KR101820625B1 - Air-Jet Propulsion Jet Ski - Google Patents

Abstract

The present invention provides a forming method and a propulsion system for a new type jet ski by resolving problems of a jet ski which is used by a conventional power source. According to the present invention, in the jet ski, an air-jet method with a turbine is provided to remove a foreign substance absorbed into a propeller.

Description

Air-Jet Propulsion Jet Ski < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to an air jet propulsion jet ski by a turbine.

Generally, Jet Ski is water leisure equipment which can seat up to two people. It is composed of water jet system that can propel small propeller at high speed in a round pipe to propel water.

The water jet method that obtains the propulsion of the jet skis is very small compared to the conventional propeller propeller which is caused by floating matters or garbage, but the frequency is low. However, due to the nature of the structure in which the water jet suction pipe and the propeller are closely contacted, If the foreign object is inhaled, it causes a fatal problem.

When such a problem occurs, unlike the case of a general ship, it is necessary to disassemble the jet ski to remove the foreign matter adhered to the inside of the jet ski, and the water jet propeller rotating at high speed will be seriously damaged.

Jet Ski, a leisure equipment that is not a means of transportation and transportation, is a kind of rich life, and it is an adult's play means for leisure use. It is useful when it has a wide range of usage, In contrast, conventional jet skis are difficult to use unless they are located in a specific place where a slope can be easily transported to a trailer towed by an automobile, Even so, it is necessary to go through such a troublesome process.

On the other hand, the hovercraft generates thrust by using a propeller for the aircraft, unlike the principle of the existing ship. Part of the hovercraft is supplied to the lower part of the hull to float the hull, while the rest of the hovercraft is propelled toward the rear, The bottom of the ship is flat so that the hull can float on the water surface.

The hovercraft can be operated at high speeds, lagoons, land and sea, but the damage of the skirt, which plays a role of trapping air in the lower part of the hull with great fuel consumption, has serious problems with its economical and convenience In addition, it is a fact that it is impossible to precisely steer due to the phenomenon of slip of the hull and the water surface (ground surface) together with a great noise generated during the start, and the steering is very difficult.

In the case of conventional hovercrafts, propellers are driven like an aircraft to propel the rear air to gain propulsion, and also in directional and braking, conventional hovercrafts use rudders to change the direction of airflow, such as aircraft, So-called skid necessarily occurs, and the running process is unstable and the maneuverability is remarkably low.
A conventional air lifting vessel is disclosed in Korean Patent Laid-Open Publication No. 10-2012-0048235 (published May 15, 2012), which allows high pressure air to be fed to the bottom of the hull to float from the water surface, Although it is possible to improve the efficiency and reduce the fuel consumption, there is a disadvantage in that a large part of the ship is locked under the water and the propulsion power is lowered.

Open Patent Publication No. 10-2012-0048235 (published May 15, 2012)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a new type of jet ski construction method and a propulsion system by improving the problems of jet skis used as a conventional power source.

In order to accomplish the above object, the jet skis according to the present invention is replaced with an air jet method by a turbine, thereby eliminating the problems caused by foreign substances sucked into the propeller, obtaining driving force by a plurality of air jet propulsion nozzles Air pockets and air lubrication on the bottom of the fuselage makes it possible to run at a faster speed than conventional technology and is superior in terms of fuel economy.

The skirt of the hovercraft can be housed in the opening and closing of the side of the jet ski body on the basis of the propulsion system of the present invention so that the jet skis and the hovercraft function can be combined.

In the present invention, the air jet spray nozzle generates propulsive force in the water when performing general navigation using the air jet propulsion. However, when the hull is operated using the hovercraft function, the hull is floated to a certain level with the water surface, The air jet spraying device of the jet ski having a hovercraft function is arranged so that the air jet spraying nozzle as much as the height of the skirt spreads on the surface of the water or on the ground So that it is possible to achieve an optimum efficiency.

