Portable boats are popular with, for example, sportsmen and the like. Many such boats are relatively inexpensive and easily transportable, which contribute to their affordability and convenience. Such boats come in a wide range of configurations.
One popular configuration is a rigid boat that includes, for example, a pointed hull having a planar transom or a double-ended hull. Such rigid boats can be fabricated from a range of known materials, for example, polypropylene, aluminum, wood, fiberglass, and the like. Often, such rigid boats include a number of transverse seats.
Another popular configuration is a collapsible boat. Exemplary collapsible boats are disclosed in U.S. Pat. Nos. 4,556,009; 4,660,499; and 5,524,570. Many existing collapsible boats are light enough to be carried by a single person when collapsed.
Another popular configuration is an inflatable boat. Existing inflatable boats have inflatable side members and seats disposed between the inflatable side members.
Because of the continuing need for portable boats, improvements are always sought. Thus, there is believed to be a need for portable boats with enhanced features.
The following presents a simplified summary of some embodiments of the invention in order to provide a basic understanding of the invention. This summary is not an extensive overview of the invention. It is not intended to identify key/critical elements of the invention or to delineate the scope of the invention. Its sole purpose is to present some embodiments of the invention in a simplified form as a prelude to the more detailed description that is presented later.
Embodiments herein are directed to a folding or collapsible boat having a transom that remains attached when a hull for the boat is in the collapsed configuration. The transom can be attached so that it folds, e.g., via a hinge, from a collapsed state to an expanded state or configuration. A folding transom can be positioned to constrain the panel rear margins when the hull is in the expanded configuration. In many embodiments, a rigid transom enables the attachment of an outboard motor.
In many embodiments, the boat includes a plurality of removable or hinged solid seats. When installed, the removable seats constrain the panels when the hull is in the expanded configuration.
Thus, in another aspect, a boat is provided that includes a collapsible hull and a folding rigid transom. The collapsible hull has a first end and a second end. The hull includes a plurality of panels extending between the first end and the second end. Each of the panels is connected with at least one other of the panels. The hull is configurable between a collapsed configuration and an expanded configuration. The folding rigid transom constrains at least two rear margins of the panels when the hull is in the expanded configuration. And the folding rigid transom remains attached to the hull when the hull is in the collapsed configuration.
The folding rigid transom can have one or more separate sections. With a single-section transom, the folding rigid transom can have a first end that remains attached to the hull when the hull is in the collapsed configuration and a second end that is attachable to the hull to secure the folding rigid transom when the folding rigid transom constrains the at least two rear margins of the panels. As an example of more than one section, the folding rigid transom can include separate first and second sections, with each of the first and second sections remaining attached to the hull when the hull is in the collapsed configuration. In many embodiments, the first section is attachable to the second section to secure the folding rigid transom while the folding rigid transom constrains the at least two rear margins of the panels.
In many embodiments, the folding rigid transom interfaces with port and starboard panels of the collapsible hull when the hull is in the expanded configuration. For example, the folding rigid transom can include a port side surface and a starboard side surface that are configured to interface with port and starboard side panels, respectively, when the hull is in the expanded configuration. The folding rigid transom can be hinged to the hull so that port and starboard side panels do not interfere with the folding rigid transom as it is folded. For example, the boat can include one or more hinges having a common hinge line, the common hinge line being disposed forward of at least one of the port and starboard side surfaces of the transom when the hull is in the expanded configuration, the one or more hinges remaining coupled with the folding rigid transom and the hull when the hull is in the collapsed configuration.
In many embodiments, the boat further comprises one or more hinges having a common hinge line. The one or more hinges remain coupled with the folding rigid transom and the hull when the hull is in the collapsed configuration. In many embodiments, the folding rigid transom can be translated along the common hinge line relative to the hull by a predetermined amount to facilitate configuring the folding rigid transom to constrain the at least two rear margins of the panels. The ability to translate the folding rigid transom along the common hinge line by the predetermine amount can be provided by using two hinges configured to allow the predetermined amount of translation. For example, the one or more hinges can include a first hinge that includes a first member and a second member, and a second hinge that includes a third member and a fourth member. The second and fourth members can be attached to one of the hull or the folding rigid transom and disposed between the first and third members. The second and fourth member can then be offset from the first and third members so as to provide the predetermined amount of translation of the folding rigid transom along the common hinge line relative to hull.
