KR20200068597A - The battery charging device for Vehicles - Google Patents

Abstract

The present invention relates to a battery charging device for vehicles which vertically takes off and lands by a taking off and landing method of a conventional drone during taking off and landing, and forms a wing portion, on which a solar cell plate is attached, with a folding method at a certain altitude to unfold the solar cell plate by using a sub motor which is a driving means and supply electricity to a motor while charging a secondary battery by a solar cell so as to fly by rotating a propeller. Moreover, the propeller of the drone rotates 90 degrees by using the sub motor which is the driving means in a conventional propeller to become an advance type, or the propeller is formed by being integrated with the motor on one side of the solar cell plate to allow a cross-section of a folding plate formed with the solar cell plate to be convexly formed upward so that the folding plate formed with the solar cell plate has a lift force by Bernoulli′s law.

Description

The battery charging device for vehicles

The present invention relates to a battery charging device for a moving vehicle, and more specifically, a solar panel is formed on one side of a wing that is folded and unfolded by a hinge coupling, and is installed on a drone, a ship, an electric bicycle, an electric kickboard, and a vehicle, and photovoltaic. It relates to a battery charging device for a vehicle that can be used by converting energy into electrical energy.

The background technology of the present invention is a folding solar cell and a wing to which Bernoulli's theorem is applied.

A solar cell is a device that converts solar light into electrical energy. It is already an old technology for cars to run on the road and boats to cross the sea using these devices.

Yuwanori Kuwano, who wrote a book called What is a Solar Cell in the Why Books series, succeeded in crossing the North American continent with an airplane made in 1990 using a flexible amorphous silicon solar cell. Flexible means that you can bend and unfold freely, and amorphous means that you are amorphous (a substance that is not a crystal). The development of such a solar cell makes it possible to develop an ultra-light and high-performance solar cell.

The airplane developed by Kuwano was designed on the basis of a man-powered airplane (a light aircraft that flies on the pedals with the power of a person), so it has a light weight. The total length of the body of the airplane was 7m and the width of the main wing was 17.5m. Most of the cockpits were made of hard and light carbon fiber, except for using glass fibers in a part of the cockpit. Here, only 1.5 kg of flexible amorphous silicon solar cells are attached.

The plane was named Dandelion Lake (Sun Seeker in English). The battery had a capacity capable of supplying a current of 20A to the motor for about 10 minutes. In the meantime, the Dandelion Lake takes off and rises from an altitude of 100 m to 300 m, then slowly rotates using the energy produced by the solar cell and rises from 600 m to 4,000 m in an ascending air stream. After that, you go straight down the altitude and fly in the sky again.

On July 16, 1990, when the propeller returned under the power of solar energy, the plane gradually began to run the runway of the California Dessert Center. And the propeller's propulsion increased lightly. When it climbed about 200m, Dandelion Lake flew vigorously like a swan in a strong ascent. It was a success! On that day, Dandelion Lake flew about 400 km from the Dessert Center to Arizona.

The Dandelion flight also departed from Wilcox, Arizona, on August 4, and successfully arrived in Kitty Hawk, North Carolina, on September 3, making its second flight. The total flight distance was 4,000 km. The highest altitude of the solar cell airplane was 3,900 m, and the flight time was 7 hours and 35 minutes, which was a new world record.

It may have been a reckless attempt to cross the American continent with energy from solar cells. However, it was able to succeed in the production of an airplane based on the performance and new materials of the newly developed ultra-light amorphous silicon solar cell. The Kitty Hawk, settled by the Dandelion Lake, was even more meaningful because the Wright brothers were the first humans to fly in power in 1903.

Recently, a solar cell has been developed that is as thin as one-halfth the thickness of human hair and as light as one-twentieth the weight of A4 paper. The solar cell, developed by Vladimir Bulovich's team at the University of Massachusetts, USA, is the thinnest and lightest solar cell ever developed.

Conventional solar cells are heavy and hard because they are usually made on a glass substrate. So it was difficult to use it in various ways in real life. The substrate is made of light and soft plastic material, but the plastic has many scratches on the surface, so the performance of the solar cell is poor.

The research team succeeded in creating a light, thin and high-performance solar cell using a material called Paraline C. Paralin C is a material used to coat electronic products or machinery, and serves to prevent moisture and dust from the outside. The research team observed that the surface of Paralin C was smoother than other plastics using a microscope, and used it to make a solar cell with a thickness of 2 μm (micrometer. 1 μm is 1 millionth of a meter). As a result of actual experiments, this solar cell showed almost the same performance as a conventional solar cell made of glass.

Prof. Blowich said the solar cell could be applied to clothes and household items, so it could be used in various fields.

Solid rocket booster

After 120 seconds of takeoff, the SRB separates from 47,000 meters and the spacecraft flies on its own power. A breathtaking moment for rocket scientists, the spacecraft now flies into orbit and SRB reenters the Earth's atmosphere. Diving from space to Earth at a high altitude of 400 kilometers per hour, free fall for 153 seconds. At such speeds, the sea level will feel as hard as concrete. Therefore, the parachute is unfolded to reduce the rocket's falling speed to 80 kilometers per hour. Captains and crews who will pull them out of the sea for recycling wait while tracking the rocket. SRB's re-entry into the atmosphere is as exciting as launch for them. With a tumultuous landing, a diving team is dispatched to SRB 1, which has been acquired at sea at high speed, and the status of the SRB soaring above the water surface, such as an iceberg, is checked.

In order to solve the problems of the prior art as described above, the present invention functions as a transportation means in which a drone carries or moves a courier or a person as a transportation means. Since there are problems and difficulties in long-distance transportation, it is intended to provide sufficient electric charging devices and methods for long-distance movement of drones, ships, electric bicycles, electric kickboards, and automobiles.

