KR101398784B1 - Leasure boat using solar energy and wind energy - Google Patents

Abstract

The present invention relates to a leisure boat comprising: a hull for receiving passengers; a roof separated from the hull at a predetermined distance to be arranged above the hull; a solar cell mounted on the top of the roof; a mast vertically penetrating the roof; upper and lower booms horizontally arranged in the mast; and a sail arranged between the upper and lower booms. The mast comprises: a first member having one end installed in the hull to be rotated and the other end penetrating the roof; and a second member received inside the first member to be vertically slid. The present invention can be sailed by environmentally friendly energy as driving force while simultaneously using solar energy and wind energy. In the present invention, a solar cell module mounted on the boat is arranged throughout the very wide area of the top of the hull. Also, the present invention can produce enough energy by rotation, such as tilting and provides a steering unit for efficiency using wind power and making a user easily steer the sail.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a leisure vessel using solar power and wind power,

The present invention relates to a leisure vessel, and more particularly, to a leisure vessel equipped with a solar cell and a sail to obtain a driving force of a ship by simultaneously using wind power generated by a sail together with electric energy produced in a solar cell.

Generally, boat refers to a power line using a relatively lightweight small sailboat or engine specially designed for leisure activities such as sports or leisure, and its shape includes hull, mast, Boom, rigging, sail, rudder, and the like. Here, the hull forms the main body of the yacht. Normally, the front part of the hull is referred to as a bow, the rear part is referred to as a stern, and the central part of the hull is referred to as a midship.

The mast and the boom serve to fix the sails and maintain their shape. The mast is installed perpendicular to the hull and the boom is installed horizontally with respect to the mast to support the bottom of the sail.

On the other hand, small-sized leisure boats or ships are powered by engines using petroleum energy. The use of these engines not only causes a lot of noise and vibration, but also causes fuel costs and environmental problems according to high oil prices.

In recent years, the development of technologies using new and renewable energy has led to research and development of solar-powered vessels around the world. However, since the solar energy utilization figure of the ship being developed is only designed as a power source of a large ship, it is insufficient to use it as a power source, and therefore the actual users of such a ship are very limited. In addition, since the solar power is used only on a clear day, there is a problem that the battery must be charged to an external power source by docking the ship for a long time for a smooth operation. Moreover, when the weather is cloudy, foggy or rainy, solar power can not be expected, so it is impossible to operate.

In addition, related arts have been disclosed in, for example, Japanese Patent Laid-Open Publication No. 10-2006-0031934 (published on Apr. 14, 2006), for example, in which solar cells are used for small ships in the past. In such a case, There is a problem in that the size of the solar cell module can not be installed as much as the required size for the operation, and sufficient power can not be obtained.

Conventionally, there have been many cases in which a small-sized leisure vessel is operated by using a wind power by installing a sail. However, in order to efficiently utilize wind power, a technology capable of efficiently controlling a sail in consideration of wind direction and intensity Was essential. However, there was a problem in that it was not widely available for leisure because there was a disadvantage that a lot of power and skilled skill were required to control such as spreading sail or turning.

An object of the present invention is to provide a leisure vessel capable of operating environmentally friendly energy using a driving force by simultaneously using solar power and wind power,

It is another object of the present invention to provide a mounting method and a form so that the size of a solar cell module mounted on a ship can produce energy required for operation,

It is also an object of the present invention to provide a steering means for efficiently utilizing the force of wind and allowing the user to easily adjust the sail.

The present invention relates to a hull comprising: a hull having a space for accommodating a passenger; A loop disposed on the upper side of the hull at a predetermined distance from the hull; A solar cell mounted on an upper surface of the loop; A mast vertically disposed through the loop; An upper boom and a lower boom provided horizontally in the mast; A sail provided between the upper boom and the lower boom; The mast includes a first member rotatably installed at one end of the hull and a second member penetrating the loop at the other end, and a second member accommodated in the first member so as to be slidable upward and downward And provides a leisure vessel using solar power and wind power.

The loop is supported by a vertical or inclined support column, and a part of the support column has a variable angle of inclination, so that the irradiation angle of the sun to the loop is changeable.

The upper end of the second member of the mast is fixedly connected to the upper boom, and the lower boom is fixedly connected to the first member of the mast.

A rack protrusion formed along a vertical direction in a predetermined region of the outer circumferential surface of the second member; and a pinion which rotates in engagement with the rack protrusion, the second member can be moved up and down by the rotation of the pinion.

The lower part of the mast may further include a hydraulic device that presses the second member to cause the second member to move up and down within the first member.