In many embodiments, the boat further includes a releasable connector operable to prevent folding of the rigid transom when the folding rigid transom is constraining the at least two rear margins of the panels. For example, the releasable connector can include one or more vertically oriented retaining pins. As another example, the releasable connector can include one or more reconfigurable latch members. The folding rigid transom can include one or more slots configured to receive the one or more reconfigurable latch members extending there through. And the one or more reconfigurable latch members can be coupled with the hull and configurable to engage the folding rigid transom adjacent to the one or more slots to prevent folding of the folding rigid transom when the folding rigid transom is constraining the at least two rear margins of the panels.
In many embodiments, each panel has a rear margin disposed to the second end of the boat, and the collapsible hull includes a flexible diaphragm connected with the rear margins of the panels. The flexible diaphragm has a substantially compact configuration when the hull is in the collapsed configuration. And the flexible diaphragm provides a water-tight barrier when the hull is in the expanded configuration.
In many embodiments, the boat includes a motor mount configured to provide a support interface for an outboard motor. In many embodiments, the motor mount is configurable into a deployed configuration in which the motor mount is coupled with the folding rigid transom and a portion of the flexible diaphragm is disposed between the motor mount and the folding rigid transom. The motor mount can be rotationally coupled with and/or removably coupled with the folding rigid transom.
In embodiments, the boat can include a brace for extending between the folding transom and another part of the boat when the folding transom is in the expanded configuration. The brace can be connected, for example, to the back of a seat, a floor for the boat, a side for the boat, or another feature of the boat. The brace acts to prevent flexing of the transom inward or outward relative to the center of the boat. This feature can permit larger boat motors to be installed without risk of the transom collapsing, bending too far outward due to force vectors generated by a motor accelerating a boat.
For a fuller understanding of the nature and advantages of the present invention, reference should be made to the ensuing detailed description and accompanying drawings.
In the following description, various embodiments of the present invention will be described. For purposes of explanation, specific configurations and details are set forth in order to provide a thorough understanding of the embodiments. The present invention, however, can be practiced without the specific details. Furthermore, well-known features can be omitted or simplified in order not to obscure the embodiment being described.
Collapsible/Inflatable Boat
Referring now to the drawings, in which like reference numerals represent like parts throughout the several views,
In the embodiment shown in the drawings, the collapsible/inflatable boat 10 has a somewhat pointed bow 12 and a planar stern 14. The collapsible/inflatable boat 10 includes a collapsible hull 16, three inflatable transverse interior members 18, an inflatable longitudinal interior member 20, an exterior assembly 22, and a removable transom 24. The inflatable transverse members 18, in addition to providing internal support to the collapsible hull 16 as described below, further provide passenger seats.
The collapsible hull 16 includes a plurality of interconnected panels extending between the bow 12 and the stern 14. The panels can be rigid, semi-rigid, or flexible. The panels are movable between a collapsed configuration and an expanded configuration. When in the expanded configuration, the hull 16 forms a non-inflatable structural portion of the boat that is water tight. While any suitable number of panels can be used, the hull 16 includes four panels. As will be described in more detail below, the hull 16 includes a pair of interconnected lower or bottom panels and a pair of side panels connected with respective bottom or lower panels. The hull 16 includes a flexible or yieldable diaphragm or flexible transom connected to the stern-side margins of the panels and providing a water-tight barrier when the hull is in the expanded configuration. Details of such a collapsible hull are described in U.S. Pat. No. 5,524,570, the full disclosure of which is hereby incorporated herein by reference. While the details provided therein disclose an embodiment of a collapsible hull, many other collapsible configurations can be used having rigid, semi-rigid, flexible, and/or other solid components that hinge, bend, fold, or otherwise move so that the hull can be configured between a collapsible state and an expanded state. For example, a collapsible hull having a double-ended expanded configuration can be used.