Also, in the case of solar impulse, which will fly by charging the secondary battery with the solar cell,

If you look at it, the wings are formed to be very long, which can cause the aircraft to weigh too much. The challenge is to popularize airplanes flying with solar cells.

The present invention to solve the above problems

Among the takeoff and landing methods of drones and drone-type aircraft, the wings attached to the solar panel can be folded or folded by hinges to take off and land vertically.

In the battery charging device for a vehicle for which a solar panel is attached to a blade in a manner in which the nodes are sequentially expanded at the beginning of the wings and folded to the beginning of the expanded wings,

Using a servo motor that is a driving means disposed on one side of the wing, the solar panel is unfolded as the wing is unfolded,

The solar panel supplies electricity to the sub-motor while charging the secondary battery provided on one side of the sub-motor, so that the propeller connected to the sub-motor rotates to fly,

The propeller is to provide a battery charging device for a moving means, characterized in that it rotates 90 degrees using a servo motor as a driving means to become a forward type.

In addition, in the battery charging device for a vehicle, the folding that connects the node of the solar panel to the hinge, or the node is sequentially opened at the beginning of the wing, and the opened wing is folded back to the beginning of the wing. A solar panel is attached to the wing and is formed on one side of the ship,

At the beginning of the wing, the solar panel is opened and folded on one side of the ship so that it folds and folds, and when entering, the solar panel is folded, and when charging is required in a large space after departure, the solar panel is unfolded. In the battery charging device for a vehicle to enable,

The sub-motor, which is a driving means disposed on one side of the wing, expands the solar panel according to the unfolding of the wing, and the secondary battery provided on one side of the sub-motor is charged to supply electricity to the ship,

At the end of the unfolded solar cell, a buoyancy means toward the water surface may be formed to support the weight of the solar cell.

In addition, in the battery charging device for a vehicle, a drone formed inside the rocket booster is provided when it is formed and recovered inside the rocket booster, and one or more joints or arms formed by folding are extended, and the arm A propeller is formed on one side so that the cover is formed so as not to receive air resistance on the outside of the drone.

The rocket booster is formed inside the rocket booster and when recovered, it is formed inside the rocket booster.

During takeoff and landing, take off and land vertically using the traditional drone takeoff and landing method.

It is formed on the inside of the rocket booster, or it is a folding that connects the node of the wing that attaches the solar panel by the hinge.

The beginning of the original wing is formed and the nodes are sequentially from the beginning.

It is formed by folding, such as folding, which is stretched in a stretched manner and folded to the original beginning of the wing.

Using a servo motor as a driving means, expand the solar panel and charge the secondary battery by the solar cell, supply electricity to the motor, rotate the propeller to fly,

The propeller is rotated 90 degrees using a servo motor to form a forward type or a propeller in which a motor and a propeller are integrated on one side of the solar panel, and the folding plate on which the solar panel is formed is convex, and lift is generated by Bernoulli's principle. It can be characterized by.

In addition, in the battery charging device for a vehicle, one or more folding arms are formed on one or more sides of an electric bicycle, an electric kickboard, an electric wheel, or a bicycle, and a propeller is formed at the ends thereof, so that the folding arms are lifted during takeoff and flight. In the battery charging device for a vehicle that opens and rotates the propeller to take off and fly,

At the beginning of the wing, the nodes are sequentially opened, and the wings are folded back to the beginning of the wings, where a solar panel is attached to the wing or a folding solar panel is formed, such as an electric bicycle, an electric kickboard, an electric wheel, or one side of a bicycle. It is formed above, and when it reaches a certain altitude by taking off, it can be characterized by spreading the wings on which the solar panel or the solar panel is formed, charging the secondary battery by the solar cell, supplying electricity to the motor, and rotating the propeller to fly. .

In addition, in the battery charging device for a vehicle, the portion where sunlight enters the upper portion of the hot air balloon is formed of a transparent material, and the lower portion is formed of a material such as black that can absorb and radiate sunlight well. One or more vents are formed to discharge the electricity. During sunlight, electricity is charged to the secondary battery by a solar cell or a control back element, and heating means such as a Peltier element at a time when sunlight is not emitted by the secondary battery. It is heated through to supply hot air into the hot air balloon, and on one side of the hot air balloon is formed a motor 30 and a propeller, or a cylinder 25 into which the motor and the propeller, the motor and the propeller enter, and the motor 30 and the propeller, or the motor And a propeller, a motor, and a cylinder in which a propeller enters can be rotated 360 degrees by a servomotor 15 or a stepper motor formed at the bottom thereof, such that the motor 30 and the servomotor 15 or a stepper motor rotate. Hot air balloon using the greenhouse effect, characterized in that is operated by the radio control

A foldable solar panel or a foldable solar panel wing is formed, and when taking off, it takes off only by the greenhouse effect, or by a motor and a propeller, or by a greenhouse effect and a motor and a propeller. It is a fold that is connected by

Folded solar panel or foldable solar panel is formed by folding the folding solar panel or the folded solar panel to open the solar cell. It can be characterized by supplying electricity to a thermoelectric element or a propeller to a hot air balloon using the greenhouse effect while charging the secondary battery.

In addition, in the battery charging device for a vehicle, the wing portion to which the solar panel is attached is formed to be foldable, and the folding and unfolding expression in which the nodes of the solar panel are connected by a hinge or the node to the beginning of the wings are sequentially The solar cell formed at the end of the fan is opened and folded, and the center of the fan that is folded is moved from the center of the air vehicle and the fan is exposed to the outside. When the solar cell is unfolded, the fan-shaped center moves to the center of the air vehicle and the fan-shaped fan spreads out, and when folded, the fan-shaped fan-folded fan-shaped fan-folding moves from the center of the aircraft to the outside. It can be characterized in that the fan shape is not exposed.

In addition, in the battery charging device for a vehicle for transportation, a foldable solar panel rotating part is formed on a roof panel of a vehicle, the solar panel is folded in response to one-way rotation of the rotating part, and when folded forward, the folded part faces the front side, and is parked. The rotating part rotates in the other direction so that the folded part is stretched toward the side to charge, and is formed to cover the window of the car.