The method of constructing an air jet propulsion type jet ski having a hovercraft function according to the present invention is characterized in that in an ordinary situation, the air puck function configured in the lower part of the jet skis and the air jet propulsion make efficient maneuvering, The hovercraft function can be used to operate at a high speed and greatly expand the activity area, and at the same time, the noise is greatly attenuated, so that the hovercraft can not be compared with the existing hovercraft, Since there is no large propeller and large propeller protruding to the rear to obtain propulsion, there is also an advantage that the limited hull space can be used very efficiently together with the visual part.

The jet ski of the present invention can enjoy a variety of leisure activities regardless of the water level as well as the water level, and can easily access the water using a hovercraft function even if there is no separate ramp for jet skiing It is possible to enjoy leisure activities in areas where it is not possible to use traditional jet skiing by landing on shore like sandy beach.

In addition, high-pressure air generated by the engine and turbine in the hull is sprayed on the water surface through an air jet spray nozzle installed on the bottom of the ship to propel the propulsion force and transmit the mechanical force like a conventional vessel It is much more economical and progressive in the construction, operation and operation of the system by changing the direction of the hull by changing only the injection direction of air, as opposed to rotating the propeller.

In the present invention, in the case of the existing hovercraft, it is impossible to perform elaborate steering due to a skid between the water surface and the ground. However, in the present invention, since the air jet spraying nozzle under the hull is sprayed by the high- It is also a great advantage that precision steering is possible.

The characteristics of the present invention can be used for a wide range of activities and a wide range of activities that can be carried out at high speed and can be operated regardless of the water surface and the ground, It is.

1 is a perspective view showing an overall shape of a jet ski according to the present invention;
2 is a bottom perspective view showing the overall shape of a jet ski according to the present invention.
3 is a perspective view showing a skirt receiving portion opening portion according to the present invention.
4 is a bottom perspective view showing the opening of the skirt receiving portion according to the present invention.
5 is a perspective view showing the overall shape of a hovercraft according to the present invention.
6 is a bottom perspective view showing the overall shape of a hovercraft according to the present invention.
7 is a perspective view showing a configuration in which an air jet is jetted according to the present invention.
8 is a bottom view showing a configuration in which an air jet is jetted according to the present invention.
9 is a bottom view of the structure of an air jet system according to the present invention.
10 is a control diagram of an air jet injector brake state according to the present invention.
11 is a control diagram of the state in which the air jet injector is moved to the left according to the present invention.
12 is a control diagram of the state in which the air jet injecting apparatus is moved to the right according to the present invention.
13 is a detailed view of the air jet spray nozzle height adjusting device according to the present invention.
FIG. 14 is a detailed view of the air jet spray nozzle height adjusting device according to the present invention. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

FIG. 1 is a perspective view showing the overall shape of a jet ski according to the present invention, FIG. 5 is a perspective view showing the overall shape of a hovercraft according to the present invention, FIG. 7 is a perspective view showing a structure in which an air jet is sprayed according to the present invention, 9 is a bottom view showing the structure of an air jet system according to the present invention.

As shown in FIGS. 1 to 14, the jet skis of an air jet propulsion system according to the present invention is constructed such that the outer wall of the hull can be spread out to a certain width on the outer side of the jet ski hull 100, And the outer wall of the hull 100 can be opened and closed by the skirt accommodating opening 302 when the skirt is put in and out, And it is possible to use the hovercraft function to deploy the skirts as necessary. By forming a single air layer between the hull and the water surface, it is possible to eliminate the friction of the water on the area below the hull, An air pocket section 120 is formed at the bottom of the hull so as to keep air in contact with the hull, And the bottom surface of the hull is constructed so as to form a triangular-shaped oblique surface from a bow to a stern. When the ship advances, it receives the resistance of water along the oblique surface, The air jet injecting apparatus 200 is installed in the space inside the air pocket section 120 to push the water surface at the lower end of the hull by the air jet flow jetted at a high pressure to obtain propulsion force, The jet airflow is jetted along the oblique plane of the rear side to perform an air lubrication function for eliminating the frictional force between the hull and the water surface, thereby improving the propulsive force of the hull.

