KR101528747B1 - a flybike - Google Patents

a flybike Download PDF

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Publication number
KR101528747B1
KR101528747B1 KR1020150037569A KR20150037569A KR101528747B1 KR 101528747 B1 KR101528747 B1 KR 101528747B1 KR 1020150037569 A KR1020150037569 A KR 1020150037569A KR 20150037569 A KR20150037569 A KR 20150037569A KR 101528747 B1 KR101528747 B1 KR 101528747B1
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KR
South Korea
Prior art keywords
water
high
pressure
pipe
fly
Prior art date
Application number
KR1020150037569A
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Korean (ko)
Inventor
조재진
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조재진
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Priority to KR1020150037569A priority Critical patent/KR101528747B1/en
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Publication of KR101528747B1 publication Critical patent/KR101528747B1/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING
    • B63B35/00Vessels or like floating structures adapted for special purposes
    • B63B35/73Other vessels or like floating structures for pleasure or sport
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63HMARINE PROPULSION OR STEERING
    • B63H11/00Effecting propulsion by jets, i.e. reaction principle
    • B63H11/02Effecting propulsion by jets, i.e. reaction principle the propulsive medium being ambient water
    • B63H11/04Effecting propulsion by jets, i.e. reaction principle the propulsive medium being ambient water by means of pumps
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63HMARINE PROPULSION OR STEERING
    • B63H11/00Effecting propulsion by jets, i.e. reaction principle
    • B63H11/02Effecting propulsion by jets, i.e. reaction principle the propulsive medium being ambient water
    • B63H11/10Effecting propulsion by jets, i.e. reaction principle the propulsive medium being ambient water having means for deflecting jet or influencing cross-section thereof
    • B63H11/107Direction control of propulsive fluid
    • B63H11/113Pivoted outlet
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING
    • B63B2751/00Propulsion of ships using the reaction effect of a water jet
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T70/00Maritime or waterways transport
    • Y02T70/50Measures to reduce greenhouse gas emissions related to the propulsion system
    • Y02T70/56Jets

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water lapel mechanism for allowing a user to float a body by a high water pressure generated by supplying water to a hosel connected to a user body, And a high pressure hose for supplying high pressure water is connected to the lower side of the saddle frame to regulate the hydraulic pressure to be discharged, thereby generating a rising thrust so as to float above the water, and at the same time, An auxiliary hose communicating with the hose is connected to adjust the discharge amount of the water supplied to the inside of the hose and adjust the discharging direction of the water at the other side so that the saddle frame floats on the surface of the water to adjust the flying direction, Water pressure to enjoy leisure activities in the water Fly over to sleep on the bike to fly up.

Description

A flybike that can fly over the water surface using water pressure.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water lapel mechanism for allowing a body of water to float on water with a high water pressure generated by supplying water to a hosel connected to a body using a water jet output, And a high pressure hose for supplying high pressure water is connected to the lower side of the saddle frame to regulate the hydraulic pressure to be discharged, thereby generating a rising thrust so as to float above the water, and at the same time, The saddle frame floats on the surface of the water to adjust the flying direction so as to maintain a sense of balance of the body by adjusting the discharge amount of the water supplied to the inside of the saddle frame, Take advantage of the water pressure to enjoy leisure activities at the waterfront. That can fly above the water surface will fly on bikes.

In general, there are many kinds of leisure equipment that can be taken from the water, such as jet ski, motorboat and water board used for surfing. In recent years, leisure equipment that can feel the speed by using power such as jet ski and motor boat This trend is increasing.

And a water board, which is widely used for surfing, a sport that escapes through the waves of surfboarding to the shore.

Recently, it has become popular as a water-based leisure equipment because a fly board or a water board has appeared, which is caused by the inflow of water into the hose attached to the board using the output of the jet ski, It is an award-winning aerial recreation flying like a skier on a water surface. It reminds me of a movie "Iron Man".