The rotating part may be characterized in that the fixing part is formed such that the folding solar panel faces the front or side of the vehicle.

In addition, in the battery charging device for a vehicle, the folding that connects the node of the solar panel to the hinge, or the node is sequentially opened at the beginning of the wing, and the opened wing is folded back to the beginning of the wing. A solar panel is attached to the wing and is formed on one side of the ship,

At the beginning of the wing, the solar panel is opened and folded on one side of the ship so that it folds and folds, and when entering, the solar panel is folded, and when charging is required in a large space after departure, the solar panel is unfolded. In the battery charging device for a vehicle to enable,

At least one support of one or more solar panels is formed at the bottom of the solar panel, and at the end of the support, wheels are formed or wheels are formed integrally with an electric motor to form a number of solar panels with support, which are opened and closed by opening and closing. It can be characterized by being closed.

In addition, in the battery charging device for a vehicle for transportation, a rail may be formed on one side of a hull such as a deck at the bottom of the wheel.

In addition, in the battery charging device for the vehicle, the submarine or drone submarine is connected by a connecting means with a submarine when it is submerged or not, and is driven by a submotor driving means that floats on the surface by buoyancy means. It may be characterized in that a folding and unfolding foldable solar panel is formed.

In addition, in the battery charging device for the vehicle, the folding solar panel that is folded and unfolded by the driving means of the sub-motor connected by the connecting means with the submarine and floated on the surface by the buoyancy means has one or more motors. It can be characterized in that the thrust generating device is formed.

In addition, in the battery charging device for a moving vehicle, the drive is folded and unfolded by a driving means such as a sub-motor that floats on the surface by buoyancy means, such as when a submarine or a drone submarine dives or does not dive. The foldable solar panel is formed by thrust generating device by one or more motors, and is characterized in that the secondary battery of the submarine is wirelessly charged to the submarine by the foldable solar panel and the ultrasonic wireless power transmitting and receiving device formed in the submarine. can do.

In addition, in the battery charging device for a vehicle for transportation, instead of a drone arm and a propeller integrated with a motor, a folding blade is formed, a hole is formed on one side of the folding blade, a motor and a propeller are formed inside the hole, and the portion outside the hole is a solar cell It may be characterized in that to be attached.

In addition, in the battery charging device for a vehicle, a folding blade is formed instead of a propeller integrated with a drone arm and a motor on one side of an electric bicycle, an electric kickboard, an electric wheel, or a bicycle, and a hole is formed on one side of the folding blade. A motor and a propeller are formed inside the hole, and a portion of the outside of the hole may be characterized in that a solar cell is attached.

In addition, in the battery charging device for a moving means, the buoyancy means is formed with a support for the solar cell so as to be positioned at an appropriate height above the water surface at the end of the solar cell, and at the bottom of the support so as to be positioned at an appropriate height above the water surface. It can be characterized in that the buoyancy means is formed.

In addition, in the battery charging device for a moving means, a hydrofoil-type plate is formed at the lower portion of the buoyancy means so that the end of the solar panel rises to a certain height when the ship speeds integrally with the support, regardless of the waves below the water surface. It may be characterized in that the angle adjustment means is formed to adjust the angle of the hydrofoil-type plate so that the end of the solar cell is maintained at a constant height.

In addition, in the battery charging device for a moving means, the buoyancy means is formed with a support for the solar cell so as to be positioned at an appropriate height above the water surface at the end of the solar cell, and at the bottom of the support so as to be positioned at an appropriate height above the water surface. It can be characterized in that the buoyancy means is formed.

In addition, in the battery charging device for a vehicle, it may be characterized in that at least one support is formed on one side of a deck of an LNG carrier to form a roof panel of a solar panel on the support, thereby forming a solar panel on top of the roof panel. have.

In addition, in the battery charging device for a moving means, the propeller may include a charging means on one side, and may store energy obtained by rotation of the propeller in the charging means.

In addition, in the case of the solar impulse, in which the secondary battery is charged and flying, the wings are formed to be extremely long, which causes the weight of the aircraft to go out excessively. Since a light solar cell is commercially available, it is a function for charging separately from the function of the wing. If a thin and light material plate is formed and attached separately, the airplane flying with the solar cell can be popularized.

Even if the solar cell is made as long as the wing of an airplane, even if the solar cell is folded 9 times by 1m, if the weight of the solar cell is made to be 18m by 9m by 9m on the left and right, it is only about 1.5kg long. It has the advantage of being able to fly the distance.

In addition, the battery charging device for the moving means is installed on the moving means desired by the user to prevent discharge during long-distance movement, so that it can move for a long time.

1 is a perspective view of the present invention.
2 is a perspective view of a battery charging method in a ship.
3 is another perspective view of the present invention.
4 is another perspective view of the present invention.
5 is another perspective view of the present invention.
6 is another perspective view of the present invention.
7 is another perspective view of the present invention.
8 is another perspective view of the present invention.
9 is another perspective view of the present invention.
10 is a perspective view of a foldable solar panel with wings attached to a hot air balloon using the greenhouse effect.
11 is a perspective view of a foldable solar panel with wings attached to a hot air balloon using the greenhouse effect.
12 is a plan view seen from above of a robot bird on which a collapsible solar cell is formed.
13 is a cross-sectional view of a robot bird in which a collapsible solar cell is formed.
14 is a perspective view of a fan with a fan-shaped folding solar panel formed on a hot air balloon using the greenhouse effect.
15 is a perspective view of a fan with a fan-folded solar panel formed on a hot air balloon using the greenhouse effect.
16 is a perspective view of a foldable charging device for a vehicle in a folded state.
17 is a perspective view of a foldable charging device for a vehicle in an unfolded state.
18 is a perspective view of a folded state of the battery charging device of the submarine of the present invention.
19 is a perspective view of an unfolded state of the battery charging device of the submarine of the present invention.
20 is a perspective view of a folded state of the battery charging device of the ship of the present invention.
21 is a perspective view of an unfolded state of a battery charging device for a ship of the present invention.
22 is another embodiment of the folded state of the battery charging device of the ship of the present invention.
23 is another perspective view of the unfolded state of the battery charging device of the ship of the present invention.
24 is another embodiment of the folded state of the battery charging device of the ship of the present invention.
25 is another perspective view of the unfolded state in which the hydrofoil of the battery charging device of the ship of the present invention is formed.
26 is another embodiment in which a solar cell is formed on a roof panel of a battery charging device of a ship of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail preferred embodiments that can be easily carried out by the person of ordinary skill in the art. However, in the detailed description of the operating principle for the preferred embodiment of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

