Not Applicable
Not Applicable
Not Applicable
The present application relates to underwater exploration and specifically to vehicles that assist by providing propulsion during the exploration.
In underwater explorations the type of diving dictates the kind of equipment need. One popular type of underwater exploration is referred to as SCUBA, which is an acronym for Self-Contained Underwater Breathing Apparatus. In this type of underwater exploration, the diver typically carries tanks of compressed air with a mouth-piece/regulator for autonomous breathing. This allows the diver to move around freely and explore large undersea area.
Another type of underwater exploration is called snorkeling, whereby a swimmer wears a facemask with a short snorkel tube that extends above the water for breathing (on the surface). In snorkeling, the swimmer's exploration activities are mainly done while swimming on the surface of the water. As such, the snorkeler's head is immersed in the water for viewing underwater scenery through the facemask, while breathing through a breathing tube, called a snorkel, that extends above the water. While most snorkeling is done near the surface, a trained snorkeler can make short excursions underwater, while holding his/her breath, and then expelling any water that might have entered the snorkel upon returning to the surface.
Snorkeling and scuba diving are both strenuous physical activity that can leave the underwater explorer exhausted. Often, an underwater explorer is brought to an area to be explored by a water craft/boat and then the explorer begins their exploration from that craft. As a result, there are two significant safety issues that can arise: 1) the explorer forgets in the excitement of the underwater exploration to stay near the craft (and because of the physical exhaustion can put themselves in danger) and 2) the explorer might stay in one location but the craft (possibly pushed by the wind or currents) drifts away from the explorer. Either condition can be extremely dangerous. Additionally, due to the strenuous nature, the explorer is also somewhat limited to the size of the area that can be explored while in the water.
Therefore, there continues to be a need for a craft that reduces the physical burden of underwater exploration and significantly improves the safety of the activity by allowing the explorer and the craft to remain in close proximity to one another.
In order to overcome the deficiencies in the prior art, systems and methods are described herein.
One aspect of the claimed invention involves systems and methods to allow a user to be both towed by and control a personal flotation craft from behind and underneath while engaging in underwater exploration comprising: one or more propulsion devices configured to provide sufficient power to tow the user engaging in underwater exploration from behind and below the personal flotation craft; at least one tow shaft configured to allow the user to be towed behind and underneath the personal flotation craft; and one or more directional controllers configured to allow the personal flotation craft to be steered from behind and below the personal flotation craft.
Another aspect involves systems and methods to further allow the speed of one of the one or more propulsion devices to remotely have its speed modulated by a user from behind and underneath the personal flotation craft while engaging in underwater exploration.
Still other aspects involve connecting a breathable air pathway between the personal flotation craft and a user wearable breathing apparatus.
These and other aspects described herein present in the claims result in features and/or can provide advantages over current technology.
The advantages and features described herein are a few of the many advantages and features available from representative embodiments and are presented only to assist in understanding the invention. It should be understood that they are not to be considered limitations on the invention as defined by the claims, or limitations on equivalents to the claims. For instance, some of these advantages or features are mutually exclusive or contradictory, in that they cannot be simultaneously present in a single embodiment. Similarly, some advantages are applicable to one aspect of the invention, and inapplicable to others. Thus, the elaborated features and advantages should not be considered dispositive in determining equivalence. Additional features and advantages of the invention will become apparent in the following description, from the drawings, and from the claims.
The instant devices and approach provide a way to allow an underwater explorer to be both towed by and control a personal flotation craft from behind and underneath the craft while engaging in underwater exploration.
A personal flotation craft is surfboard, kayak, inner tube or other small craft meant for a user to ride upon, by at least partially lie, sit or stand on (or in), that can act as a means of transportation by the user when they are doing the same, either by the user propelling the craft through their own physical exertion (e.g. paddling, kicking, rowing) or through a supplemental means of propulsion e.g. a motor, sail, kite . . . etc.).
One or more propulsion devices configured to be supplied/attached to the personal flotation craft and when attached to provide sufficient power to tow the user engaging in underwater exploration behind and below the personal flotation craft.
At least one tow shaft having at least two ends, wherein one end is configured to be attached to the personal flotation craft and the other distal end extends behind and below the personal flotation craft. Attached to the distal end is one or more directional controllers configured to allow the personal flotation craft to be steered from behind and below the personal flotation craft.
Specifically, in
The personal flotation craft 10 has a tow arm 110 that, in this particular example, is represented as a foldable tow arm that folds 120 about an axis 112 and has at least two positions: open (see
The tow arm 110 has two ends: a proximal end, where it is attached to the surfboard 100, and a distal end, used for steering by the user. In this particular case, the attachment to the surfboard is represented as including a pivot point 114 that allows the tow arm 110 to rotate 130 and, through a mechanical linkage 140, causes the propulsion device 150 (represented as a motor with a propeller) to also rotate 160, whereby the personal flotation craft 10 can be steered.
At the distal end, tow arm 110 is represented as split handlebars 126, 126′, which are represented as similar to handlebars fora bicycle. As such, in the closed position the handlebars 126, 126′ are represented as spanning the surfboard 100. In the open position, rotating 130 the handlebars 126, 126′ steers the personal flotation craft 10 from behind and underneath the craft 10.