These fly boards are popular athletic athletes spread through professional training by using the flying feeling of the body by using the nozzles worn on both hands like a ski pole.

It was developed by Francky Zapata in France around 2011 and was popularly advertised in Yeosu Expo in Korea.

Conventionally, 'Water powered water skiing' is disclosed in Japanese Patent Application Laid-Open No. 10-2005-0092076 as a water leisure facility similar to a flyboard.

This conventional power-driven water skiing allows water skiers to enjoy various water sports such as fast speed, direction change jump, etc., due to the water skiing being separated from the power section due to the power section being carried on the back of the water skier. will be.

Also, in the related art, a 'board ski with a motor' is disclosed in Registration Utility Model No. 20-0248305.

In the conventional 'board ski with motor', an engine part is formed on one side of a board ski, and a driver's seat, a saddle pedestal and a steering key are formed so as to be able to move at a high speed on the water, It is a leisure mechanism.

KR 10-2005-0092076 (publication number) 2005.09.16. KR 20-2013-0006448 (publication number) 2013.11.07. KR 20-0248305 (registration number) 2001.09.15.

However, there is a disadvantage in that a conventional motorcycle-equipped board ski can enjoy speed at the water level but can not float on the water.

In addition, the conventional fly board which floats on the surface of the water using the thrust of the jet skis has a weak device for adjusting the direction and amount of the water supplied at a high pressure, so that the user can not freely adjust the flying direction And there is a problem that it is difficult to manufacture due to the complicated structure because the direction of the fly board is adjusted through the device which is separately controlled on both sides.

Accordingly, the present invention has been made to solve the above problems,

The object of the present invention is to provide a flybike that can be adjusted by a single pipe and a single operation knob so that the entire body can be adjusted over the surface of the water surface which is simple in structure and easy to manufacture.

In addition, the present invention provides a flybike capable of flying on a surface of a water surface in which a user can easily and safely operate by adjusting the direction of the entire fly bike by adjusting the direction of one pipe provided at the center of the body. have.

In order to accomplish the above object, the present invention provides a fly-bike in which a high-pressure water is supplied through a high-pressure hose connected to a body,

A saddle body frame to which a high pressure hose is connected so that a user can sit or support and a high pressure water can be supplied to a lower surface of the saddle body frame, a first operation handle provided on the upper surface side of the saddle body frame, A saddle body frame, and a connecting frame for connecting the saddle body frame and the saddle body frame, the saddle body frame being mounted on the lower surface of the saddle body frame so that the high-pressure hose is connected, And a pipe member protruding from an upper surface of the saddle body frame to connect the handle frame and allow high-pressure water to flow thereinto. The pipe member to which the high- The high-pressure water supplied from the high-pressure hose is discharged in a reverse direction A main thrust pipe formed in a curved shape so as to generate a main thrust force; a main thrust pipe formed at an outlet portion of the main hose so as to bend high pressure water supplied from the high pressure hose in a reverse direction to generate auxiliary thrust; And the auxiliary thrust pipe is provided with rotation supporting means for rotating the handle frame.

Therefore, the fly-bike which can fly on the water surface by using the water pressure according to the present invention can be adjusted in the front, rear, left and right direction through one pipe located at the center of the body,

Further, the fly-bike according to the present invention can be moved in the forward, backward, leftward and rightward and downward directions through operation of the operating handle and the handle, so that the user can easily and safely operate the fly-bike.

Further, the fly-bike according to the present invention can be easily manufactured and manufactured at a low cost because it can be adjusted in all directions and moved by only two water injection pipes.

Further, in the handle frame connected to the saddle frame, an auxiliary hose communicating with the high-pressure hose is connected to adjust the thrust of the water supplied to the high-pressure hose at one end thereof, and adjust the discharge direction of the thrust at the other end, It has the advantage of enjoying water leisure activities while keeping the body balance by simply adjusting the direction in which it floats on the water surface and is flying, front, back, left, right and up and down.