Hereinafter, a battery charging device for a vehicle according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1, the battery charging device for a vehicle according to a preferred embodiment of the present invention is attached to the solar panel to take off and land vertically among the take-off and landing method of the drone or drone-type aircraft that can be boarded It is a fold that is connected by hinges to the wings.

In the battery charging device for a vehicle for which a solar panel is attached to a blade in a manner in which the nodes are sequentially expanded at the beginning of the wings and folded to the beginning of the expanded wings,

Using a sub-motor as a driving means arranged on one side of the wing, the solar panel is unfolded as the wing is unfolded,

The solar panel supplies electricity to the sub-motor while charging the secondary battery provided on one side of the sub-motor, so that the propeller connected to the sub-motor rotates to fly,

The propeller may be characterized in that it rotates 90 degrees by using a servo motor as a driving means to become a forward type.

In other words, during take-off and landing, take off and land vertically using the conventional drone take-off and landing method, and when a certain height is reached, the solar panel is unfolded and the solar cell is charged with a battery to supply electricity to the motor to rotate the propeller to fly.

Alternatively, the propeller is formed on the top of the wing using Bernoulli's theorem, and rotated 90 degrees using a driving means to become an advanced wing, and a solar cell is formed on the top of the advanced wing.

2 is a perspective view of a battery charging method for a ship in a battery charging device for a vehicle according to another preferred embodiment of the present invention.

The solar panel is formed by folding and formed on one side of the ship. When entering, the folding solar cell is folded, and after departure, the folding solar cell is unfolded in a certain large space. At this time, the solar panel is unfolded using the servo motor as the driving means, and the secondary battery is charged by the solar cell to supply electricity to the ship.

In addition, a support is formed at the end of the unfolded solar cell, and a buoyancy means is formed at the end of the support so that it can support the weight of the solar cell.

That is, the buoyancy means is that the support of the solar cell is formed to be positioned at an appropriate height above the water surface at the end of the solar cell, and the buoyancy means is formed at the bottom of the support so that it can be positioned at an appropriate height above the water surface.

In addition, at the bottom of the buoyancy means, a hydrofoil-type plate is formed so that the end of the solar panel rises to a certain height when the ship speeds integrally with the support, but the end of the solar cell is maintained at a constant height regardless of the waves below the water surface. The angle adjustment means is formed so that the angle of the hydrofoil type plate is adjusted as much as possible.

In addition, the buoyancy means is that the support of the solar cell is formed to be positioned at an appropriate height above the water surface at the end of the solar cell, and the buoyancy means is formed at the bottom of the support so that it can be positioned at an appropriate height above the water surface.

In addition, the solar panel may be attached to one side of the hull, and the portion where the unfolding starts to rise and fall.

In addition, a support for one or more folding solar panels is formed under the solar panels. In addition, a wheel is formed at the end of the support or a wheel is formed in which the electric motor is integrally formed to move.

In addition, a rail is formed on one side of a hull such as a deck at the bottom of the wheel.

An electric ship operated by such a solar cell can enable long-distance operation with only a solar cell without a single drop of fuel.

In addition, by the existing ship using fossil fuel, it is possible to completely prevent the risk of contamination by oil in the port, etc., and also to eliminate the risk of oil spill accident of the ship.

On the other hand, the battery charging device for a vehicle according to another preferred embodiment of the present invention forms one or more supports on one side of the deck of an LNG carrier to form a roof panel of a solar panel on the support, thereby forming a solar panel on top of the roof panel. It can be characterized by forming.

3 to 5 are perspective views showing still another embodiment of the present invention.

When it is formed inside the rocket booster and is recovered, a drone formed inside the rocket booster is provided, and one or more joints or arms formed by folding are unfolded, and a propeller is formed on one side of the arm. In the battery charging device for a vehicle characterized in that the cover is formed so as not to receive air resistance on the outside of the drone formed in, the rocket booster is formed inside the rocket booster and is formed inside the rocket booster when it is recovered, so as to take off and land In the city, it takes off and lands vertically using the conventional drone take-off and landing method, and is formed by folding inside the rocket booster and attaching the solar panel to the node by the hinge, or the beginning of the original wing is formed. Nodes are formed by folding, such as folding, where the nodes are stretched sequentially at the beginning and folded to the original beginning of the wings to expand the solar panel using the servo motor as the driving means and charge the secondary battery by the solar cell. While supplying electricity to the motor, rotate the propeller to fly, form a propeller in which the motor and the propeller are integrated on one side of the solar panel, and the folding plate on which the solar panel is formed is convex so that lift is generated by Bernoulli's principle. In this case, the foldable plate convexly formed by the driving means rotates 90 degrees to become an advanced propeller and fly with the lift by Bernoulli's theorem.

6 and 7 are perspective views showing still another embodiment of the present invention.

