponding depressions on the second interior surface. In still other instances, depressions that contact each other, and depressions that are spaced apart from each other, may both be present in a kayak. The depressions may be sized and configured to strengthen and/or reinforce the blow-molded plastic hull and/or other portions of the kayak.
Any of the embodiments disclosed herein, or derived from this disclosure, may also include a surface treatment, examples of which include ethylene-vinyl acetate (EVA) foam decking, ABS sheeting and polyethylene sheeting, disposed on at least a portion of the kayak, such as the transom and/or ramp for example. Other surface treatments, such as texturing for example, may be formed as part of a blow-molding process. In one example of a surface treatment that may be included in any embodiment, the surface treatment may be configured to provide a grippable surface for a user so that the user can more readily grasp, and keep hold of, a portion of the kayak, such as the transom and/or ramp for example. In another example that may be included in any embodiment, the hull and/or other portions of the kayak has one or more surfaces, such as on the transom and/or ramp for example, with a chemically etched textured portion that provides traction and may allow for elastomeric sheathing to be adhered. In still further examples, one or more surfaces of the kayak are textured, and the sheathing or other covering may be omitted.
At least some embodiments of the kayak are particularly well-suited by use for children, as well as adults of relatively small stature. In one particular example, a kayak of about 70 to about 90 inches in length may be well-suited for use by such individuals, although other lengths may be employed as well. In a further example, a kayak of about 80 inches in length may be used. A kayak of approximately 80 inches in length may, for example, have a width that is about 20 to 30 inches, such as about 26 inches. It should be understood that the length-to-width ratio implicit in the foregoing example dimensions may be extended to define lengths and widths of other kayak embodiments.
B. Description of Some Example Embodiments
Turning now to
In some cases, the cockpit 204 may extend over approximately the forward two-thirds of the overall length of the kayak 100, although other embodiments may employ a cockpit 204 that is longer, or shorter, than two-thirds of the overall length of the kayak 100. More particularly, aspects such as the width, depth and length of the cockpit 204 may be configured to suit individuals of particular physical size(s). In some instances, and as indicated in
With continued reference to
In addition to the overall configuration of the cockpit 204, the body 200 may include various other elements that may enhance the usefulness and functionality of the kayak 100. By way of example, the body 200 may include one or more foot wells 208 on either side of the cockpit 204. Aspects such as the size, geometry, orientation, number, location and spacing of the foot wells 208 can be selected as desired. Among other things, the foot wells 208 may enable a user to position his or her feet in a variety of different locations within the cockpit 204. This flexibility in positioning may prove useful where considerations such as physical size and paddling style can vary from one user to another. As well, different water, wind and other environmental conditions may dictate changes in the foot position of a user.
The body 200 may also include a seating area 210 configured to accommodate a user. The seating area 210 may form a portion of the cockpit 204 and be recessed in such a way as to provide a back portion 210a that can support the user, and against which the user can push. In at least some embodiments, the body 200 may include one or more hand holds 212 on either side of the cockpit 204. In general, the hand holds 212 are sized and configured to enable a user to grasp and hold the kayak 100. The size, number, location, and spacing of the hand holds 212 may be selected as desired.
In some implementations, the body 200 may include one or more paddle rests 214. In the example of
With continued reference to
The ramp 206 may be sloped at any desired angle and some or all of the ramp 206 may, or may not, include surface treatments and/or surface coverings that provide a grippable surface which may better enable a user to grip and/or mount the kayak 100. Moreover, side rails 206a which may, in some implementations, form a portion of the hull 202, may also include surface treatments and/or surface coverings that provide a grippable surface which may better enable a user to grip and/or mount the kayak 100.
Among other things, the ramp 206 may enhance the usability and functionality of at least some embodiments of the kayak 100. For example, if a user falls from the kayak 100, it may be possible for the user to more easily reenter the kayak 100 using the ramp 206. Even if the user lacks sufficient upper-body strength to reenter the kayak 100 in this manner (e.g., if the user is a child), the ramp 206 may allow the user to mount a portion of the kayak 100 and use the kayak 100 as a floatation device until help comes or use the kayak 100 as a kickboard to return to shallow water.