FIG. 1 is a side view of a fly-bike that can fly over a water surface using water pressure according to the present invention,
FIG. 2 is a plan view of a fly-bike that can fly over a water surface using water pressure according to the present invention,
FIG. 3 is a schematic operational state diagram of a recessed portion of a handlebar frame of a fly-bike which can fly over a water surface using water pressure according to the present invention,
FIG. 4 is a schematic operational state diagram of a recess for changing the thrust direction of water during operation of a handlebrake of a fly-bike that can fly over the water surface using the water pressure according to the present invention,
5 and 6 are graphs showing the difference in the degree of flying the body on the water surface according to the difference in the strength of water supplied to the main propulsion power pipe and the auxiliary propulsion power pipe provided in the fly bike, Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the fly-bike 100, which can fly over the water surface using the water pressure according to the present invention,

A saddle body frame 110 connected to a high pressure hose 111 for supplying high pressure water from a water discharging means such as a jet ski or pump means to the lower surface of the saddle body frame 110 so as to be able to sit or support the user,

A handle frame 130 provided on an upper surface side of the saddle body frame 110 and having a first operation handle 121 and a second operation handle 122 and a connection frame 123 connecting the first operation handle 121 and the second operation handle 122, (120),

One end of the saddle body frame 110 is provided on the lower surface of the saddle body frame 110 to connect the high pressure hose 111 and the other end to the upper surface of the saddle body frame 110 And a pipe member 130 protruding from the handle frame 120 and connected to the handle frame 120 to allow high pressure water to flow therethrough,

Pressure water supplied from the high-pressure hose 111 while being branched from the pipe member 130 to the inlet portion of the pipe member 130 to which the high-pressure hose 111 is connected, Pressure hose 111 to the outlet of the pipe member 130 and discharges the high-pressure water flowing in the reverse direction from the high-pressure hose 111 to generate an auxiliary thrust force An auxiliary propulsion power pipe 132 is installed at the center of the body,

The auxiliary thrust pipe 131 is provided with a rotation supporting means 140 connected to the handle frame 120 so as to be rotatable.

Accordingly, when high-pressure water is supplied to the pipe member 130 from the water discharging means such as jet ski through the high pressure hose 111, some high-pressure water flows into the main propulsion power pipe 131 and is discharged in the reverse direction, So that the saddle body frame 110 can be caused to fly above the water surface. It will fly over the airstrip.

At the same time, high-pressure water is supplied to the auxiliary thrust pipe 132 through the high-pressure hose 111 and discharged, thereby generating an additional thrust.

When high-pressure water is supplied to the pipe member 130 from the water discharging means such as a jet ski through the high-pressure hose 111, the main thrust pipe 131 and the auxiliary pipe 131, which constitute the pipe member 130, Pressure water is discharged by the propelling power pipe 132 to generate propelling power, thereby allowing the saddle body frame 110 to rise above the water surface.

In this way, while the user sits or supports the saddle body frame 110, the first operating handle 121 is held by one hand and the second operating handle 122 is held by the other hand The handle frame 120 and the rotation support means 140 are operated to adjust the thrust and the upward direction of the handle frame 120, thereby performing a leisure activity in the water.

The main thrust pipe 131 is provided with a thrust force adjusting means 150 for adjusting the amount of high pressure water flowing through the high pressure hose 111 to control the thrust force. 150 includes a fixed bracket 151 mounted on the saddle body frame 110, an operation pedal 152 mounted on the fixed bracket 151, a hinge means A valve plate 153 installed to be rotatable by the main propelling force pipe 153a so as to adjust the inflow amount of water into the main propelling power pipe 131 and a valve plate 153 installed to connect the actuation pedal 152 and the valve plate 153 And cable means 154.