The skirt accommodating opening 302 for opening and closing the above-described hovercraft skirt is formed in the shape of a band across the front edge of the hull to the outer wall near the waterline of the hull, and corresponds to the outermost surface of the hull And the inner surface of the outer surface of the hull, or the inner surface of the skirt 300, substantially belongs to the main hull.

The bow portion is formed in an elliptical shape so that the opening and closing cover 306 can be separated and opened and closed at the time of installation of the skirt accommodating opening 302. When the opening and closing cover 302 is opened, The surface of the opening / closing lid 306 is connected to each other by the connecting material 305 by using a flexible fiber and a rubber material inside each skirt accommodating opening and closing port, When the skirt is opened by opening the opening / closing port, the edge of the skirt storing opening can be prevented from damaging the skirt surface, and at the same time, a beautiful appearance can be achieved.

When the opening and closing cover provided on both sides of the hull is straight and is opened together with the opening and closing cover of the corner where it meets the stern portion, the gap between the ends of the opening and closing cover is made as flexible as the opening and closing cover of the bow portion When the skirt accommodating opening is opened by connecting the inner side surfaces thereof, the skirt can be pressed evenly by the air while maintaining a constant surface and height.

When closing the skirt storage opening and closing skirt, the fiber or rubber material that connects the opening cover and the cover to the corner of the bow and stern is folded together with the skirt into the storage space, and the opening and closing cover is closed, And the like.

In addition, the skirt opening / closing port 302 is configured to be opened and closed while being rotated in the outward direction by a general free hinge in contact with the outside waterline of the hull so that the skirt can be lifted up and stored and unfolded to hover .

The hovercraft skirt described above allows the air jet generated in the turbine to flow through the valve for the turbine so as to inflate the air jet skirt 300 generated by the turbine 400 without a separate float fan and propelling propeller And is guided to flow to the air jet opening 405 through the air jet oil conduit 403.

The above-mentioned turbine valve interrupts the valve when a problem such as failure of one of the engine 401 and the turbine 400 occurs, blocks the air jet generated in the normal turbine from escaping, .

A valve for air pockets is provided to supply the air jet, and air is supplied through the air pocket valve to the air jet nozzle at the side of the hull and the air jet nozzle at the bottom of the hull.

The air pocket valve prevents the air in the air pocket section formed at the lower end portion of the hull when the hovercraft is stopped on the water surface from flowing backward to the upper portion and, even if the air in the skirt comes out even when stopped for a long time, And the air pressure in the air pocket section is maintained. In addition, even when a temporary high-pressure phenomenon occurs in the lower part of the hull even during starting, the pressure is prevented from being applied to the turbine and the engine.

When the skirt is switched to the hovercraft function, the skirt valve is opened to partially supply the air of the air jet so that the skirt is immediately unfolded so that the skirt is maintained in a constant shape. During the operation, the shape is distorted or wrinkled, So that it can not escape, and serves as an air cushion to maintain the hovering state, thereby enabling high-speed movement.

In the construction and control method of the air jet injecting apparatus 200, the air jet spraying nozzle 206 generates propulsive force in water when performing general navigation using the air jet propulsion force. However, when the hull is operated using the hovercraft function, The air jet spray nozzle at this time has a certain distance from the water surface or the ground, and therefore, the air jet spraying device of the ship having the hovercraft function can not perform the skirt The air jet spraying nozzle can be jetted down to a level near the surface of the water or the ground by a height enough to unfold and hover.

In the configuration of the hull for installation on the bottom surface of the above-described air jet spraying apparatus, a plurality of air jet spray nozzle rows are arranged in a line in a direction from a bow to a stern portion, An air pocket section 120 is installed.

The hull of the portion where the air jet injector is arranged in a row is provided with an air jet injector 200 having a height which is the same as that of the air jet injector 200, The hull is constructed so that the hull can be jetted to jet the air jet so that it does not receive resistance in high-speed swing and that the wave is temporarily and partially hit by the hull so that it is not subjected to the most resistance in the course of the hull.