With continued reference to
Directing attention now to
In the illustrated example, the relatively wider portion of each projection 220 is located closer to the back 100b of the kayak 100 than is the relatively narrow portion of each projection 220. The length of the projections 220 may be about one-quarter to about one-sixth of the overall length of the kayak 100, although other dimensional relationships may alternatively be implemented. Likewise, the width and height (i.e., the extent to which the projections 220 extend below the hull 202) may be varied as desired. With particular regard to the height of the projections 220, the example of
As best indicated in
With regard to their positioning, the projections 220 may each be disposed on a respective side of a centerline CL of the kayak 100 (
In some instances, one or more additional projections (not shown) are provided that are relatively larger, or smaller, in one or more of their length, width, and height, than the projections 220. Such additional projections may be located near the rear of the kayak 100, or anywhere else on the kayak 100. Finally, one or more of the projections 220 may comprise, or be implemented as, a tack-off.
More generally, the scope of the invention is not limited to any particular, number, size, geometry, location, or orientation of projections. Rather, any one or more of these aspects may be varied to define yet further embodiments.
The use of one or more projections, such as the example projections 220, in embodiments of the kayak may provide various benefits. By way of example, the projections may serve to contribute to a relative increase in the buoyancy of the kayak, as compared to the buoyancy that would be associated with the kayak if the projections were not present. This added buoyancy may help prevent the front of the kayak from pitching upward significantly when a user mounts or reenters the kayak using the transom and/or the ramp. As well, the wedge shape of some examples of the projections may serve to guide the kayak in the tracking, or forward straight line, direction.
With reference now to
The longitudinal recesses 300 may be relatively wide. For example, in at least some embodiments, one or more longitudinal recesses 300 may have a maximum width in a range of about 15 percent of the overall width of the kayak 100 to about 25 percent of the overall width of the kayak 100. In one particular embodiment, one or more longitudinal recesses 300 may have a maximum width of about 20 percent of the overall width of the kayak 100. Larger, or smaller, recess widths may be employed in other embodiments. As indicated, for example, in
Additionally, or alternatively, the longitudinal recesses 300 may be relatively deep. For example, in at least some embodiments, one or more longitudinal recesses 300 may have a maximum depth in a range of about 10 percent of the overall depth of the kayak 100 to about 20 percent of the overall depth of the kayak 100, where the depth is measured from the bottom of the hull 202 to the uppermost portion of the front 100a of the kayak 100. In one particular embodiment, one or more longitudinal recesses 300 may have a depth of about 15 percent of the overall depth of the kayak 100. Larger, or smaller, recess depths may be employed in other embodiments.
The geometry of one or more longitudinal recesses may be such that a longitudinal recess has a substantially triangular cross-section, as indicated in
Finally, a further recess 302 may be provided that extends along a portion of the length of the kayak 100. In at least some instances, the recess 302 may be at least approximately parallel to, and located near or on, the centerline CL. The recess 302 may comprise, or be implemented as, a tack-off, such as tack-off 201 for example (see
More generally, the scope of the invention is not limited to any particular, number, size, geometry, location, or orientation of longitudinal recesses. Rather, any one or more of these aspects may be varied to define yet further embodiments.
With particular reference now to
The reverse-chine geometry indicated in
With particular reference, finally, to
The present invention may be embodied in other specific forms without departing from its spirit or essential characteristics. The described embodiments are to be considered in all respects only as illustrative and not restrictive. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.
This application hereby claims priority to U.S. Provisional Patent Application Ser. No. 61/370,060, entitled KAYAK, filed Aug. 2, 2010, and incorporated herein in its entirety by this reference.
Number | Date | Country | |
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61370060 | Aug 2010 | US |