Here, the valve plate 153 is configured to be rotatable about the hinge unit 153a according to the operation of the operation cable unit 154. [

Accordingly, when the actuation cable means 154 is pulled by depressing the operating pedal 152 to open the valve plate 153, a large amount of high-pressure water is introduced into the main propulsion power pipe 131 according to the degree of opening thereof, The thrust of the main propulsion power pipe 131 is increased by inserting water into the auxiliary thrust force pipe 132. When the actuating pedal 152 is slowly released, 153 of the auxiliary thrust pipe 312 is closed so that high pressure water is little entered into the main thrust pipe 131 and a large amount of water is introduced into the auxiliary thrust pipe 312, So that it can be easily rotated 360 degrees. That is, the amount of water in the direction of the auxiliary thrust pipe 132 or the main thrust pipe 131 of the bike may be adjusted to increase the front portion of the bike or the rear portion thereof without increasing or reducing the thrust of the engine, The posture can be controlled (see Figs. 5 and 6).

Accordingly, the saddle body frame 110 can be raised or lowered in the water phase according to the operation of the thrust adjusting means 150, and the rising and falling angle of the saddle body frame 110 can be adjusted during the air rotation or submergence.

The pipe member 130 is further provided with controller means 160 for controlling the amount of high-pressure water discharged to the high-pressure hose 111.

Here, the controller means 160 can control the pump means provided in the water remotely (wirelessly), and it can be easily installed by a person skilled in the art by the known technology, and a detailed description thereof will be omitted.

That is, the controller 160 includes a wireless or wired transmitter that controls the power of the engine, controls the thrust of the engine by adjusting the operating knob, and adjusts the spraying pressure of the whole water by increasing or decreasing the engine power.

The controller means 160 is configured to be connected and operated by a first operation cable 121a provided in the first operation handle 121 provided at one end of the handle frame 120, The first operation cable 121a is pulled by the operation of the controller 121 to operate the controller means 160 to increase the power of the engine and adjust the strength of the high pressure water supplied from the pump means to the high pressure hose 111 .

Accordingly, the controller means 160 operates to control the power of the water pressure supplied to the main propulsion power pipe 131 and the auxiliary propulsion power pipe 132.

The rotation support means 140 connected to the handle frame 120 is connected to the connection frame 123 connecting the first operation handle 121 and the second operation handle 122, A hollow bearing member 142 inserted and fixed at an end of the auxiliary thrust pipe 132 and a bearing member 142 inserted into the outer surface of the bearing member 142 so as to be rotatable by sliding And a rod shaft 144 which protrudes from both side surfaces of the covering round member 143 and into which both ends of the body bracket 141 are inserted and fixed.

Accordingly, when the first and second operating knobs 121 and 122 are held by both hands and the connecting frame 123 is rotated, the covering round member 143 is rotated along the outer surface of the bearing member 142, So that the body bracket 141 can be rotated at the end of the body 132.

With this configuration, the handle frame 120 can freely rotate left and right as the rotation supporting means 140 is rotated.

Here, the bearing member 142 may be formed by press-fitting a circular ball bearing means into an end of the auxiliary thrust pipe 132, and the outer shape of the bearing member 142 may be formed into a convex spherical shape.

The covering round member 143 is connected to the end portion of the auxiliary thrust force pipe 132 and communicates with the end portion of the auxiliary thrust force pipe 132 so that the high pressure water discharged to the end portion of the auxiliary thrust force pipe 132 is easily discharged to the outside And a discharge pipe 143a is provided

Here, the covering round members 143 may be fabricated in half, and the respective flange portions may be fastened by a plurality of bolt means, but the present invention is not limited thereto.

A second actuating cable 122a, which is actuated by the second actuating knob 122, is connected to the outside of the covering round member 143.

When the second operating cable 122a is operated using the second operating knob 122, the covering round member 143 moves the rod shaft 144 along the outer surface of the bearing member 142, .

At the same time, the discharge pipe 143a, which is connected to the covering round member 143 and forms a body, is also rotated.