As illustrated in
The collapsible/inflatable boat 10 includes bow and stern components. A bow panel end cover 46 is installed over the bow ends of the hull panels and serves to protect the exterior assembly 22 from chaffing damage that may arise from contact and relative motion between the bow ends of the hull panels and the exterior assembly 22. Also, the removable transom 24 is shown in its installed position. The removable transom 24 can be constructed in a variety of ways, for example, as a unitary piece, as a welded metal assembly, etc. A folding rigid transom that remains attached to at least one of the hull panels when the collapsible hull is in the collapsed configuration can be used in place of the removable transom 24. For example, a folding rigid transom can be made by attaching the transom 24 to one of the side panels 38, 40 via a hinge disposed along an edge of the transom 24 that interfaces with one of the side panels 38, 40.
The collapsible hull 16 includes the port side panel 38, the port bottom panel 48 connected with the port side panel 38 along the connection 50 that runs between the bow 12 and the stern 14, the starboard bottom panel 52 connected with the port bottom panel 48 along the connection 54 that runs between the bow 12 and the stern 14, and the starboard side panel 40 connected with the starboard bottom panel 52 along the connection 56 that runs between the bow 12 and the stern 14. The connections 50, 54, 56 can be configured, for example, as described in U.S. Pat. No. 5,524,570. The hull panels can be made from a copolymer material that contains polypropylene, which may be beneficial due to its ability to be folded and unfolded many times without sustaining any significant damage. The hull panels can also be made from aluminum or a plastic material, but may not be as efficient or strong as a polypropylene copolymer material. Neoprene or other similar materials can be used in the connections 50, 54, 56, but do not have the same properties as polypropylene.
Each of the inflatable transverse members 18 is configured to support the collapsible hull in the expanded configuration. Each transverse member 18, when inflated, provides a column support between the port side panel 38 and the starboard side panel 40 that maintains the separation between the side panels 38, 40 in the expanded configuration of the collapsible hull 16. Additionally, each transverse member 18 pushes down on the inflatable longitudinal member 20, which in turn pushes down on the bottom panels 48, 52 along their mutual connection 54 to further help maintain the expanded configuration of the collapsible hull 16. Each transverse member 18 reacts the upward load from the longitudinal member 20 to the port side panel 38 via a side attachment membrane 62 and the port interior-attachment member 42, and to the starboard side panel 40 via a side attachment membrane 62 and the starboard interior-attachment member 44.
The inflatable longitudinal member 20 provides a running support of the bottom panels 48, 52 along their mutual connection 54. The resulting upward load on the longitudinal member 20 is then reacted into the transverse members 18.
The exterior assembly 22 is connected with the port side of the collapsible hull 16 via the port upper-attachment membrane 28 and the port lower-attachment membrane 30. The port upper-attachment membrane 28 is wrapped over a port side panel upper edge 64 of the port side panel 38 and fastened to the port upper edge 64 using a series of attachment fasteners 66 (e.g., staples). A cover member 68 is installed over the connection between the port upper-attachment membrane 28 and the port upper edge 64, and can serve to stiffen the port upper edge 64 and define a port gunwale for the collapsible hull 16. The port lower-attachment membrane 30 is connected with the port side panel 38 below the port side panel upper edge 64 via a port exterior-attachment member 70 and a series of attachment fasteners 72 (e.g., rivets).
As illustrated, the attachment between the transverse member 18 and the port side panel 38 can be aligned with the connection between the port lower-attachment membrane 30 and the port side panel 38. Such an alignment may serve to reduce the loads imparted into the port side panel 38 by the port lower-attachment membrane 30 by providing a direct load path into the transverse member 18. Such an alignment also enables the use common attachment fasteners 72. The transverse member 18 is connected with the port side panel 38 via a side attachment membrane 62. As illustrated, the side attachment membrane 62 is folded and clamped to the side panel 38 via the port interior-attachment member 42. The folded configuration illustrated places a portion of the side attachment membrane 62 between the port interior-attachment member 42 and the transverse member 18, which helps to protect the transverse member 18 from chaffing damage from contact with and movement relative to the port interior-attachment member 42.
