The present disclosure relates to a reel assembly, methods of storing a reel assembly, and associated uses thereof.
Flexible buoyant water pads are bulky and require unique storage solutions and methods of transporting them. Accessories that are made for use on bodies of water are often heavy and difficult to transport, and methods of putting them into the water and storing while out of the water are limited.
In one embodiment of the present disclosure, a reel system is provided. The reel system is configured for receiving a leading edge of a flexible buoyant pad having a use configuration with a first outer vertical envelope and a storage configuration with a second outer vertical envelope. The second outer vertical envelope is smaller than the first outer vertical envelope. The reel system comprises at least one base member, an arm rotatably coupled to the base member and a rotatable axle coupled to the arm. The rotatable axle is rotatable relative to the arm and adapted to receive the flexible buoyant pad and support the flexible buoyant pad in the storage configuration. An actuatable input is supported by the arm and configured to rotate the rotatable axle relative to the arm.
In various embodiments, the single base member is a first base member and the arm is a first arm. The reel system further comprises a second base member spaced from the first base member and a second arm is rotatably coupled to the second base member. Further, the rotatable axle extends between the first arm and the second arm. In various embodiments, the reel system further comprises a support plate extending laterally between and coupled to the first base and the second base.
In various embodiments, the rotatable axle is removably coupled to the arm.
In various embodiments, the reel system further comprises a mounting fixture, and the mounting fixture is supported by the base member.
In various embodiments, the reel system further comprises a support coupled to the base. The support is shaped to receive the flexible buoyant pad and the support also comprises an aperture configured to receive a strap. Further, the support is a first support and the reel system further comprises a second support coupled to a second base. The second support is shaped to receive the rolled up pad and the second support comprises a second aperture configured to receive a second strap.
In various embodiments, the actuatable input comprises a motor configured to rotate the rotatable axis.
In various embodiments, the actuatable input comprises a crank arm.
In various embodiments, the arm is configured to rotate between a first position when the flexible buoyant pad is in the use configuration and a second position when the flexible buoyant pad is in the storage configuration. Further, the second position is distinct from the first position.
In various embodiments, the rotatable axle comprises a first member and a second member spaced from the first member and the pad is configured to extend between the first member and the second member.
In yet another embodiment of the present disclosure, an accessory mounting structure is provided. The accessory mounting structure comprising a mounting panel configured to mount to a vehicle and an accessory mounting structure supported by the mounting panel. The accessory mounting structure is further configured to receive an accessory. The accessory mounting system further comprises a linkage assembly coupled between the mounting panel and the accessory mounting platform. The linkage assembly also comprises a first member and a second member each configured to rotate relative to the mounting panel. Further, the linkage assembly is adapted to move between a first position and a second position. In the first position the mounting structure is nominally parallel to a ground level and in the second position the mounting structure is angled upwardly from the first position.
In various embodiments, the linkage assembly further comprises a third link coupled between the first link and the second link. Further, the third link is a biasing member. In various embodiments, the accessory mounting system further comprises a fourth link coupled between the first link and the second link. The fourth link is positioned further from the mounting panel than the third link.
In various embodiments, the mounting panel mounts to the vehicle using a plurality of removable mounting fixtures.
In various embodiments, the accessory mounting system further comprises a motor coupled to the linkage assembly and the motor is configured to move the linkage assembly from the first position to the second position.
For the purposes of promoting an understanding of the principles of the present disclosure, reference is now made to the embodiments illustrated in the drawings, which are described below. The embodiments disclosed below are not intended to be exhaustive or limit the present disclosure to the precise form disclosed in the following detailed description. Rather, the embodiments are chosen and described so that others skilled in the art may utilize their teachings. Therefore, no limitation of the scope of the present disclosure is thereby intended. Corresponding reference characters indicate corresponding parts throughout the several views.
The terms “couples”, “coupled”, “coupler”, and variations thereof are used to include both arrangements wherein two or more components are in direct physical contact and arrangements wherein the two or more components are not in direct contact with each other (e.g., the components are “coupled” via at least a third component, but yet still cooperates or interact with each other).