At this time, the direction of the saddle body frame 110 can be changed while the discharge direction of the high-pressure water discharged to the end of the auxiliary thrust pipe 132 is changed by the rotation of the discharge pipe 143a.

The pipe member 130 is provided at the entrance thereof with mounting means 180 to which the high-pressure hose 111 is connected.

The handle frame 120 may be provided with a transparent protective guard 190 for protecting the user.

Hereinafter, a procedure of operating the fly-bike 100 that can fly over the water surface using the water pressure of the present invention will be described.

Generally, the fly-bike 100, which can fly on the surface of the water by using water pressure, is operated as a tank with a high-pressure water discharge mechanism such as a jet ski.

In other words, when high-pressure water is supplied from the high-pressure water discharge mechanism such as jet ski to the pipe member 130 through the high-pressure hose 111 on the water surface of the sea or the like, And the saddle body frame 110 is allowed to fly over the water surface by the generated thrust force.

At the same time, the high-pressure water supplied to the pipe member 130 is supplied to the auxiliary thrust pipe 132 and discharged through the discharge pipe 143a to generate auxiliary thrust.

The high pressure water supplied to the pipe member 130 through the high pressure hose 111 is discharged to the main propulsion power pipe 131 and the auxiliary propulsion power pipe 132 to generate reverse propulsion force, The user can stably fly over the water surface while the user is standing on the frame 110.

In this flying state, the actuation pedal 152 is stepped on to open the valve plate 153 and a large amount of high-pressure water is supplied to the main propulsion power pipe 131 to increase the upward thrust, The saddle body frame 110 is slowly lowered to adjust the height of the saddle body frame 110 while supplying a small amount of high-pressure water to the main propulsion power pipe 131.

At this time, the balance of the hand frame 120 is adjusted while being adjusted.

The direction of the discharge pipe 172 is changed as described above while operating the second operation cable 122a by using the second operating knob 122 while maintaining the balance through the hand frame 120 Thereby changing the flying direction of the saddle body frame 110.

In this case, while the first operating cable 121a is operated by using the first operating knob 121, the intensity of the water pressure (water injection pressure) supplied to the high-pressure hose 111 through the controller means 160, .

The saddle body frame 110 is floated over the water surface while the auxiliary thrust force pipe 132 generates the auxiliary thrust force and the auxiliary thrust force pipe 132 is moved upward, The cover ring 143 is operated by the second operating knob 122 to fly while adjusting the direction of the auxiliary thrust.

By using such a high water pressure to fly above the water surface and to artificially adjust the direction by balancing it, it becomes possible to feel the charm of the water raft.

As described above, the fly-bike which can fly over the water surface using the water pressure of the present invention is composed of a saddle frame for allowing the user to sit and a handle frame for adjusting the direction, and the high- Pressure hose connected to the high-pressure hose is regulated to generate a rising thrust to float on the water while an auxiliary hose communicating with the high-pressure hose is connected at one side of the handle frame to regulate the discharge amount of water supplied to the inside of the handle frame, By adjusting the discharge direction of the water, the saddle frame floats on the surface of the water to adjust the flying direction so that the balance of the body can be maintained while enjoying the leisure activity in the water.

100: fly bikes that can fly over the water surface using water pressure
110: Saddle body frame 111: High pressure hose
120: handle frame
121: first operating knob 121a: first operating cable 122: second operating knob
122a: second operation cable 123: connection frame
130: pipe member
131: main thrust force pipe 132: auxiliary thrust force pipe
140:
141: Body bracket 142: Bearing member 143: Covering round member
144: rod shaft 143a: discharge pipe
150: Thrust adjusting means
151: fixed bracket 152: operating pedal 153: valve plate
153a: Hinge means 154: Operation cable
160: Controller means
180: mounting means 190: protective guard

Claims (6)