Collapsible/Inflatable Boat with Non-Inflatable Interior Members
Boat Expansion (Collapsible/Inflatable Boat 10)
To expand the collapsible/inflatable boat 10, the side panels 38, 40 can be moved apart with respect to the bottom panels 48, 52 to provide access to the inflatable interior members 18, 20. Alternatively, inflation of any one or more of the transverse inflatable members 18 can be used to move the side panels 38, 40 apart with respect to the bottom panels 48, 52. For example, with the boat in the collapsed configuration as illustrated in
In many embodiments, each of the interior members 18, 20 is a separate inflatable member that is inflated through a separate inflation orifice or valve. As illustrated in
The removable transom 24 is also attached during the expansion of the collapsible/inflatable boat 10. While any suitable means of attachment can be used, in many embodiments the removable transom is attached to the panel rear margins using removable fasteners. While the removable transom can be installed on either side of the flexible diaphragm 58, in many embodiments, the transom 24 is installed inside of the flexible diaphragm 58. While the transom 24 can be attached at any point during the expansion of the collapsible/inflatable boat 10, it may be easier to attach the transom 24 after the inflation of at least one of the interior members 18, 20 due to constraint supplied by the inflated interior members 18, 20. On the other hand, it may be easier to inflate the interior members 18, 20 after the attachment of the transom 24 due to the constraint supplied by the transom 24.
Boat Expansion (Collapsible/Inflatable Boat 100)
When the collapsible/inflatable boat 100 is in the collapsed configuration, the inflatable exterior member 26 is in an un-inflated state and the side panels of the collapsible hull 106 are folded down over the bottom panels of the collapsible hull 106. The flexible diaphragm of the collapsible hull 106 is also in a collapsed configuration. When collapsed, the collapsible/inflatable boat 100 can be carried in a compact, substantially flat condition, for example, on the side or top of a vehicle.
To expand the collapsible/inflatable boat 100, the side panels are moved apart with respect to the bottom panels and the removable solid seats 102 are put into place between the side panels as shown in
The removable transom 104 is also attached during the expansion of the collapsible/inflatable boat 100. While any suitable means of attachment can be used, in many embodiments the removable transom 104 is attached to the panel rear margins using removable fasteners. While the removable transom 104 can be installed on either side of the flexible diaphragm of the collapsible hull 106, in many embodiments, the transom 104 is installed inside of the flexible diaphragm. While the transom 104 can be attached at any point during the expansion of the collapsible/inflatable boat 100, it may be easier to attach the transom 104 after the installation of at least one of the removable solid seats 102 due to the constraint supplied by the removable solid seats 102.
The inflatable exterior member 26 is also inflated during the expansion of the collapsible/inflatable boat 100. The inflation of the exterior member 26 and the installation of the removable seats 102 can be accomplished in any suitable order.
Installation of an Inflatable Exterior Assembly During Manufacture
After the installation of the attachment extrusions 112 to the collapsible hull and the trimming of the gunwale members, the attachment extrusions 112 can be lubricated with, for example, soap and water or a commercial lubricant prior to the installation of the port-side and starboard-side bolt ropes 114 into the attachment extrusions 112. The installation of the bolt ropes 114 into the attachment extrusions 112 starts at the bow of the collapsible hull and proceeds towards the stern of the collapsible hull until the stern lower tube flaps 116 are positioned adjacent the stern of the collapsible hull as illustrated in
When the inflatable exterior assembly 110 is in the correct fore/aft position, pre-located holes in the lower tube flaps 116 can be used to determine the location of corresponding mating holes in the collapsible hull. As illustrated in
In many embodiments, each lower tube flap 116 and each attachment flap for the inflatable transverse members 18 are attached to the collapsible hull by an attachment plate 118. In many embodiments, the attachment plates 118 are black anodized aluminum plates for resistance against oxidation. For the bow and stern lower tube flaps 116, the attachment bolts 120 are installed with washers through the holes in the attachment plate 118, through the holes in the lower tube flaps 116, through the holes in the hull panel, through the fender washers 112 (as shown in
Folding Transoms
The folding rigid transom 132 includes a transom member 138 and an articulated motor mount 140. The motor mount 140 is rotationally coupled to the transom member 138. The motor mount 140 can be placed in a raised configuration, which avoids interfering with a flexible diaphragm (such as the flexible diagraph 58 of
The transom member 138 provides a rigid column that maintains a predetermined separation between the port and starboard side panels of the collapsible hull consistent with the expanded configuration of the hull. In the expanded configuration, the flexible diaphragm assumes a substantially flat configuration and serves to help constrain the port and side panels, thereby maintaining contact between the transom member 138 and the port and side panels of the collapsible hull, respectively. The port side flange 144 provides a port side surface 152 that is configured to interface with the port side panel 136 when the hull is in the expanded configuration. Likewise, the starboard side flange 146 provides a starboard side surface 154 that is configured to interface with the starboard side panel 134 when the hull is in the expanded configuration.
