Floating hull pad system and method of its use
11027800 ยท 2021-06-08
Assignee
Inventors
Cpc classification
International classification
Abstract
Embodiments of a floating bunk system of this disclosure include a hull pad assembly extending in a longitudinal direction and including two hull pads spaced apart from one another and, at each end of the hull pad assembly, a sliding guide assembly including a pair of guide poles, each guide pole of the pair extending in a vertical direction; an upper end channel extending in a lateral direction and connected to the hull pad assembly and to the pair of guide poles; a lower end channel extending in the lateral direction and including a pair of lower bushings; each lower bushing receiving a respective guide pole; the upper end channel being in a fixed position relative to the pair of guide poles; the lower end channel being slidably vertically displaceable along the guide poles toward and away from the upper end channel.
Claims
1. A floating bunk system for use with a boat lift, the floating bunk system comprising: a first end and a second end, at each first and second end: a sliding guide assembly including a pair of guide poles, each guide pole of the pair extending in a vertical direction; an upper end channel extending in a lateral direction and connected to the pair of guide poles; and a lower end channel configured for connection to a boat lift and extending in the lateral direction and including a pair of lower bushings; each lower bushing receiving a respective guide pole of the pair of guide poles; a pair of floats extending in a longitudinal direction between the first and second ends, the pair of floats located below, and connected to, the lower end channel; a hull pad assembly extending in the longitudinal direction between the first and second ends, the hull pad assembly including two hull pads spaced apart from one another, the hull pad assembly located above, and connected to, the upper end channel; the upper end channel being in a fixed position relative to the pair of guide poles; the lower end channel being slidably vertically displaceable along the guide poles toward and away from the upper end channel.
2. The floating bunk system of claim 1, further comprising: the guide poles being cylindrical-shaped.
3. The floating bunk system of claim 2, further comprising: upper end channel further including a pair of upper bushings, each upper bushing receiving a respective guide pole of the pair of guide poles.
4. The floating bunk system of claim 1, further comprising: the guide poles being t-shaped in cross-section.
5. The floating bunk system of claim 1, further comprising: each of the two hull pads including flotation.
6. The floating bunk system of claim 1, further comprising: the upper end channel including one or more guide pads configured to receive the lower end channel.
7. The floating bunk system of claim 1, further comprising: at least one of the upper and lower end channels including a plurality of spaced apart openings.
8. The floating bunk system of claim 1, further comprising: the hull pad assembly including a bracket having a plurality of spaced apart openings.
9. The floating bunk system of claim 8, wherein, the bracket is integrally formed with the hull pad assembly.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
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DETAILED DESCRIPTION
(8) Referring to the drawings, embodiments of a floating hull pad or bunk system 10 of this disclosure include a hull pad float assembly 20 connected to a floating end channel 30F that rides on a slide guide assembly 40 located at each end E of the system 10, the slide guide assembly 40 also being connected to a boat lift end channel 30L (which, in turn, is connected to the lift float Fs). The system 10 makes use of the buoyancy of the hull pad floats 21, with the hull pads P floating on the surface of the water in any water conditions. As the boat lift L starts to lift, the slide guide assembly 40 aligns the floating end channel 30F on to the boat lift end channel 30L.
(9) In some embodiments, when the channels 30L, 30F make contact with one another, the bunk system locks in place by way of a locking mechanism 48 and the system 10 lifts in a traditional manner. As the boat lift L lowers and the hull pad floats 21 enter the water, the buoyancy of the floats 21 causes the attached hull pad assembly 20 to float as the slide guide assembly 40 allows the boat lift L to continue to sink to its normal lowered position while the floating bunk system 10 stays on top of the water.
(10) Embodiments of the hull pad float assembly 20 may be comprised of one or more floating bunks that can be tied together utilizing a tank tie bracket 23 with a slotted bolt pattern to allow adjustability between floats 21 and to span different length bunk systems. In some embodiments, the tie bracket 23 may be formed integral to the hull pad float 21. The hull pad float 21 may be comprised of a high-density plastic polymer to allow long life, durability, and cause no damage to the boat hull when the float comes in contact with hull. End brackets 22 include a slotted bolt pattern to adjust span and connect floating bunk hull floats 21 to the hull support columns C at each end E of the hull pads P. The end brackets 22 may be adjusted on either end E to allow for hull pad P leveling, with reference to the water line, to customize to a boater's preference. The adjustability of the hull pad floats 21 allows the adjusted-up pressure to the boat hull to stop the boat in its ideal location every time when the boat is docked at a consistent speed.
(11) In some embodiments of the slide guide assembly 40, the slide guide assembly 40 may include an upper bushing assembly comprised of an upper bushing 45U and a bushing guide housing 44 bolted to the floating end channel 30F. The guide pole 49 may be pinned by a keeper pin 46 in the upper guide bushing assembly). A lower bushing assembly may be comprised of another bushing guide housing 44, a lower bushing 45L, and a guide assembly lock 48. The lower bushing 45L should have adequate clearance to allow the guide pole 49 to have freedom for the floating hull pad system 10 to float freely on the surface of the water without binding on the lower bushing assembly 45L. A retaining ring 42 may be located below the lower bushing 45L.
(12) In some embodiments, when the floating end channel 30F comes in contact with the rising lift's end channel 30L, the guide assembly lock 48 locks the channels 30L, 30F to one another by straddling the upper bushing assembly. This lock 48 is configured such that it will not allow the floating hull pad system 10 to move forward or aft or side to side, thereby avoiding an over stress condition which could cause the guide poles 49 to become deformed. The guide pole 49 may be pinned/locked by a keeper pin 46 so that when the lift L submerges the floating hull pad system 10 will submerge with it for a traditional boat lift experience. The guide poles 49 may have stops 51 on one end 53 so that the floating hull pad system 10 cannot detach from the boat lift. The stop 51 may be a flanged surface, a pin, or a bolt. In embodiments, there is no metal on metal contact in the slide assembly.
(13) In embodiments, floating end channel guide pads 31 may be affixed to the floating end channel 30F avoiding metal on metal contact between it and the boat lift end channel 30L. The floating end channel guide pads 31 can be replaced as a wear items as normal wear occurs over time. The bunk assembly can be raised and lowered by plumbing the hull pad float system 10 to a pneumatic control unit on the lift L.
(14) In other embodiments, the guide pole 49 is a t-shaped guide pole in cross-section Where the guide pole 49 is t-shaped, the upper bushing 45, the guide assembly lock 48, and the channel guide pans 31 may be eliminated.