The mast may further include an outer gear formed on an outer circumferential surface of the first member of the mast and a mast gear adapted to transmit a driving force meshed with the outer gear.

A ballast for adjusting the balance in relation to the solar cell, the mast, the upper boom and the lower boom is provided in the lower part of the hull.

The present invention also provides a hull comprising: a hull having a space for accommodating a passenger; A loop spaced apart from the hull by a predetermined distance and supported by a support column; A solar cell mounted on an upper surface of the loop; A mast vertically disposed through the loop; An upper boom and a lower boom provided horizontally in the mast; A sail provided between the upper boom and the lower boom; A sliding protrusion formed on an upper end of the support column and slidably moving a side surface of the loop; And a guide groove formed on a side surface of the loop for guiding movement of the sliding protrusion, wherein the loop can be raised or lowered in the hull as the sliding protrusion slides on the guide groove To provide a leisure vessel using solar power and wind power.

The present invention also provides a hull comprising: a hull having a space for accommodating a passenger; A loop spaced apart from the hull by a predetermined distance and supported by a support column; A solar cell mounted on an upper surface of the loop; A mast vertically disposed through the loop; An upper boom and a lower boom provided horizontally in the mast; A sail provided between the upper boom and the lower boom; A wheel provided at an upper end of the support column and moving on a side of the loop; And a guide groove formed on a side surface of the loop for guiding movement of the wheel so that the loop can be raised or lowered in the hull as the wheel moves in the guide groove. And a leisure vessel using wind power.

Wherein the mast includes a first member rotatably installed at one end of the hull and a second member penetrating the loop at the other end, and a second member accommodated in the first member so as to be slidable up and down, A rack formed along a vertical direction in a predetermined region of the outer circumferential surface of the second member and a pinion rotating in engagement with the rack so that the second member can be moved up and down by the rotation of the pinion.

According to the present invention, solar energy and wind force can be used simultaneously to drive environmentally friendly energy by driving force. The present invention can be arranged such that a solar cell module mounted on a ship can be spread over a very wide area on the upper part of the ship, Tilting, and the like. Further, the present invention has the effect of providing the steering means so as to efficiently utilize the wind force and to easily adjust the sail by the user.

1 is a perspective view of a leisure vessel using solar power and wind force according to the present invention,
2 shows a sail mounted on a leisure vessel according to the present invention,
3 to 4 show a method of raising and lowering a mast of a leisure vessel according to the present invention,
FIG. 5 shows a method of rotating a mast of a leisure vessel according to the present invention,
6 shows the manner in which the roof of a leisure vessel according to the present invention is tilted,
Fig. 7 is a view showing a loop of a leisure vessel according to the present invention ascending and descending in a vertical direction.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

FIG. 1 is a perspective view of a leisure vessel using solar power and wind force according to the present invention, and FIG. 2 is a sail mounted on a leisure vessel according to the present invention.

Generally, a ship that obtains propulsive force by using the force of the wind, a mast is placed vertically on the deck near the center of the hull, which is usually called a mast, do.

The recreational craft according to the present invention is characterized in that power is obtained by using solar power and wind force instead of fossil fuel. The specific shape of the vessel is a ship 10 having a space for accommodating a passenger and in the form of a ship, A roof 20 provided substantially horizontally above the hull in a state of being spaced apart from the hull by a predetermined distance, a solar cell 30 installed on the upper surface of the roof to produce electricity using solar energy, And masts 50, 55 to be disposed. And support pillars 40 and 45 for supporting the loop 20 at a predetermined distance from the hull. The two supporting columns located on the front side of the hull are referred to as front supporting columns 40 for convenience's sake and the two supporting columns located behind the hull are referred to as rear supporting columns 45 for convenience's sake.

Since the loops can be installed without limitation on the upper side of the hull, they can be installed over a wide area on the upper side of the hull. Accordingly, since the solar cell provided on the loop can be installed in a sufficient size, there is an advantage that the amount of electricity produced from solar energy can be increased.

The mast is composed of a plurality of members that can be accommodated therein. That is, it may be a shape in which another member, which is accommodated in one cylindrical member and can move up and down, is continuously inserted. In the present embodiment, the mast is composed of two members, a first member 50 and a second member 55, for example.

It is preferable that the first member 50 of the mast has a lower end portion disposed on the hull and an upper end portion disposed through the loop 20, and the hollow portion is substantially cylindrical in shape. To this end, a through hole is formed in the loop so that the first member can pass through.

