KR20230166024A - UFO-type drone - Google Patents

Abstract

It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.
In this way, the UFO-type drone has a cylindrical air intake in the middle, and at least 4 fans are formed in the cylindrical air intake, roughly like a drone, and at least one fan sucks air from the center of the inside of the UFO-type drone, roughly like a drone. In this case, air is discharged to the bottom through four pipes to generate thrust.
The air sucked from one or more fans formed in the central cylinder of this UFO-type drone becomes the source of suction power for the vacuum cleaner and air purifier.
Here, a donut-shaped trash can is formed outside the cylindrical inlet and the cylindrical inlet, and a grid-shaped trash can is formed on the outer net of the FAN and the front part of the cylindrical inlet, and a donut-shaped trash can surrounds the grid net and the cylindrical inlet. It has a device that generates static electricity so that dust is filtered out and the sucked garbage goes into a donut-shaped trash can. There is a cylindrical inlet like this and a donut-shaped trash can surrounding the cylindrical inlet on the outside of the cylindrical inlet and a detachable port for the UFO drone. Formed into a detachable UFO drone or trash can.
The donut-shaped trash can has wheels at the bottom.
To have the function of a robot vacuum cleaner, a donut-shaped wheeled moving means is formed on the outside of the donut-shaped trash can and moves in a programmed cleaning direction like a regular robot vacuum cleaner.
If the air sucked from one or more fans formed in the central cylinder of the UFO drone becomes the suction power source of the air purifier and interferes with the air purifier function, connect the cylindrical filter of the air purifier to the central cylinder of the UFO drone and the cylindrical shape of the air purifier. It functions as an air purifier by attaching it through the attachment/detachment port provided on the filter.

Description

UFO-type drone

The present invention is intended to generate suction force in a UFO-type drone to add the function of a fine dust remover or vacuum cleaner and at the same time allow the UFO-type drone to function as a drone.

Vacuum cleaners, robot vacuum cleaners, air purifiers, and drones become the background technologies for design.

The problem that the present invention aims to solve is to have the same appearance as the original UFO, to fly like a drone, and to have functions such as a robot vacuum cleaner or an air purifier function optionally.

also

If you look at US20170038780A1

The present invention relates to drone delivery, and more specifically, to a drone delivery method using a manned aircraft.

Package shipping, or parcel shipping, is the delivery of shipping containers, parcels, or valuable mail items in a single shipment. This service is provided by most postal systems, express mail, personal package delivery services, and truckload carriers. A delivery drone, also known as a parcel copter, is an unmanned aerial vehicle (UAV) used to transport packages, food, or other goods. In the United States, early attempts at commercial use of UAVs were blocked by FAA regulations. Today, drone delivery faces serious challenges related to package weight, Federal Aviation Administration (FAA) restrictions, and distance from customers .

As you can see, there is a need for safe and effective drone delivery.

It is described as

Here , a serious problem related to distance from customers

If you think about it, you can see that this is a drone battery problem.

If there were no drone battery issues, delivery would be possible regardless of the distance from the customer.

And in Korea, if drones are used to operate a system similar to that used in delivery agencies such as Coupang Eats or Baedal Minjok, delivery speeds can be increased.

However, if you use drone delivery as a delivery agent, you may not be able to do the work that humans do.

For example, tasks such as pressing a button to unlock a number in an apartment building can be solved by adding robot functions to a drone by attaching limbs like a robot.

In addition, just as a person with a driver's license can install an app to pay for and use an electric kickboard, we are trying to create a drone delivery app that uses drones to provide a business method for payment and delivery service using drones like electric kickboards. .

The means of solving the problem of the present invention are

It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.

In this way, the UFO-type drone has a cylindrical air intake in the middle, and at least 4 fans are formed in the cylindrical air intake, roughly like a drone, and at least one fan sucks air from the center of the inside of the UFO-type drone, roughly like a drone. In this case, air is discharged to the bottom through four pipes to generate thrust.

The air sucked from one or more fans formed in the central cylinder of this UFO-type drone becomes the source of suction power for the vacuum cleaner and air purifier.

Here, a donut-shaped trash can is formed outside the cylindrical inlet and the cylindrical inlet, and a grid-shaped trash can is formed on the outer net of the FAN and the front part of the cylindrical inlet, and a donut-shaped trash can surrounds the grid net and the cylindrical inlet. It has a device that generates static electricity so that dust is filtered out and the sucked garbage goes into a donut-shaped trash can. There is a cylindrical inlet like this and a donut-shaped trash can surrounding the cylindrical inlet on the outside of the cylindrical inlet and a detachable port for the UFO drone. Formed into a detachable UFO drone or trash can.

The donut-shaped trash can has wheels at the bottom.

