Methods and apparatus are provided for deploying an unmanned marine vehicle into water, in which the unmanned marine vehicle includes a float and a glider connected by a tether. The apparatus includes a buoyant frame having a first frame arm, and a second frame arm spaced from the first frame arm to define a receiving bay between the first frame arm and the second frame arm, wherein the receiving bay is sized to receive the float. A glider retainer assembly is coupled to the buoyant frame and configured to releasably retain the glider. The apparatus further includes a payload deployment assembly having an attachment plate coupled to and positioned below the buoyant frame, and a payload compartment releasably coupled to the attachment plate by a payload release, wherein the payload compartment defines a receptacle sized to receive a payload coupled to the glider, and the payload compartment has a density greater than water.

Methods and apparatus are provided for deploying an unmanned marine vehicle into water, in which the unmanned marine vehicle includes a float and a glider connected by a tether. The apparatus includes a buoyant frame having a first frame arm, and a second frame arm spaced from the first frame arm to define a receiving bay between the first frame arm and the second frame arm, wherein the receiving bay is sized to receive the float. A glider retainer assembly is coupled to the buoyant frame and configured to releasably retain the glider. The apparatus further includes a payload deployment assembly having an attachment plate coupled to and positioned below the buoyant frame, and a payload compartment releasably coupled to the attachment plate by a payload release, wherein the payload compartment defines a receptacle sized to receive a payload coupled to the glider, and the payload compartment has a density greater than water.

A boat hull washing apparatus includes a left structure and a right structure, one or more brushes arranged to wash a hull of a boat positioned between the structures. The apparatus is provided with a boat positioning assembly that includes a left and a right boat pushing device. The left and right boat pushing devices are attached to left/right structures respectively. The left boat pushing device is arranged to bias a boat, located between the left and right structures, away from the left structure, and the right device functions similar away from the right structure. In this way, the pushing devices are arranged to hold the boat in a lateral position. Using this arrangement of the left and right pushing devices to bias the boat away from the left and right structures, respectively, a single force generating unit is connected to both pushing devices.

A boat hull washing apparatus includes a left structure and a right structure, one or more brushes arranged to wash a hull of a boat positioned between the structures. The apparatus is provided with a boat positioning assembly that includes a left and a right boat pushing device. The left and right boat pushing devices are attached to left/right structures respectively. The left boat pushing device is arranged to bias a boat, located between the left and right structures, away from the left structure, and the right device functions similar away from the right structure. In this way, the pushing devices are arranged to hold the boat in a lateral position. Using this arrangement of the left and right pushing devices to bias the boat away from the left and right structures, respectively, a single force generating unit is connected to both pushing devices.

A system for providing raw water for cooling Auxiliary Systems of a Luxury Boat in Temporary Dry Storage involves a pump coupled to a Dry Storage Lift capable of moving the Luxury Boat between an in-water position and a dry storage position, a raw water inlet of the pump is movable between a first position out of a source of the raw water and a second position in the raw water source, and wherein, when the Dry Storage Lift has the Luxury Boat in the in-water position, the raw water inlet will be in the first position and when the Dry Storage Lift has the Luxury Boat in the dry storage position, the raw water inlet will be in the second position.

A system for providing raw water for cooling Auxiliary Systems of a Luxury Boat in Temporary Dry Storage involves a pump coupled to a Dry Storage Lift capable of moving the Luxury Boat between an in-water position and a dry storage position, a raw water inlet of the pump is movable between a first position out of a source of the raw water and a second position in the raw water source, and wherein, when the Dry Storage Lift has the Luxury Boat in the in-water position, the raw water inlet will be in the first position and when the Dry Storage Lift has the Luxury Boat in the dry storage position, the raw water inlet will be in the second position.

Embodiments for the invention provide a method, system and product for a floating dock or platform using buckets. In an embodiment of the invention, a beam section of a dock or platform may include holes to fit the bottoms of 5-gallon buckets. The bottoms of the 5-gallon buckets are then inserted into the hole and fastened in place. The lids of the 5-gallon buckets are then attached. The section of the floating dock can then be deployed. Multiple sections can be rafted together with rope or other fasteners to create the floating dock or portions of the floating dock.

Embodiments for the invention provide a method, system and product for a floating dock or platform using buckets. In an embodiment of the invention, a beam section of a dock or platform may include holes to fit the bottoms of 5-gallon buckets. The bottoms of the 5-gallon buckets are then inserted into the hole and fastened in place. The lids of the 5-gallon buckets are then attached. The section of the floating dock can then be deployed. Multiple sections can be rafted together with rope or other fasteners to create the floating dock or portions of the floating dock.

A floating construct is formed of a plurality of floats. The floats are constructed of rigid plastic with of a central tube positioned vertically. The floats are hollow and watertight, with the hollow and watertight structure of the floats providing flotation. The floats are connected directly or indirectly to other floats to form the floating construct. The use of multiple floats, which have a relatively small footprint, sized and positioned according to the loading of the floating construct, allows balancing of the overall construct that the floats support.

A floating construct is formed of a plurality of floats. The floats are constructed of rigid plastic with of a central tube positioned vertically. The floats are hollow and watertight, with the hollow and watertight structure of the floats providing flotation. The floats are connected directly or indirectly to other floats to form the floating construct. The use of multiple floats, which have a relatively small footprint, sized and positioned according to the loading of the floating construct, allows balancing of the overall construct that the floats support.