The second member 55 is accommodated in the inner cylindrical space of the first member 50 and is arranged so as to be slidable in the vertical direction within the first member. As the second member ascends and descends in the vertical direction, a sail connected to the second member can be subjected to a spreading and folding process as described below.

The upper boom (60) and the lower boom (65) are connected substantially horizontally above and below the mast. The upper end of the second member of the mast is fixedly connected to the upper boom, and the lower boom is fixedly connected to the first member of the mast. The upper boom and the lower boom fix the upper and lower parts of the sail 70 while the upper boom and the lower boom are fixed to the mast. An upper part of the mast is provided with a weather vane 80 for indicating the wind direction. The upper boom and the lower boom, and the sails attached to the boom and the lower boom are general techniques, so a detailed description thereof will be omitted.

The second member 55 of the mast according to the present invention is received in the first member 50 so as to be slidable up and down. The user can move the second member up and down This makes it possible to solve the inconvenience caused by the use of a leisure vessel by an ordinary person who is unfamiliar with handling sails. The power required for the driving can be electricity generated by the solar cell 30.

3 to 4 show a method of raising and lowering a mast of a leisure vessel according to the present invention.

3, the sail is folded while the second member 55 moves up and down within the first member 50. As shown in FIG. As the power for moving the second member 55 up and down, hydraulic pressure or air pressure can be used. That is, a hydraulic device or a compressor (not shown) for generating compressed air is provided at a predetermined position of the hull, and the second member can be pushed upwards inside the first member by using hydraulic pressure or compressed air generated therefrom .

4, a rack protrusion 55a is formed on the outer circumferential surface of the second member 55 along the longitudinal direction, and a pinion 55b engaged with the rack protrusion 55a is provided do. As the pinion rotates in the forward and reverse directions by the external power unit, the second member linearly moves in the vertical direction.

FIG. 5 shows a method of rotating a mast of a leisure vessel according to the present invention.

A mast rotating gear 90 is disposed on the outer circumferential surface of the first member 50 of the mast according to the present invention. The mast rotating gear 90 is disposed on the outer circumferential surface of the first member 50, . Therefore, when it is necessary to rotate the sail in consideration of the wind direction, the mast must be rotated. At this time, when the rotational force produced by the power means such as a motor is transmitted to the mast rotary gear 90, It will be possible to do.

According to the present invention, since the mast can be easily rotated by the above-described structure, the user who uses the ship can easily control the sail by controlling the mast rotary gear using the control rod as necessary. Therefore, even when the sail is not handled well, the sail can be adjusted relatively easily when using the leisure vessel according to the present invention, and the power required for the driving is advantageous in that the electricity produced by the solar cell 30 can be used Occurs.

In addition, in the case of a ship, it is important to maintain the balance of the ship. In the present invention, a ballast for balancing is arranged in the lower part of the hull in relation to the solar cell, the mast, the upper boom and the lower boom.

FIG. 6 illustrates a method of tilting a loop of a leisure vessel according to the present invention, and FIG. 7 illustrates a loop of a leisure vessel according to an embodiment of the present invention.

Between the roof 20 and the hull 10 of the leisure vessel according to the present invention, two front supporting columns 40 for supporting the loop from the front and two rear supporting columns 45 for supporting the rear of the hull are provided .

6 is a schematic view showing only a part of the structure of the leisure vessel according to the present invention in order to show a state in which the roof of the leisure vessel is tilted. The lower support 40a of the front support column 40 at the front of the loop 20 is fixed to the hull 10 and the upper end of the front support column 40 is coupled to the loop 20 by means of the shaft 40b, It is possible to rotate by a certain angle. The lower end of the rear supporting column 45 at the rear of the loop 20 is coupled to the hull 10 at a predetermined angle using a shaft 45a and a sliding protrusion 45b Respectively. Further, a guide groove 25 for guiding the sliding of the sliding protrusion 45b is formed on the side surface of the loop 20.

6, when the rear supporting column 45 rotates counterclockwise about the shaft 45a at the lower end, the sliding protrusion 45b moves along the guide groove 25, As shown in the lower figure. By tilting the loop, it is possible to change the direction of the solar cell according to the angle of the sun irradiated to the solar cell, and the user can be more satisfied by tilting the roof as needed.

7 shows a structure in which the roof 20 can be lowered as a whole as well as the tilting of the roof 20 as an embodiment different from that shown in Fig.