The air jet injecting apparatus 200 includes a body 202, an interlocking passage 204 and an injection nozzle 206. The body of the air jet injecting apparatus is fixed to the lower end of the hull, Is made up of two pairs and moves upward and downward by driving a hydraulic cylinder or a hydraulic motor attached to the body of the air jet injector or hull, and when the jet ski or hovercraft function is used, the distance between the hull and the water surface or the ground So that the air jet injection force can be efficiently converted to the speed.

The inter-working space of the air jet injecting apparatus is composed of two different axes and is connected to the air jet spraying nozzle at the end. At this time, the interlocking movement is performed by the hydraulic cylinder or the hydraulic motor. When the hovercraft function is used, the air jet spraying nozzle faces downward, and the direction of the nozzle aligned with the hull is gradually oriented toward the water surface or the ground surface at a constant angle with respect to the hull .

This is a method of constructing to maintain an angle at which optimum efficiency can be automatically achieved without any special operation by using a difference of a constant rate generated while performing rotational motion of interlocking motion of two axes which are different from each other.

In the control of the air jet injection device, the air jet injection nozzle fixed between the interlocking parts is formed in the form of universal joint, and it is possible to perform left and right and up and down movements by hydraulic cylinder or hydraulic motor to perform steering and braking function, And even when the jetting nozzle is at a certain height by the up-and-down elevation adjusting device of the air jet injecting device, the jetting direction of the nozzle is configured to operate without regard to front, rear, left and right.

Therefore, the high-pressure air generated by the engine and the turbine in the hull is sprayed on the water surface through the air jet spray nozzle installed on the bottom of the ship, And it plays a role of lifting the hull by being trapped in the air pocket section of the surface and enhancing the speed and operating efficiency by canceling the direct frictional resistance with the water when the hull is propelled.

When the air in the air cushion section flows backward in the direction of the turbine in the case of low-speed rotation of the engine or in an engine stop state, it automatically blocks the air cushion valve according to the operation of the air cushion valve to continuously keep a certain amount of air, Automatic release and automatic shut-off and release functions according to the pressure difference between the upper and lower portions around the air cushion valve.

When switching from a hovercraft to a jet ski, the skirt valve should be closed to block the air jet so that the skirt can be walked.

The state of the jet ski being adjusted according to the direction of the air jet spray nozzle of the present invention will be described. First, when the air jet is sprayed through the air jet spray nozzle, the jetted air jet pushes the water surface at the lower end of the hull, The air that lost power is trapped in the air pocket section of the bottom and serves to lift the hull. It also serves to offset the direct frictional resistance with the water when the hull is propelled. When setting the jet nozzle to the stern direction, (Braking and backward operation) when the injection nozzle is sprayed in the forward direction.

Therefore, it is important to be able to convert the output of the engine into driving force at a high rate by making the air jet spray nozzle mounted on the bottom surface to obtain the propulsion force, .

Even in steering, the present invention can freely change the direction of the jet nozzle of the air jet so that the direction of the hull can be easily changed, and a separate power transmission device is not required, which is advantageous in terms of ship construction, operation and maneuverability.

Even in the use of the brake, since the air jet spraying nozzle is sprayed in the forward direction, the driving force can be reduced and the backward movement can be performed. Therefore, it is excellent in stability and efficiency because the engine is not overloaded at all.

The air jet spray nozzle is operated as starboard when the starboard jet is jetted to the left, and to the starboard jet jetted to the port jet jet.

In case of large vessels, the ship should be assisted by a special vessel called a tug boat because it is impossible to bend the side by the magnetic force when docking in the port. However, in the case of the present invention, The direction of the jet spray nozzle is switched to the port or starboard, and the ship can be moved to the left or the right so that it is possible to bounce and open the boat with the magnetic force.

When the injection nozzle is injected rearward to the starboard side, it advances to the diagonal direction to the left, and when the injection nozzle is injected rearward to the port side, it is operated to be diagonally leftward.