The transom member 138 is rotationally coupled with the starboard side panel 134 via a first hinge 156 and a second hinge 158. The first and second hinges 156, 158 provide a common hinge line 160 about which the transom member 138 rotates relative to the starboard side panel 134. The first hinge 156 includes a first member 156a that is attached to the starboard side panel 134 and a second member 156b that is attached to the starboard side flange 146. The second hinge 158 includes a third member 158a that is attached to the starboard side panel 134 and a fourth member 158b that is attached to the starboard side flange 146. The first member 156a has a hinge pin that extends downward and is received by the second member 156b. The third member 158a has a hinge pin that extends upward and is received by the fourth member 158b. The second member and fourth members 156b, 158b are thereby trapped between the first and third members 156a, 158a, thereby ensuring that the transom member 138 remains attached to the starboard side panel 134 when the hull is in the collapsed configuration. In an alternate embodiment, the second and fourth members 156b, 158b are attached to the starboard side panel 134 and the first and third members 156a, 158a are attached to the starboard side flange 146.
The transom member 138 is releaseably connected to the port side panel 136 via a third hinge 162 and a fourth hinge 164, which serve as a releasable connector. The third hinge 162 includes a fifth member 162a and a sixth member 162b. And the fourth hinge 164 includes a seventh member 164a and an eighth member 164b. The fifth and seventh members 162a, 164a are attached to the port side panel 136 and each include a hinge pin that extends upward and can be releaseably received by the sixth and eighth members 162b, 164b, respectively. When the hull is reconfigured into the expanded configuration, the transom member is swung into its deployed position and is maneuvered such that the sixth and eighth members 162b, 164b engage and receive the hinge pins of the fifth and seventh members 162a, 164a.
Additional embodiments herein are directed to a folding boat having a folding transom, as described above, and additionally including a brace that attaches to the folding transom when the folding transom is in the deployed configuration. The brace can be anchored anywhere in the boat, such as the sides, bottom, a seat, or any other structure on the boat. The brace is preferably formed of a material that resists tension and compression, such as steel, wood, or sturdy plastic. The brace can be utilized to minimize deflection of the transom, once deployed. Thus, the transom has additional rigidity for receiving a motor, or to respond to motor or water conditions.
In embodiments, the transom brace can be attached anywhere to the folding transom so that support is provided for the folding transom. In embodiments where a folding transom is attached at one side of the boat by a hinge, the brace would be attached at a location on the folding transom removed from the hinge, such as at an opposite end of the folding transom. If two panels are used for a folding transom, such as in the embodiments shown in
In accordance with additional embodiments, the brace can be used to connect the folding transom to the boat or to connect folding transom panels. For example, as shown in
The brace 250 includes a front, vertical section 260 attached to two legs 262, 264. The legs extend to a pair of downwardly-extending tabs 266, 268. In an embodiment, the entire brace 250 is formed of a single piece of metal that is bent into shape. However, braces can be formed of multiple pieces and/or can be molded or formed into a particular configuration.
The brace 250 is connected to a bracket 270 mounted on the back of the seat 240. Similarly, the brace 252 is attached to a bracket 272 also mounted on the back of the seat 240. Each of the brackets 270, 272 includes a vertically-aligned sleeve for receiving the vertically extending forward portion 260 of the braces 250, 252. The vertically-aligned sleeve allows the brace 250 to rotate about the forward portion 260. In this manner, the braces 250, 252 can be rotated and stored against the back or side of the seat, and, when the boat 170 is deployed, the brace may be aligned and attached to the folding transom 172.
