This invention relates to recreation devices in general, and in particular it relates to a water-propelled propulsion apparatus adapted for recreation play on water.
U.S. Pat. No. 7,614,355 discloses a personal flying water jet apparatus provided with downwardly directed water jet nozzles. While the apparatus is being towed, the kinetic head is developed and pressurized water is discharged at the nozzles producing a thrust resulted in lifting and flying the rider and the apparatus. A major drawback of this apparatus is an independent tug that is constantly needed for its operation.
U.S. Pat. No. 7,258,301 discloses a personal propulsion device having a body unit, a base unit constantly floating in the water, and a substantial delivery conduit providing water communication between both the body unit and the floating base unit. The weight of the device is quite substantial, especially in view of the fact that in use the delivery conduit is filled with water. The base unit includes an engine and a pump, which provides pressurized water for delivery through the conduit to the body unit. However, that unit is expensive to produce and difficult to operate for an average user. One of the substantial drawbacks of this prior art devise is that it requires a high power unit for lifting of not only the total weight of the apparatus including the rider, but also for the lifting of the weight of the substantial conduit filled with water. Further more, an additional power is required to drug the floating base unit, while the apparatus is in motion.
US 2008/0014811A1 discloses a personal flying water jet apparatus equipped with a water engine-pump, water discharge nozzles provided at the rider's backpack unit and a water inlet port connected with the pump by a hose. However, this water jet apparatus is not stable enough in the vertical direction. Further more, it does not have a buoyancy reserve, especially when the engine-pump assembly is not running.
Existing personal propulsion devices suffer additional major drawbacks by requiring additional systems/elements. As a result of the added weight of these systems, a significant amount of engine output and fuel is needed to generate the required thrust to achieve flight. This necessitates larger and heavier engines and, even then, the power-to-weight ratio remains often quite low.
Thus it has been long felt and unsolved need to provide a personal propulsion apparatus and a method associated therewith that is safe, stable, and achieves a higher power-to-weight ratio than the analogous devices known in the prior art. Moreover, it would be desirable to provide a personal propulsion apparatus that provides higher maneuverability, as well as practical travel range and duration.
As to one aspect of the invention a personal propulsion apparatus is provided for controllable movement of a rider over a water surface. The apparatus comprises a buoyant body unit, a power unit and a thrust assembly with at least two independently pivotable thrust nozzles. The power unit is capable of generating and delivering pressurized water to the thrust assembly. A substantially hollow intake unit has a receiving portion positioned at an angle to a directing portion. A height adjusting arrangement is formed within the directing portion. A conduit provides communication between the intake unit, the power and the thrust assembly.
During the motion of the rider over the surface of water the intake unit with the height adjusting arrangement remains submerged in to the water, so the rider is being self-propelled and glides over the water surface. Upon producing excessive lifting force, the intake unit with the height adjusting arrangement is elevated above the water surface causing entry of air into the intake unit and power unit. This results in decreasing of the thrust and lowering the height adjusting arrangement below the water surface into the submerged position, so that the rider assumes the longitudinal motion over the water surface.
As to still another aspect of the invention, the height adjusting arrangement comprises a plurality of the air-relieve openings disposed within the directing portion along the flow axis, so that during the longitudinal motion of the rider the plurality of the air-relieve openings is submerged and positioned below the surface of water.
The power unit comprises an internal combustion engine adapted to energize a pump capable of delivering pressurized liquid to the thrust assembly.
According to a further aspect of the invention a method of controllable gliding a rider over a water surface by means of a personal propulsion apparatus is provided. The apparatus consists of at least a buoyant body unit with a float, a power unit and a thrust assembly with at least two independently pivotable thrust nozzles, the power unit is capable of generating and delivering pressurized water to the thrust assembly. A substantially hollow intake unit is provided having a receiving portion positioned at an angle to a directing portion which is formed a height adjusting arrangement. A delivery conduit provides communication between the intake unit and the power unit and the thrust assembly. The method includes the following steps: positioning the intake unit with the height adjusting arrangement into a submerged position; developing suction, so as to establish a water flow from the intake unit, through the delivery conduit into the power unit and the thrust assembly; providing sufficient pressurization of water exiting the power unit and discharging the pressurized water through the nozzles, so as to generate the thrust sufficient to elevate the body of the rider at or above the surface of the water. In operation, during the motion of the rider over the surface of water the intake unit with the height adjusting arrangements remain submerged in to the water, so the rider is self-propelled and glides over the water surface. Upon excessive lifting force being produced, the intake unit with the height adjusting arrangement are elevated above the water surface causing decreased of the thrust and lowering the height adjusting arrangement below the water surface into the submerged position, so that the rider assumes the longitudinal motion over the water surface.
As to a further aspect of the invention the height adjusting arrangement comprises a plurality of air-relieving openings disposed within the directing portion along the flow axis, so that upon elevating the air-relieve openings above the water surface an atmospheric air enters an interior of the intake unit, the conduit into the water pump causing decrease of the thrust.
Referring now to the drawings which are provided to illustrate and not to limit the invention, wherein:
Referring now to the drawings in general and to
Referring now to
The seat assembly 42 is formed with a saddle 46 which efficiently supports a part of the weight of the rider and further reduces unnecessary movements and oscillations of the rider's body during use of the device.