When the injection nozzle is sprayed forward to the starboard side, it is operated diagonally to the left and backward. When the spray nozzle is jetted to the port forward direction, the diagonal direction is reversed.

The forward injection nozzle is rotated to the left, the rear injection nozzle to the left when the injection is made to the left, and the forward injection nozzle to the left and the rear injection nozzle to rotate to the right.

Injection nozzle This is a function to lift the hull as much as possible in place when spraying vertically downward, so as to minimize the static friction force generated at the start.

When the hovercraft function is used, when the skirt opening / closing device is opened, the skirt valve is opened, and at the same time, a part of the high-pressure air supplied from the turbine to the air jet spray nozzle is supplied to the skirt The skirt opening / closing port is smoothly pushed out from the cash-box space where the skirt is stored, so that it can be expanded immediately.

This function allows the skirt to be folded or wrinkled so that the air in the air cushion section does not escape out of the air cushion section at the time of starting the air conditioner, and it is possible to flexibly cope with the friction between the ground and the curved surface such as the water surface .

In everyday situations, it is possible to make efficient maneuvering by air pockets and air cushion function and air jet propulsion constructed under the hull, and when hovering off the water, maneuvering at high speed using the hovercraft function, will be.

In the case of the existing hovercraft, it is impossible to perform elaborate steering due to a skid between the water surface and the ground. However, in the present invention, since the air jet spray nozzle at the lower part of the hull is sprayed along the water surface and the ground surface with high pressure air, This is also a great advantage.

On the other hand, when the hovercraft function is not used, the skirt valve is shut off, the air supply is cut off, and the skirt is wound on the wire and pulled up to be stored in the receiving space, so that the skirt opening cover is covered and completely aligned with the hull outer wall . After that, it will fly with the function of the jet ski propelled by the air jet injection method again.

As described above, the present invention has been described in the foregoing description and drawings, but the present invention is not limited to the above description and drawings, and various changes and modifications may be made without departing from the technical spirit of the present invention. It is of course possible to change and change.

100: Hull 120: Air pocket section
200: air jet injector 300: skirt

Claims (6)

A hovercraft skirt (300) (skirt) of a flexible fiber is stored in the outer portion of the skirt hull (100) so that the outer wall of the hull can extend outwardly with a predetermined width, The outer wall of the hull 100 can be opened and closed by the skirt accommodating opening 302 so that the hull 100 can be operated in a general jet ski shape and can be operated using a hovercraft function as needed, An air pocket section 120 is formed at the lower portion of the hull to reduce the area of contact with the water surface by floating the hull and forming an air layer between the water surfaces, The edge projecting portion of the bottom surface of the hull is constructed so as to form a triangular-shaped oblique surface, and when the ship is advanced, An air jet injector 200 is installed at an end of the oblique surface to push the water surface at the lower end of the hull by an air jet flow jetted at a high pressure to obtain propulsion force The jet lubrication system according to claim 1, wherein the air jet airflow is jetted along a rear oblique plane so as to perform an air lubrication function for eliminating a frictional force between the hull and the water surface to improve the propulsive force of the hull. An air jet injector 200 includes a body 202, an interlock 204 and an injection nozzle 206. The body of the air jet injector is fixed to the lower end of the hull, And the hydraulic motor is driven by a hydraulic cylinder or a hydraulic motor attached to the hull of the air jet injector, When using a raised feature rafts hull and the surface of the water or air jet propulsion of the jet ski, characterized in that is configured to match the spacing of the ground it makes it possible to convert the moving air jet blowing force to effectively speed downward. delete delete delete delete The air jet spraying apparatus according to claim 1, wherein the inter-working space of the air jet spraying apparatus is composed of two different shafts and is connected to an end air jet spraying nozzle, and the interlocking movement is performed by a hydraulic cylinder or a hydraulic motor. When using the hovercraft function, the air jet nozzle faces downward and the direction of the nozzle aligned with the hull is at a constant angle Wherein the jet is directed toward the water surface or the ground gradually.

Images