In some instances throughout this disclosure and in the claims, numeric terminology, such as first, second, third, and fourth, is used in reference to various operative transmission components and other components and features. Such use is not intended to denote an ordering of the components. Rather, numeric terminology is used to assist the reader in identifying the component being referenced and should not be narrowly interpreted as providing a specific order of components.
Referring to
Now referring to
In the present embodiment, buoyant pad 2 is configured to float on a water surface 175 (
Referring to
Reel system 22 also comprises a support board, or support plate 52 extending between each of bases 30. In various embodiments, support board 52 is fixed to bases 30. In various embodiments, support board 52 is removably coupled to bases 30. In various embodiments, support board 52 is coupled to bases 30 using a fastener such as a screw, a bolt, a nail, a rivet, or another type of fastener. In various embodiments, support board 52 is coupled to bases 30 using an adhesive, hook-and-loop fasteners, a weld, a plastic weld, or by another type of coupling method. Further, in the present embodiment, support board 52 comprises a pair of handles 54 configured to allow a user to grasp the handle to carry reel system 22. Support board 52 may also be selectively removed from reel system 22 to allow a user to transport reel system 22 in pieces or change the distance between bases 30. In various embodiments, bases 30 and support board 52 are an integral, single piece. In various embodiments, reel system 22 comprises a pair of bases 30 and no support board 52. In various embodiments, reel system 22 comprises a single base 30 and no support board 52.
Reel system 22 also comprises a pair of support plates 56 positioned on outer face 38 of each base 30. Support plates 56 are coupled to bases 30 by an adhesive, a fastener, or another method of coupling. In the present embodiment, support plate 56 comprises a rotational support 58 positioned on an outer face thereof. Reel system 22 also comprises a first arm 66 and a second arm 60. First arm 66 comprises a generally semicircular first end 68 and a generally semicircular second end 72. Illustratively, first end 68 is smaller than second end 72. That is, first end 68 has a generally smaller radius than second end 72. First end 68 comprises a first aperture 70 on its inner face, and second end 72 comprises a rotational interface 74. Rotational interface 74 is configured to rotatably couple with rotational support 58 such that first arm 66 can rotate upwardly and downwardly relative to support plate 56, and thereby base 30.
Reel system 22 also comprises second arm 60 positioned opposite first arm 66. Second arm 60 is shaped identically to first arm 66. That is, second arm 60 comprises a generally semicircular first end 62 and a generally semicircular second end 64. Illustratively, first end 62 is smaller than second end 64. That is, first end 62 has a generally smaller radius than second end 64. First end 62 comprises a first aperture (not shown) on its inner face, and second end 64 comprises a rotational interface (not shown) substantially similar to rotational interface 74, and is configured to rotatably couple with rotational support 58 such that second arm 60 can rotate upwardly and downwardly relative to support plate 56, and thereby base 30.
In various embodiments, one of, or both of, first arm 66 and second arm 60 comprises a torsion spring (not shown) configured to assist in the rotation of first arm 66 and second arm 60 relative support plates 56. In various embodiments, a shock absorber, a spring, or other type of linear force element (not shown) extends between first arm 66 and one of the bases 30 and between second arm 60 and the other of the bases 30.