As illustrated in
A power unit 14 is mounted at a rear part of the body unit 12. Although various power arrangements are contemplated, in the preferred embodiment of the invention the power unit is formed as an internal combustion engine 50 which is provided to energize a pump 52. For delivery of air to the combustion chambers, the engine 50 is equipped with air inlet snorkel 38 extending above the head of the rider. By means of the pump 52, suction is developed establishing a water flow from the intake unit 20, through the delivery conduit 30 into the power unit 14 and the thrust assembly 16.
As best shown in
By moving the control sticks 39, the rider can change the speed of the engine 50; also can deflect the thrust nozzles to vary the allocation between lift and propulsion force vectors. When the pump 52 reaches a speed sufficient enough to produce the needed pressure, the pressurized water is discharged at the nozzles 18, 19 generating the thrust sufficient enough to lift the rider off the water's surface. In addition a suction effect “Q” of the intake unit 20 increases a horizontal motion force “F”.
The power unit 14 can be provided with an autonomous air supply system adapted to supply air to the internal combustion engine and to protect the engine intake system against water entering the engine, when the apparatus is submerged or semi-submerged into water. As illustrated in
As illustrated in the embodiment of
The intake unit 20 is formed as an angle-shaped elbow having a substantially hollow interior, with a forwardly directed receiving portion 22 and a directing portion 24 positioned at an angle to each other. An intake opening 25 is provided at the front part of the receiving portion. The directing portion 24 is provided with a height adjusting arrangement 26 which can be in the form of the plurality of the air-relieve openings 28 disposed along the flow axis providing communication between an exterior and the hollow interior of the unit 20. To stabilize position of the intake unit 20, while the apparatus of the invention is in use, stabilizing wings 60 can be formed on both sides of the receiving portion. As illustrated in
To accommodate feet of the rider, the receiving portion can be equipped with a foot rest 62 with two bindings 64. At least one binding is provided with a clamp 66.
In the preferred embodiment of the invention, a unitary supply conduit 30 provides communication between the intake unit 20, the power unit 14 and the thrust assembly 16. To reduce dimensions and facilitate transportation the conduit 30 is typically made from a resilient and compressible material.
As illustrated in
As best illustrated in
The next step of operation is illustrated in
In operation the intake unit 20 is submerged and oriented such that the receiving portion 22 is positioned substantially horizontally and the directing portion 24 is oriented substantially vertically. One foot of the rider is supported by the footrest and secured by the binding. During the longitudinal motion, the intake unit supporting one foot of the rider remains submerged and situated below the surface of the water.
When the engine is running, water is inducted through the intake unit 20 into the delivery conduit 30 providing communication with the power unit 30 and thrust assembly. Upon the water flow being delivered into the pump, impeller transfers energy to the water to increase its speed and pressure. In this manner suction is developed establishing the water flow from the intake unit, through the delivery conduit into the power unit and the thrust assembly. The produced flow of pressurized water is routed to the thrust nozzles 18 and 19.
As the engine power output increases, the pump reaches the speed sufficient enough to produce the needed pressurization. The rider places the second foot in the available second free binding. The pressurized water is discharged through the nozzles, generating the thrust sufficient to elevate the body of the rider above the surface of the water. Upon providing sufficient pressurization of water exiting the pump, the water mass flow rate discharged at the nozzles generates sufficient thrust to bring the rider into the upright position and to lift the weight of the rider including the apparatus 10 of the invention above the surface of water, for a sustained period of time. Upon pivoting the nozzles, the flow of pressurized water exiting the nozzles is oriented at an angle to the vertical, providing a horizontal component to the motion forces, resulted in the longitudinal motion of the rider along the water surface. Thus, at any angle of nozzles produced as a result of their pivotal motion, the thrust produces the lifting vertical force and the horizontal force facilitating the longitudinal motion. By means of the control stick the rider can change the motion speed and the direction of thrust for maneuverability.
As further illustrated in
When the engine is being over-powered and the thrust being increased beyond the predetermined limits, the excessive lifting force is produced, so that the intake unit 20 supporting the foot of the rider is lifted. In this motion, the relieve openings 28 of the height adjusting arrangement are elevated above the water surface. Due to the existing suction, air from atmosphere is sucked in or percolated through the openings 28 into the directing portion and the conduit. Eventually, the atmospheric air enters into the water pump, causing decreased of the thrust. As a result, the intake unit 20 with the relieve openings 28 is lowered into the submerged position. This re-establishes flow between the intake unit 20 and the thrust assembly 16, enabling the rider to assume his longitudinal motion and gliding along the water surface as discussed hereinabove.
It has been demonstrated above that the present invention provides a personal propulsion water jet apparatus which is safe, stable and does not require a significant amount of engine output and fuel to generate sufficient thrust to achieve movement of the rider, resulting in the increased the power-to-weight ratio. The present invention also provides a personal propulsion apparatus having higher maneuverability, as well as substantial movement range and duration.
Number | Name | Date | Kind |
---|---|---|---|
3113550 | Omer | Dec 1963 | A |
7258301 | Li | Aug 2007 | B2 |
7614355 | Zeyger | Nov 2009 | B2 |
7735772 | Li | Jun 2010 | B2 |
7900867 | Li | Mar 2011 | B2 |
20080014811 | Zeyger | Jan 2008 | A1 |