One or more folding arms are formed on one or more sides of an electric bicycle, electric kickboard, electric wheel, or bicycle, and a propeller is formed at the end thereof. During takeoff and flight, the folding arms are extended and the propeller is rotated to take off and fly. In the battery charging device for a vehicle,

At the beginning of the wing, the nodes are sequentially opened, and the wings are folded back to the beginning of the wings, where a solar panel is attached to the wing or a folding solar panel is formed, such as an electric bicycle, an electric kickboard, an electric wheel, or one side of a bicycle. It is formed above, and when it reaches a certain altitude by taking off, it can be characterized by spreading the wings formed with the solar panel or the solar panel and charging the secondary battery by the solar cell to supply electricity to the motor and rotate the propeller to fly. .

In addition, a folding blade is formed instead of a propeller integrated with a drone's arm and a motor on one or more sides of an electric bicycle, electric kickboard, electric wheel, or bicycle, a hole is formed on one side of the folding blade, and a motor and propeller are formed inside the hole. The portion outside the hole may be characterized in that the solar cell is attached.

8 and 9 are perspective views showing still another embodiment of the present invention.

Drones are attached to the body of a person or a companion animal by forming a harness that is attached to the body of the person or a companion animal, and a drone is formed with a propeller at the end of the arm, but the arm is folded and formed inside the body. One side of the body of the aircraft having a harness, which is characterized in that it is folded or unfolded inward or outward after being sent in and out, is a folding solar panel or a folding solar panel wing other than a folding propeller type.

The main body itself is formed with a servo motor 15 and an arm type panel 32 capable of rotating the main body up and down around the upper part, and also a servo motor 15 and an arm type panel ( The servo motor 15 and the arm type panel 32 which can rotate the servo motor 15 and the arm type panel 32 up and down are also formed on the lower part of the lower part 32. Allow the drone to be vertical or horizontal to the ground, or to adjust the rotary vane at different angles for flight

Conversely, the main body itself is formed with a servo motor 15 and an arm type panel 32 capable of rotating the main body up and down around the lower part, and also a servo motor 15 and an arm type panel. Servo motor 15 and arm type panel 32 that can rotate the servo motor 15 and the arm type panel 32 up and down are also formed at the upper part of the upper part of the 32. By allowing the drone to be vertical or horizontal relative to the ground, or to adjust the rotary vane at various angles required for flight.

On one side of the body, a folding solar panel or a folding solar panel wing other than a folding propeller type is formed.

10 and 11 are perspective views of a wing with a collapsible solar panel formed on a hot air balloon using a greenhouse effect. A portion in which sunlight enters an upper portion of a heating device is formed of a transparent material, and a lower portion is a black light that can absorb and radiate sunlight well. It is formed of a material, and at the bottom of the hot air balloon, at least one exhaust port capable of discharging heated air is formed, and while sunlight is shining, electricity is charged to the secondary battery by a solar cell or a control back element. By heating through a heating means such as a Peltier element at a time when there is no sunlight, hot air is supplied into the hot air balloon, and on one side of the hot air balloon, a motor 30 and a propeller, or a cylinder (25) containing a motor, a propeller, a motor, and a propeller ) Is formed and the motor 30 is capable of rotating 360 degrees by a servo motor 15 or a step motor, etc., in which a motor 30 and a propeller or a cylinder in which a motor and a propeller and a motor and a propeller enter are formed. ) And the rotation of the servo motor (15) or step motor, etc.

A foldable solar panel or a foldable solar panel wing is formed, and when taking off, it takes off only by the greenhouse effect, or by a motor and a propeller, or by a greenhouse effect and a motor and a propeller, and takes off and hinges a node when it reaches a certain altitude. It is a fold that is connected by

Folded solar panel or foldable solar panel is formed by folding the folding solar panel or the folded solar panel to open the solar cell. It can be characterized by supplying electricity to a thermoelectric element or a propeller to a hot air balloon using the greenhouse effect while charging the secondary battery.

On the other hand, the battery charging device for a vehicle according to another embodiment of the present invention applies the principle and structure of the robot bird as it is to a robot bird that can be burned, but makes the size large enough to be rideable by a person, and its size is large. An air bag is formed in the frame of the robot bird, and the helium or hydrogen gas is filled in the air bag.

There is a ballast tank to improve the resilience of robot birds that store helium gas separately, and helium gas is filled inside the ballast tank, and helium gas is injected through the valve of the ballast tank to fill the air bag or It includes a gas intake compression injection part and an air bag part that can adjust the buoyancy by itself, even without loading cargo by inhaling and compressing the helium gas of the robotic air bag.

The collapsible wing of the robot bird is straightened so that it can be lifted by Bernoulli's theorem, and on one side or more of the robot bird, a cylinder and a motor and a propeller or a motor and a propeller are integrally formed.

The cylinder and the motor and the propeller formed on one or more sides of the robot bird or the motor and the propeller can be rotated vertically or horizontally with respect to the wing by a servo motor or the like.

14 is a perspective view showing a state in which a fan-folded solar panel is formed on a hot air balloon using the greenhouse effect, and FIG. 15 is a perspective view of a state in which a fan-folded solar panel is formed on a hot-air balloon using the greenhouse effect.

The wing part to which the solar panel is attached is formed by folding, and the folding and unfolding expression in which the node nodes of the solar panel are connected by a hinge or the node nodes are sequentially opened at the beginning of the wing and folded to the original starting part of the wing When a fan is formed in a fold or fan shape, the solar cell formed at the end of the fan fan expands in a circular shape and the center of the fan fan that is folded moves from the center of the air vehicle so that the fan is not exposed to the outside and then the fan is unfolded. The center of the vehicle moves to the center of the aircraft, the fan is flat, and the solar panel is unfolded in a circular shape. When folded, it is folded into a fan, so that the center of the folded fan is moved from the center of the aircraft so that the fan is not exposed to the outside. have.

16 is a perspective view of a folded state charging device of a foldable solar cell of a vehicle of the present invention, and FIG. 17 is a perspective view of a charging device in a folded state of a foldable solar cell of a car.