In embodiments, the brace 250 is formed of a flexible, yet resilient, material, such as steel. The flexible resiliency of the brace 250 permits the brace to flex without bending, and urges the brace in a spring-like manner back to its original configuration. Thus, the brace 250 can be rotated to align with the openings 202 and the tabs 266, 268 can be moved, via the flexible nature of the brace, to the proper location to connect the brace 250 to the folding transom 172. In this position, the spring nature of the brace 250, as well as gravity, maintains the tabs 266, 268 in the openings 202. Similarly, the tabs for the brace 252 fit within and are maintained within the openings 200. The tabs prevent the two panels from moving apart by connecting the panels. Moreover, the rigid nature of the braces 250, 252 prevents movement back and forth of the folding transom 172 relative to the seat 240.
Alternate embodiments could be utilized. For example,
As another alternative,
Many alternate solutions can be provided. As examples, a brace can be provided that is formed of wood, plastic, metal, or any suitable material. Embodiments can utilize only one brace, or more than two braces. In addition, as opposed to being anchored to a bracket, a brace can be fully detached when the boat is not deployed, and attached at both ends, to the boat and to the folding transom, when the boat is deployed. In another embodiment, the brace can be hinged or otherwise connected to both the transom and the boat, and can be folded in with the boat. As another alternative, a brace can be rotatably or otherwise attached to the folding transom, and then selectively attached to a structure within the boat when the boat is deployed. In addition, as indicated above, the attachment of the brace to the folding transom can be positioned at any location on the folding transom remote from the hinge or other attachment of the folding transom to the boat. This attachment of the brace to the folding transom can be at a location that provides structure for the folding transom, such as in the embodiments shown in
Other variations are within the spirit of the present invention. Thus, while the invention is susceptible to various modifications and alternative constructions, certain illustrated embodiments thereof are shown in the drawings and have been described above in detail. It should be understood, however, that there is no intention to limit the invention to the specific form or forms disclosed, but on the contrary, the intention is to cover all modifications, alternative constructions, and equivalents falling within the spirit and scope of the invention, as defined in the appended claims.
The use of the terms “a” and “an” and “the” and similar referents in the context of describing the invention (especially in the context of the following claims) are to be construed to cover both the singular and the plural, unless otherwise indicated herein or clearly contradicted by context. The terms “comprising,” “having,” “including,” and “containing” are to be construed as open-ended terms (i.e., meaning “including, but not limited to,”) unless otherwise noted. The term “connected” is to be construed as partly or wholly contained within, attached to, or joined together, even if there is something intervening. Recitation of ranges of values herein are merely intended to serve as a shorthand method of referring individually to each separate value falling within the range, unless otherwise indicated herein, and each separate value is incorporated into the specification as if it were individually recited herein. All methods described herein can be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context. The use of any and all examples, or exemplary language (e.g., “such as”) provided herein, is intended merely to better illuminate embodiments of the invention and does not pose a limitation on the scope of the invention unless otherwise claimed. No language in the specification should be construed as indicating any non-claimed element as essential to the practice of the invention.
Preferred embodiments of this invention are described herein, including the best mode known to the inventors for carrying out the invention. Variations of those preferred embodiments may become apparent to those of ordinary skill in the art upon reading the foregoing description. The inventors expect skilled artisans to employ such variations as appropriate, and the inventors intend for the invention to be practiced otherwise than as specifically described herein. Accordingly, this invention includes all modifications and equivalents of the subject matter recited in the claims appended hereto as permitted by applicable law. Moreover, any combination of the above-described elements in all possible variations thereof is encompassed by the invention unless otherwise indicated herein or otherwise clearly contradicted by context.
All references, including publications, patent applications, and patents, cited herein are hereby incorporated by reference to the same extent as if each reference were individually and specifically indicated to be incorporated by reference and were set forth in its entirety herein.
This application is a continuation-in-part of U.S. application Ser. No. 13/901,254, filed May 23, 2013, which application is a continuation of U.S. application Ser. No. 13/174,577, filed Jun. 30, 2011, now issued U.S. Pat. No. 8,539,900, which application is a continuation-in-part of U.S. application Ser. No. 12/650,340, filed Dec. 30, 2009, now issued U.S. Pat. No. 8,413,600, the entire disclosures of which are hereby incorporated herein by reference.
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Parent | 13174577 | Jun 2011 | US |
Child | 13901254 | US |
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Parent | 13901254 | May 2013 | US |
Child | 14135328 | US | |
Parent | 12650340 | Dec 2009 | US |
Child | 13174577 | US |