At the distal end, the tow arm 110 is further represented as having one or more speed controllers 128, configured to remotely modulate the speed of the propulsion device 150 and is represented as connected to the propulsion device 150 through a cable 129.
Before describing the function of the personal flotation craft 10 in more detail, it is useful to see how a user would use the craft, which can be seen in
In
Alternatively, if the speed controller 128 were turned around to face the user 20 then it would be clear that the user 20 could just as easily have been sitting on the craft 10 and engaged the speed controller 128, with his foot, much like a gas pedal. Other means of propulsion include but are not limited to rowing (either seated or standing), sails and/or kites. The importance being that the personal flotation craft 10 can act as a form of transportation for the user 20, while the user 20 is at least partially lying, sitting or standing on the craft 10.
In
The underwater explorer 20′ is represented as wearing a breathing apparatus. In this particular case, the underwater explorer 20′ is represented as wearing a full face snorkel mask 220 with integrated snorkel 230, the snorkel could go directly above the water level 290; however, in this particular case, it is represented as connected through a breathable air pathway 240, 250, 260, 270 that is attached to the personal flotation craft 10, represented as suction cupped 280 to the deck 102. The breathable air pathway could have been a single tube; however, the preferred implementation is to have an inverted tube 270 (to prevent rain water from entering) and incorporates a float 250, as well as several interconnections 240, 260, to help keep the breathable air pathway from getting caught in the propulsion device 150. The importance being that there is a breathable air pathway that provided either ambient or pressurized air depending on the desired depth of underwater exploration.
Having described the general operation with respect to
In
As previously stated, the tow arm 110 is represented as attached to the surfboard 100 and including a pivot point 114 that allows the tow arm 110 to rotate 130 and through a mechanical linkage 140, which in turn causes the propulsion device 150 (represented as a motor with a propeller) to also rotate 160, whereby the personal flotation craft 10 can be steered. The mechanical linkage 140 is represented as a bar connected externally between two rotating objects.
Mechanical linkages to transfer rotational motion from one object to another are well known in the art. Examples of mechanical linkages that could have been deployed include interconnected gears, gear and chain drives, belt and pulley, or simple mechanical connections. For completeness, a representative simple mechanical connection is shown in
The tow arm 110 is represented as steering the personal flotation craft 10 by rotating 130 the tow arm 110, which causes a rotation 160 of the propulsion device 150. Alternatively, rather than causing a rotation of the propulsion device 150, the rotating of the tow arm 110 could equally have steered the personal flotation craft 10 by rotating one or more fins 104 or a combined propulsion device/fin. Additionally, the tow arm 110 need not necessarily steer the personal flotation craft 10 by rotating 130 at all. A fixed tow arm with a remote control, such as a joystick control, could be used to steer the personal flotation craft 10 from behind and underneath. Additionally, with a fixed tow arm (or after the tow arm has reached its mechanical limit (see
Further, the tow arm 110 is represented as having a speed controller 128 that is represented as connected to the propulsion device 150 through a cable 129. The cable 129 is representative of a connection to the propulsion device in order to control its speed and could take the form of an electrical or mechanical connection but remote connections such as the previously mentioned remote control joystick. However, while speed control is highly desirable, being able to turn the propulsion device 150 off, after it has been turned on, is the minimum requirement.
Additionally, we would now like to highlight a few useful features as show in
Other features not shown, include buoyancy controls to allow water to enter into the personal flotation craft 10 in order to submerge the craft and a pressurized air supply to evacuate the water and make it float again.
Finally, it is to be understood that various different variants of the invention, including representative embodiments and extensions have been presented to assist in understanding the invention. It should be understood that such implementations are not to be considered limitations on either the invention or equivalents except to the extent they are expressly in the claims. It should therefore be understood that, for the convenience of the reader, the above description has only focused on a representative sample of all possible embodiments, a sample that teaches the principles of the invention. The description has not attempted to exhaustively enumerate all possible permutations, combinations or variations of the invention, since others will necessarily arise out of combining aspects of different variants described herein to form new variants, through the use of particular hardware or software, or through specific types of applications in which the invention can be used. That alternate embodiments may not have been presented for a specific portion of the description, or that further undescribed alternate or variant embodiments may be available for a portion of the invention, is not to be considered a disclaimer of those alternate or variant embodiments to the extent they also incorporate the minimum essential aspects of the invention, as claimed in the appended claims, or an equivalent thereof.
Number | Name | Date | Kind |
---|---|---|---|
2776443 | Howard | Jan 1957 | A |
3358635 | McRee | Dec 1967 | A |
4602589 | Quinata | Jul 1986 | A |
5323727 | Heaton | Jun 1994 | A |
5379714 | Lewis | Jan 1995 | A |
20090000617 | Rosenberger | Jan 2009 | A1 |
20170349253 | Santa Catarina | Dec 2017 | A1 |
20210031578 | Camarena-Vazquez | Feb 2021 | A1 |
Number | Date | Country | |
---|---|---|---|
20210197938 A1 | Jul 2021 | US |