A foldable solar panel rotating part is formed on the roof panel of the vehicle, and the solar panel is folded in response to one-way rotation of the rotating part, so that when folded forward, the folded part faces the front side. It is stretched toward and is charged so that it is formed to cover the window of the car, and the rotating part may be characterized in that a fixed part is formed such that the foldable solar panel faces the front or side of the car.

In addition, a fixed portion is formed on the rotating part so that the foldable solar panel faces the front or side in the case of folding and unfolding.

18 is a perspective view of a folded state of the battery charging device of a submarine of the present invention, and FIG. 19 is a perspective view of a folded state of the battery charging device of a submarine of the present invention.

When a submarine or a drone submarine is submerged or not submerged, it is connected by a connection means with a submarine, and a folding solar panel that is folded and unfolded by a submotor driving means that floats on the surface by buoyancy means is formed. It can be characterized by.

In addition, a thrust generating device by one or more motors may be formed on a folding solar panel that is folded and unfolded by a drive means of a servo motor that is connected by a connection means with a submarine and is floated on the surface by a buoyancy means. .

In addition, when a submarine or a drone submarine dives or does not dive, one or more motors are operated on a folding solar panel that is folded and unfolded by a driving means such as a servo motor that floats on the surface by buoyancy means. The thrust generating device by the back may be characterized in that the secondary battery of the submarine is wirelessly charged to the submarine by means of a folding solar panel and an ultrasonic wireless power transmitting and receiving device formed in the submarine.

The submarine with a foldable solar cell according to the present invention can be supplied with electricity even when diving, and expands and folds the foldable solar cell with buoyancy means on the sea to produce electricity, and then folds the foldable solar cell with buoyancy means in the sea. It is fixed to a fixture fixed to one side of a submarine by means of a thrust generator by a motor and a propeller formed in the battery itself, or by means of connecting and pulling and unwinding.

In addition, one or more cameras are formed toward the underwater air in front, back, left, and right, or are formed as a whole, and one or more are formed as well as periscopes. This operation can be seen through the camera facing from the surface of the water, and if there are other submarines, the submarines on board and other submarines can be simultaneously viewed through the camera on the surface.

20 is a perspective view of a folded state of the battery charging device of the ship of the present invention, and FIG. 21 is a perspective view of an expanded state of the battery charging device of the ship of the present invention.

The solar panel is attached to the side of the ship by attaching the solar panel to the wing of the folding type that connects the node of the solar panel to the hinge, or the node is sequentially expanded at the beginning of the wing, and the expanded wing is folded back to the beginning of the wing. Is formed,

At the beginning of the wing, the solar panel is opened and folded on one side of the ship so that it folds and folds, and when entering, the solar panel is folded, and when charging is required in a large space after departure, the solar panel is unfolded. In the battery charging device for a vehicle to enable,

At least one support of one or more solar panels is formed at the bottom of the solar panel, and at the end of the support, wheels are formed or wheels are formed integrally with an electric motor to form a number of solar panels with support, which are opened and closed by opening and closing. It can be characterized by being closed.

And a rail is formed on one side of the hull such as a deck at the bottom of the wheel.

22 is a perspective view showing another embodiment of the folded state of the battery charging device of the ship of the present invention, FIG. 23 is another perspective view of the opened state of the battery charging device of the ship of the present invention, and FIG. 24 is the present invention Another embodiment of the folded state of the battery charging device of the ship, FIG. 25 is another perspective view of the expanded state in which the hydrofoil of the battery charging device of the present invention is formed, and FIG. 26 is a battery charging device of the ship of the present invention Another embodiment of the solar cell is formed on the roof panel.

27 is that the solar panel in the ship is folded and unfolded by a gas shock absorber or cylinder is formed on one side of the ship

28 is a solar panel at the beginning of the wing in the ship is formed so as to exit or enter from one side of the ship by means of a sliding means.

The battery charging device for a vehicle according to another embodiment of the present invention is a solar cell impulse that is flying by charging a secondary battery with a solar cell has long wings. This can cause the aircraft to weigh too much. Therefore, the wings can be made separately and the solar panel can be formed as a ready-made product with a thickness of about 3 mm.

That is, it is possible to popularize an airplane flying with a solar cell by forming a plate of thin and light material as a function for charging separately from the function of the wings.

The battery charging device for a vehicle according to another embodiment of the present invention can form a propeller in which a motor and a propeller are integrated on one side of a solar panel of an aircraft that can be drone or drone-type or on one side of the aircraft body. have. And it is preferable that the foldable plate on which the solar cell panel is formed is convexly formed upward so that lift is generated by Bernoulli's law.

The battery charging device for a vehicle according to another embodiment of the present invention is formed with a folding wing instead of a propeller integrated with a drone's arm and a motor, a hole is formed on one side of the folding wing, and a motor and a propeller are formed inside the hole. It is preferable that a solar cell is attached to the portion outside the hole.

In addition, a folding wing may be formed in place of a propeller integrated with an arm and a motor of a drone on one side or more of an electric bicycle, an electric kickboard, an electric wheel, or a bicycle. And it is preferable that a hole is formed on one side of the folding wing, a motor and a propeller are formed inside the hole, and a solar cell is attached to the portion outside the hole.

Here, the propeller of the drone or the drone-type aircraft can be advanced by rotating 90 degrees using a servo motor as a driving means from the existing propeller.

In addition, in addition to the drones taking off and landing with a propeller, the aircraft that is flying with lift by Bernoulli's theorem with wings will expand and charge the folding solar panel in addition to the propellers or airplane wings.

On the other hand, the battery charging device for a moving means according to another embodiment of the present invention may further include a charging means.

That is, the propeller is provided with a charging means on one side, it can be characterized in that to store the energy obtained by the rotation of the propeller in the charging means.