Still referring to
Reel system 22 further comprises a rotatable axle 80 extending between first arm 66 and second arm 60. Rotatable axle 80 comprises a bracket, or first member 82 and a rod, or second member 104 spaced apart from one another. Illustratively, bracket 82 comprises a first end 84 configured to couple to second arm 60 and a second end 86 configured to couple to first arm 66. In the present embodiment, bracket 82 is a right-angle bracket configured with a first extension 88 and a second extension 90. In various embodiments, bracket 82 is an extruded bracket, and in yet other embodiments, bracket 82 is a bent bracket. A first endcap 92 is coupled to the first end 84 and is generally triangularly shaped and a second endcap 94 is coupled to the second end 86 and is generally triangularly shaped. First end 84 is coupled to a first coupling plate 96 through first endcap 92 and second end 86 is coupled to a second coupling plate 100 through second endcap 94. Coupling plate 100 comprises an inner coupling point 102 facing generally inwardly and coupling plate 96 comprises an inner coupling point (not shown) similar to inner coupling point 102 facing generally inwardly. Rod 104 comprises a rod first end 106 coupled to inner coupling point of first coupling plate 96 adjacent first end 84 and a rod second end 108 is coupled to inner coupling point 102 of the second coupling plate 100 adjacent second end 86. Rod 104 is spaced from bracket 82 such that an opening 81 (
In various embodiments, reel assembly 22 comprises a non-continuous rod 104, such that rod 104 is effectively a guide for pad 2 as it is rolled or unrolled from rotatable axle 80. That is, a first section (not shown) of rod 104 extends outwardly from first coupling plate 96 and a second section (not shown) of rod 104 extends outwardly from second coupling plate 100 to allow pad 2 to rest on the first section and the second section.
In the present embodiment, first coupling plate 96 comprises an outer coupling point 98 configured to be rotatably coupled to second arm 60 at first end 62. Further, second coupling plate 100 comprises an outer coupling point (not shown, similar to outer coupling point 98) configured to be rotatably coupled to first arm 66 at a coupling point 70 adjacent first end 68. That is, rotatable axle 80 can be rotated relative to each of first arm 66 and second arm 60. In various embodiments, first aperture 70 comprises a bearing (not shown) configured to rotate within first aperture 70. Further, each outer coupling point 98 may be configured with an extension (not shown) configured to extend within the first aperture 70 and the corresponding aperture in second arm 60. That is, rotatable axle 80 is able to rotate about first arm 66 and second arm 60 by rotating within first aperture 70 and the corresponding aperture in second arm 60.
Now referring to
Referring now to
In various embodiments, reel assembly 22 comprises a second crank arm (not shown) positioned on second arm 60. The second crank arm is coupled to second arm 60 adjacent the coupling plate 96 and an input to either of crank arm 73 or the second crank arm will rotate rotatable axle 80. In various embodiments, reel assembly 22 comprises a second motor (not shown) coupled to second arm 60 configured to provide a rotational force to rotatable axle 80.
In the present embodiment, rotatable axle 80 is removably coupled to reel assembly 22. Each of first coupling plate 96 and second coupling plate 100 may be coupled to first arm 66 and second arm 60 through a pin and slot system, a latching mechanism, or another type of removable coupling system.
Referring now to
Further, pad 2 may be rolled off of reel assembly 22 by rotating axle 80 in rotational direction 128. As pad 2 is unrolled, pad diameter 103 decreases and each of first arm 66 and second arm 60 are rotated generally downwardly. When pad 2 is rolled on to reel assembly 22, pad 2 may be removed while it is on rotatable axle 80. That is, in a stored state (
Reel assembly 22 also comprises a plurality of mounting fixtures 110. Mounting fixtures 110 generally comprises a handle 112 configured to alter the fixture 110 between an engaged state and an unengaged state. When mounting fixture 110 is in an unengaged state, reel assembly 22 is removable and movable between various mounting locations. When reel assembly 22 is positioned in an appropriate position on a vehicle 130, or any other suitable location, mounting fixtures 110 can be altered into an engaged state to be fixed on vehicle 130 or another suitable location. In the present embodiment, reel assembly 22 may be positioned on a boat, a recreational vehicle, a utility vehicle, a jet-ski, a pontoon, a dock, a wall, or any other suitable location capable of storing rollable pad 2. Additional details regarding mounting fixtures 110 can be found in U.S. application Ser. No. 13/041,301, filed Mar. 4, 2011, titled VEHICLE EXPANSION RETAINER, and U.S. Application No. 63/357,204, filed Jun. 30, 2022, titled CARGO AREA FOR UTILITY VEHICLE, the entire disclosures of which are expressly incorporated herein by reference.