The lower end of the front supporting column 40 at the front of the roof 20 is rotatably coupled to the hull 10 at a predetermined angle using a shaft 40a and a sliding protrusion 40b, And a guide groove 25 for guiding sliding of the sliding protrusion 40b is formed on a side surface of the loop 20. [ The rear support column 45 at the rear of the roof 20 is also rotatably coupled to the hull 10 at a predetermined angle by using a shaft 45a at the lower end thereof and a sliding protrusion 45b, And a guide groove 25 for guiding sliding of the sliding protrusion 45b is formed on a side surface of the loop 20 in a similar manner.

In the present embodiment, as the front supporting column 40 and the rear supporting column 45 are all turned, the loop 20 can be lowered as a whole. Also, although not shown in the drawing, it is also possible to tilt the loop to the opposite shape as shown in FIG. 6 by rotating only the front support column 40 and placing the rear support column 45 in an upright position .

In the above embodiment, a sliding protrusion is formed at the upper end of the support column for tilting the loop. However, the present invention is not limited to this. The upper end of the support columns 40, A wheel may be attached and the wheel or the wheel may be moved in rolling contact with the inside of the guide groove.

Since the loop of the leisure vessel according to the present invention can be raised or lowered in the hull and can be tilted in a desired direction, it is possible to change the direction corresponding to the sun angle irradiated to the solar cell embedded in the loop There is an advantage in that the user can be more satisfied by tilting the loop as needed.

According to the present invention, solar energy and wind force can be used simultaneously to drive environmentally friendly energy by driving force. The present invention can be arranged such that a solar cell module mounted on a ship can be spread over a very wide area on the upper part of the ship, Tilting, and the like. Further, the present invention has the effect of providing the steering means so as to efficiently utilize the wind force and to easily adjust the sail by the user.

Claims (11)

A hull with space for receiving passengers;
A loop disposed on the upper side of the hull at a predetermined distance from the hull;
A solar cell mounted on an upper surface of the loop;
A mast vertically disposed through the loop;
An upper boom and a lower boom provided horizontally in the mast;
A sail provided between the upper boom and the lower boom;
In the mast,
And a second member (55) housed in the first member so as to be slidable in an up-and-down direction. The first member (50) has one end rotatably mounted on the hull and the other end passing through the loop ,
An upper end of the second member of the mast is fixedly connected to the upper boom,
The lower boom is fixedly connected to the first member of the mast,
A rack protrusion 55a formed along a longitudinal direction in a predetermined region of the outer circumferential surface of the second member and a pinion 55b rotating in engagement with the rack protrusion,
And the second member is moved up and down by rotation of the pinion. The method according to claim 1,
The loop is supported by vertical or inclined support pillars,
Wherein a part of the support column is variable in angle of inclination so that the irradiation angle of the sun can be changed to the loop. delete delete The method according to claim 1,
And a hydraulic device for pressing the second member to cause the second member to ascend and descend within the first member at a lower portion of the mast. The method according to claim 1,
An outer peripheral gear 58 formed on an outer peripheral surface of the first member of the mast;
And a mast rotary gear (90) for transmitting a driving force in engagement with the outer gear (58)
And the rotation angle of the first member (50) is adjusted by rotation of the mast rotary gear (90). The method according to claim 1,
And a ballast for controlling the balance in relation to the solar cell, the mast, the upper boom and the lower boom is provided in the lower part of the hull. A hull with space for receiving passengers;
A loop spaced apart from the hull by a predetermined distance and supported by a support column;
A solar cell mounted on an upper surface of the loop;
A mast vertically disposed through the loop;
An upper boom and a lower boom provided horizontally in the mast;
A sail provided between the upper boom and the lower boom;
A sliding protrusion formed on an upper end of the support column and slidably moving a side surface of the loop; And
And a guide groove formed on a side surface of the loop for guiding movement of the sliding protrusion,
Wherein the loop can be raised or lowered in the hull as the sliding protrusion slides on the guide groove. A hull with space for receiving passengers;
A loop spaced apart from the hull by a predetermined distance and supported by a support column;
A solar cell mounted on an upper surface of the loop;
A mast vertically disposed through the loop;
An upper boom and a lower boom provided horizontally in the mast;
A sail provided between the upper boom and the lower boom;
A wheel provided at an upper end of the support column and moving on a side of the loop; And
And a guide groove formed on a side surface of the loop for guiding movement of the wheel,
Wherein the loops can be raised or lowered in the hull as the wheel moves in the guide grooves. 10. The method according to claim 8 or 9,
In the mast,
A first member rotatably provided at one end of the hull and rotatably installed at the other end of the hull, and a second member accommodated in the first member so as to be slidable up and down. Leisure vessel using. delete

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