1: drone 2: propeller
3: Solar panel
5: Solar panel with folding wings
10: ship 11: folding solar panel
15: arm 20: cover
21: Kickboard 22: Harness
23: robot arm 25: rocket booster to be recovered
30: folding leg 31: hot air
32: transparent hemisphere 33: propeller
35: hole 36: thermoelectric element
50: secondary battery 51: robot bird
52: air bag 53: ballast tank (helium tank)
55: helium gas 60: helium gas entering and exiting
61: valve 62: air bag stretching direction
63: frame rod 65: power unit
80: Boarding 81: Air
82: fan center 83: foldable solar panel rotating part
84: buoyancy means 85: connecting means
86: submarine 87: thrust means
88: camera 89: support
90: roof panel

Claims (20)

Among the takeoff and landing methods of drones and drone-type aircraft, the wings attached to the solar panel can be folded or folded by hinges to take off and land vertically.
In the battery charging device for a vehicle for which a solar panel is attached to a wing of a method in which the nodes are sequentially expanded at the beginning of the wings and folded to the beginning of the expanded wings,
The solar panel is unfolded by spreading the wings by using a driving means arranged on one side of the wing,
The solar panel is a battery charging device for a moving vehicle, characterized in that while charging a secondary battery provided on one side of the driving means, the propeller connected to the motor is rotated or electricity is supplied to the driving means that expands the solar panel. It is a folding that connects the node of the solar panel to the hinge, or one solar panel at the beginning of the wing is formed to slide out or enter from one side of the ship by a sliding means, or one or more node nodes are sequentially The unfolded, unfolded wing is attached to the wing of the way that is folded back to the beginning of the wing and is formed on one side of the ship by attaching a solar panel,
The folding and unfolding of the solar panel by a gas shock absorber or cylinder is formed on one side of the ship,
At the beginning of the wing, the solar panel is opened and folded on the side of the ship so that it is folded and folded at the time of entry, and when it is needed to charge in a large space after departure, the solar panel is opened, and when the container is unloaded, the solar panel is folded. In the battery charging device for a vehicle to enable,
A moving means characterized by using a sub-motor, which is a driving means arranged on one side of the wing, to expand the solar panel by unfolding the wings, and charging the secondary battery provided on one side of the sub-motor to supply electricity to the ship. Battery charger. When it is formed inside the rocket booster and is recovered, a drone formed inside the rocket booster is provided, and one or more joints or arms formed by folding are extended, and a propeller is formed on one side of the arm to allow air to flow outside the drone. In the battery charging device for a vehicle characterized in that the cover is formed so as not to receive resistance
The rocket booster is formed inside the rocket booster and when recovered, it is formed inside the rocket booster.
During takeoff and landing, take off and land vertically using the traditional drone takeoff and landing method.
It is formed on the inside of the rocket booster, or it is a folding that connects the node of the wing that attaches the solar panel by the hinge.
The original part of the wing is formed, the nodes are expanded in a sequential manner from the beginning, and the fold is folded into the original part of the wing. By charging the secondary battery, supply electricity to the motor to rotate the propeller to fly,
A battery charging device for a vehicle that is characterized in that a motor and a propeller are formed on one side of a solar panel, and a folding plate on which the solar panel is formed is convex and lift is generated according to Bernoulli's principle. One or more folding arms are formed on one or more sides of an electric bicycle, electric kickboard, electric wheel, or bicycle, and a propeller is formed at the end thereof. During takeoff and flight, the folding arms are extended and the propeller is rotated to take off and fly. In the battery charging device for a vehicle,
At the beginning of the wing, the nodes are sequentially opened, and the wings are folded back to the beginning of the wings, where a solar panel is attached to the wing or a folding solar panel is formed, such as an electric bicycle, an electric kickboard, an electric wheel, or one side of a bicycle. It is formed above, and when it reaches a certain altitude by taking off, it spreads the wings on which the solar panel or solar panel is formed, charges the secondary battery by the solar cell, supplies electricity to the motor, and rotates the propeller to fly. Battery charger. The part where sunlight enters the upper part of the hot air balloon is made of a transparent material, and the lower part is made of a material such as black that can absorb and radiate sunlight well. At the lower part of the hot air balloon, at least one vent that can discharge heated air is formed. During the sunlight, the electricity is charged to the secondary battery by the solar cell or the control back element, and the hot air is supplied to the hot air balloon by heating through the heating means of the Peltier element during the time when the sunlight does not shine by the secondary battery. On one side of the hot air balloon, a motor 30 and a propeller, or a cylinder 25 into which the motor and the propeller and the motor and the propeller enter are formed, and a cylinder into which the motor 30 and the propeller or the motor and the propeller and the motor and the propeller enter are formed. It is possible to rotate 360 degrees by a servo motor 15 or a step motor formed on the lower portion thereof, characterized in that the rotation of the motor 30 and the servo motor 15 or the step motor is operated by wireless control. Hot air balloon using greenhouse effect
A foldable solar panel or a foldable solar panel wing is formed, and when taking off, it takes off only by the greenhouse effect, or by a motor and a propeller, or by a greenhouse effect and a motor and a propeller, and takes off and hinges a node when it reaches a certain altitude. Or the fold that is connected by
Folded solar panel or foldable solar panel is formed by folding the folding solar panel or the folded solar panel to open the solar cell. Battery charging device for a vehicle, characterized in that it supplies electricity to a thermoelectric element or a propeller to a hot air balloon using a greenhouse effect while charging the secondary battery by. The method according to any one of claims 1 to 3,
The wing part to which the solar panel is attached is formed by folding, and the folding and unfolding expression in which the node nodes of the solar panel are connected by a hinge or the node nodes are sequentially opened at the beginning of the wing and folded to the original starting part of the wing When a fan is formed in a fold or fan shape, the solar cell formed at the end of the fan fan expands in a circular shape and the center of the fan fan that is folded moves from the center of the air vehicle so that the fan is not exposed to the outside and then the fan is unfolded. The movement is characterized in that the center of the vehicle moves to the center of the aircraft, the fan is flat, and the solar panel is unfolded in a circular shape. When folded, the fan is folded into a fan, and the center of the folded fan is moved from the center of the aircraft so that the fan is not exposed to the outside. Sudan battery charging device. A foldable solar panel rotating part is formed on the roof panel of the vehicle, and the solar panel is folded in response to one-way rotation of the rotating part, so that when folded forward, the folded part faces the front side. It is stretched toward to charge, and is formed to cover the window of the car.