Now referring to
Accessory mounting system 136 further comprises an accessory mounting structure 140 and a linkage assembly 150 coupled between extension 148 and mounting structure 140. In the present embodiment, mounting structure 140 is a flat surface with a pair of accessory mounting members 142 configured to receive an accessory (not shown). In various embodiments, mounting structure 140 is a completely flat surface. In various embodiments, mounting structure 140 is a flat surface with a plurality of receiving apertures (not shown) for mounting fixtures 110. Linkage assembly 150 comprises a first member 152 rotatably coupled to extension 148 about a first rotation axis 154 and a second member 160 rotatably coupled to extension 148 about a second rotation axis 162. In the present embodiment, first member 152 and second member 160 extend nominally parallel to each other. A third link 168 extends between—and is rotatably coupled to each of—first member 152 and second member 160. Third link 168 is coupled to first member 152 at a first coupling point 156 and second member 160 at a second coupling point 164. Further, a fourth link 170 extends between—and is rotatably coupled to each of—first member 152 and second member 160. Illustratively, fourth link 170 is positioned further from mounting panel 144 than third link 168. Fourth link 170 is coupled to first member 152 at a third coupling point 158 and second member 160 at a fourth coupling point 166.
Linkage assembly 150 is constructed so that accessory mounting system 136 can rotate. That is, mounting structure 140 is configured to rotate, on linkage assembly 150, between a first position and a second position. In the present embodiment, mounting system 136 is configured to be positioned in a first position such that mounting structure 140 is generally parallel to a water level. Mounting system 136 is configured to rotate into a second position such that mounting structure 140 is generally perpendicular to the ground level. In the present embodiment, mounting system 136 is configured to rotate approximately 90 degrees. In various embodiments, mounting system 136 is configured to rotate to rotate 120 degrees, 150 degrees, or 180 degrees. In various embodiments, linkage assembly 150 may be configured with a plurality of discrete positions, such as a first position generally parallel (0 degrees) to a ground level, a second position generally perpendicular (90 degrees) to a ground level, a third position angled approximately 45 degrees upwardly from a ground level, and a fourth position angled approximately 30 degrees downwardly from a ground level. In various embodiments, an angle between 0-180 degrees may be used whether angled upwardly or downwardly from a ground level. In various embodiments, in the first position, at least a portion of mounting system 136 is positioned below the water surface 175. In various embodiments, in the second position, all of mounting system 136 is positioned above the water surface 175. In various embodiments, in the first position, mounting structure 140 is configured to sit below the water surface 175. In various embodiments, mounting structure 140 is configured to just above the water surface 175.
In various embodiments, mounting structure 140 is sized and shaped to receive reel assembly 22. In various embodiments, mounting structure 140 is configured to receive a plurality of other accessories, such as a slide, a pet ladder, a step ladder, or other type of accessory.
In various embodiments, accessory mounting system 136 may be configured such that linkage assembly 150 is assisted in rotating between the first position and the second position. That is, in various embodiments, either of third link 168 or fourth link 170 may be a biasing member, such as a shock absorber, a spring, or another type of linear force element. In various embodiments, linkage assembly 150 may comprise a biasing member in addition to third link 168 and fourth link 170. In various other embodiments, accessory mounting system 136 may comprise a motor (not shown) coupled to extension 148 about either of first rotation axis 154 or second rotation axis 162. The motor may be configured to electronically rotate mounting structure between the first position and the second position.
While this invention has been described as having an exemplary design, the present invention may be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practices in the art to which this invention pertains.
The present application claims the benefit of U.S. Provisional Ser. No. 63/417,399, filed Oct. 19, 2022, entitled “REEL ASSEMBLY AND METHODS OF USE THEREOF”, the entire disclosure of which is incorporated herein.
Number | Date | Country | |
---|---|---|---|
20240132324 A1 | Apr 2024 | US |
Number | Date | Country | |
---|---|---|---|
63417399 | Oct 2022 | US |