  1. A fly-bike in which a high-pressure water is supplied through a high-pressure hose connected to a body to cause a body to fly over water with a thrust generated,
    A saddle body frame having a high pressure hose connected to the lower surface of the saddle so that a high pressure water can be supplied to the lower surface of the saddle body frame,
    A handle frame provided on an upper surface side of the saddle body frame, the handle frame including a first operating handle and a second operating handle, and a connection frame for connecting the first and second operating knobs,
    The saddle body frame includes a saddle body frame and a saddle body frame. The saddle body frame has a first end connected to the lower surface of the saddle body frame to connect the high-pressure hose and the other end protruded from the upper surface of the saddle body frame, And a pipe member for allowing water to flow therethrough,
    Pressure hose connected to the high-pressure hose, the main propulsion power pipe being bent at an inlet of the pipe member to generate high-pressure water supplied from the high-pressure hose in a reverse direction to generate a main propulsion force, Pressure hose, and an auxiliary thrust pipe disposed at the center of the hose so as to generate auxiliary thrust by discharging high-pressure water supplied from the high-pressure hose in a reverse direction,
    Wherein the auxiliary thrust force pipe is capable of flying above the water surface by using water pressure provided with a rotation supporting means for rotating the handle frame.
  2. The method according to claim 1,
    The main thrust pipe is provided with thrust adjusting means for controlling the main thrust force by adjusting the amount of high pressure water flowing through the high pressure hose,
    The thrust adjusting means includes a fixed bracket installed on the saddle body frame, an operating pedal mounted on the fixed bracket, and a hinge unit mounted on an inlet of the main thrust pipe, A valve plate, and an operating cable means for connecting the actuation pedal and the valve plate to each other.
  3. The method according to claim 1,
    The pipe member is further provided with controller means for controlling the amount of high-pressure water supplied to the high-pressure hose while being operated by a first operation cable connected to the first operating handle of the handle frame, Fly bikes that can fly over water.
  4. The method according to claim 1,
    The rotation support means connected to the handle frame includes an á-shaped body bracket fixed to the connection frame connecting the first operation handle and the second operation handle, A cover ring member inserted into the outer surface of the bearing member so as to be slidably rotatable, and a rod shaft protruding from both side portions of the covering ring member and inserted and fixed at both ends of the body breechket, Fly bikes that can fly over the surface of water using the water pressure that is constructed.
  5. 5. The method of claim 4,
    And a discharge pipe communicating with an end portion of the auxiliary thrust pipe to discharge high pressure water discharged to an end portion of the auxiliary thrust pipe to the outside while being formed at the end portion of the covering round member, Fly bike that can fly.
  6. 5. The method of claim 4,
    And a second operating cable operated by the second operating knob is connected to the outer side of the covering round member so as to be able to fly over the water surface by using the water pressure connected thereto.
KR1020150037569A 2015-03-18 2015-03-18 a flybike KR101528747B1 (en)

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KR1020150037569A KR101528747B1 (en) 2015-03-18 2015-03-18 a flybike

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7258301B2 (en) * 2004-03-26 2007-08-21 Raymond Li Personal propulsion device
KR20130011283A (en) * 2011-07-21 2013-01-30 박순세 A recreation deviec using waterjet
US8449340B1 (en) * 2012-06-14 2013-05-28 Eugene Zeyger Personal propulsion apparatus and method associated therewith
US20140216319A1 (en) * 2013-02-01 2014-08-07 Sean Frisky Water propelled personal craft

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7258301B2 (en) * 2004-03-26 2007-08-21 Raymond Li Personal propulsion device
KR20130011283A (en) * 2011-07-21 2013-01-30 박순세 A recreation deviec using waterjet
US8449340B1 (en) * 2012-06-14 2013-05-28 Eugene Zeyger Personal propulsion apparatus and method associated therewith
US20140216319A1 (en) * 2013-02-01 2014-08-07 Sean Frisky Water propelled personal craft

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