The rotating part is a battery charging device for a vehicle, characterized in that a foldable solar panel is fixed to the front or side of the vehicle. It is a folding that connects the node of the solar panel to the hinge, or one solar panel at the beginning of the wing is formed to slide out or enter from one side of the ship by a sliding means, or one or more node nodes are sequentially The unfolded, unfolded wing is attached to the wing of the way that is folded back to the beginning of the wing and is formed on one side of the ship by attaching a solar panel,
The folding and unfolding of the solar panel by a gas shock absorber or cylinder is formed on one side of the ship,
At the beginning of the wing, the solar panel is opened and folded on one side of the ship so that it folds and folds, and when entering, the solar panel is folded, and when charging is required in a large space after departure, the solar panel is unfolded. In the battery charging device for a vehicle to enable,
At least one support of one or more solar panels is formed at the bottom of the solar panel, and at the end of the support, wheels are formed or wheels are formed integrally with an electric motor to form a number of solar panels with support, which are opened and closed by opening and closing. Battery charging device for a vehicle characterized in that it is closed. The method of claim 8
Battery charging device for a vehicle characterized in that the rail is formed on one side of the hull, such as a deck at the bottom of the wheel. It is characterized by forming a folding solar panel that is folded and unfolded by a driving means that is floated on the surface by a buoyancy means and is connected by a connection means with a submarine when the submarine or drone submarine is submerged or not. Battery charging device for moving vehicles. The method of claim 10
It is connected by a connection means with a submarine and is used for moving means characterized in that a thrust generating device by one or more motors is formed on a folding solar panel that is folded and unfolded by a driving means that floats on the surface by buoyancy means. Battery charging device. When the submarine or drone submarine is submerged or not submerged, the thrust generating device by one or more motors is included in the folding solar panel that is folded and unfolded by a driving means that floats on the surface by buoyancy means. The submarine battery charging device characterized in that the secondary battery of the submarine is wirelessly charged to the submarine by means of a folding solar panel and an ultrasonic wireless power transmitting and receiving device formed in the submarine. Forming a harness on the drone so that it can be mounted on a human body or a companion animal, and a propeller is formed at the end of the drone's arm. In the battery charging device for a vehicle characterized in that it is folded into the inside of the body and then unfolded,
On one side of the body, it is a fold that connects a node other than a foldable propeller type by a hinge.
Foldable solar panel or foldable solar panel wing is formed by folding, such as folding, where the beginning of the original wing is formed, the nodes are stretched sequentially from the beginning, and folded to the original beginning of the wing. Battery charging device for moving vehicles. The method of claim 13,
The main body itself is formed with a servo motor 15 and an arm type panel 32 capable of rotating the main body up and down around the upper part, and also a servo motor 15 and an arm type panel ( The servo motor 15 and the arm type panel 32 which can rotate the servo motor 15 and the arm type panel 32 up and down are also formed on the lower part of the lower part 32. Allow the drone to be vertical or horizontal to the ground, or to adjust the rotary vane at different angles for flight
Conversely, the main body itself is formed with a servo motor 15 and an arm type panel 32 capable of rotating the main body up and down around the lower part, and also a servo motor 15 and an arm type panel. Servo motor 15 and arm type panel 32 that can rotate the servo motor 15 and the arm type panel 32 up and down are also formed at the upper part of the upper part of the 32. By allowing the drone to be vertical or horizontal relative to the ground, or to adjust the rotary vane at various angles required for flight.
On one side of the body, it is a fold that connects the nodes by hinges or
Foldable solar panels or foldable solar panel wings other than foldable propellers are formed by folding, such as folding, where the beginning of the original wing is formed and the nodes are stretched sequentially from the beginning and folded to the original beginning of the wings. Battery charging device for a vehicle, characterized in that. The method of claim 4
Instead of a propeller integrated with a drone's arm and motor on one or more sides of an electric bike, electric kickboard, electric wheel, or bicycle, a folding wing is formed, a hole is formed on one side of the folding wing, a motor and a propeller are formed inside the hole, and outside the hole Part of the battery charging device for a vehicle, characterized in that the solar cell is attached. The method of claim 2
At the end of the unfolded solar cell, a support for a solar cell is formed to be positioned at an appropriate height above the water surface, and a buoyancy means is formed at a lower part of the support so as to be positioned at an appropriate height above the water surface. Battery charging device. The method of claim 15
In the lower part of the buoyancy means, a hydrofoil-type plate is formed so that the end of the solar panel rises to a certain height when the ship speeds integrally with the support, but the end of the solar cell is maintained at a constant height regardless of the waves below the water surface. A battery charging device for moving means, characterized in that an angle adjusting means for adjusting the angle of the foil-type plate is formed. A battery charging device for a vehicle, characterized by forming at least one support on one side of a deck of an LNG carrier to form a roof panel of a solar panel on the support, thereby forming a solar panel on the roof panel. According to claim 1
The propeller is formed on the top of the wing using Bernoulli's theorem, and rotates 90 degrees using a driving means to become a forward wing, and a solar cell is formed on the upper part of the forward wing to charge the battery for mobile devices. . The method of claim 10
It is connected by a connection means with a submarine, and a folding solar panel that is folded and unfolded by a driving means that floats on the surface by means of buoyancy means that a camera is formed on one side to function as a periscope. Battery charging device for vehicles.

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