To have the function of a robot vacuum cleaner, a donut-shaped wheeled moving means is formed on the outside of the donut-shaped trash can and moves in a programmed cleaning direction like a regular robot vacuum cleaner.

If the air sucked from one or more fans formed in the central cylinder of the UFO drone becomes the suction power source of the air purifier and interferes with the air purifier function, connect the cylindrical filter of the air purifier to the central cylinder of the UFO drone and the cylindrical shape of the air purifier. It functions as an air purifier by attaching it through the attachment/detachment port provided on the filter.

The effect of the present invention is to have the same appearance as the original UFO, fly like a drone, and have functions like a robot vacuum cleaner or optionally have an air purifier function.

Figure 1 is a perspective view of the UFO drone of the present invention.
Figure 2 is a perspective view of the UFO drone of the present invention.
Figure 3 is a perspective view of the UFO drone of the present invention.
Figure 4 is a perspective view of the UFO drone of the present invention.
Figure 5 is a perspective view of the UFO drone of the present invention.
Figure 7 is a perspective view of the UFO drone of the present invention.
Figure 8 is a perspective view of the UFO drone of the present invention.
Figure 9 is a perspective view of the UFO drone of the present invention.
Figure 10 is a perspective view of the UFO drone of the present invention.
Figure 11 is a perspective view of the UFO drone of the present invention.
Figure 12 is a perspective view of the UFO drone of the present invention.
Figure 13 is a perspective view of the UFO drone of the present invention.
Figure 14 is a perspective view of the UFO drone of the present invention.
Figure 15 is a perspective view of the UFO drone of the present invention.
Figure 16 is a perspective view of the UFO drone of the present invention.
Figure 17 is a perspective view of the UFO drone of the present invention.
Figure 18 is a perspective view of the UFO drone of the present invention.
Figure 19 is a perspective view of the UFO drone of the present invention.
Figure 20 is a perspective view of the UFO drone of the present invention.
Figure 21 is a perspective view of the UFO drone of the present invention.
Figure 22 is a perspective view of the UFO drone of the present invention.

If the specific details for carrying out the present invention are explained in detail using drawings,

Figure 1 is a perspective view of the present invention and is a perspective view of a UFO drone.

It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.

In this way, the UFO-type drone has a cylindrical air intake in the middle, and at least 4 fans are formed in the cylindrical air intake, roughly like a drone, and at least one fan sucks air from the center of the inside of the UFO-type drone, roughly like a drone. In this case, air is discharged to the bottom through four pipes to generate thrust.

Figures 2 and 3 are perspective views of the UFO drone of the present invention.

It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.

In this way, the UFO-type drone has a cylindrical air intake in the center, and at least one fan is formed in the cylindrical air intake, roughly like a drone.

The FAN is formed in a cylindrical hole inside the UFO of the pipe, or is formed by forming a hole in the bottom of the UFO, or is formed in the middle of the pipe.

Figure 4 is a perspective view of the UFO drone of the present invention.

By having the same appearance as the original UFO, the drone-like FAN is used as a UFO.

A hole is formed in the center of the floor to serve as an intake port, and one or more holes are formed around the center to serve as intake ports, and a propeller is formed in each hole around the center.

The air sucked from one or more fans formed in the central cylinder of this UFO-type drone becomes the source of suction power for the vacuum cleaner and air purifier.

Here, a donut-shaped trash can is formed outside the cylindrical inlet and the cylindrical inlet, and a grid-shaped trash can is formed on the outer net of the FAN and the front part of the cylindrical inlet, and a donut-shaped trash can surrounds the grid net and the cylindrical inlet. It has a device that generates static electricity so that dust is filtered out and the sucked garbage goes into a donut-shaped trash can. There is a cylindrical inlet like this and a donut-shaped trash can surrounding the cylindrical inlet on the outside of the cylindrical inlet and a detachable port for the UFO drone. Formed into a detachable UFO drone or trash can.

The donut-shaped trash can has wheels at the bottom.

To have the function of a robot vacuum cleaner, a donut-shaped wheeled moving means is formed on the outside of the donut-shaped trash can and moves in a programmed cleaning direction like a regular robot vacuum cleaner.

If the air sucked from one or more fans formed in the central cylinder of the UFO drone becomes the suction power source of the air purifier and interferes with the air purifier function, connect the cylindrical filter of the air purifier to the central cylinder of the UFO drone and the cylindrical shape of the air purifier. It functions as an air purifier by attaching it through the attachment/detachment port provided on the filter.

also

The outside of the airship, which is equipped with a means of transportation such as a propeller filled with a lighter-than-air gas such as helium or hydrogen, is formed with solar cells to serve as a power supply mothership. The power supply mothership is operated, and the drone receives power from the mothership and then descends to the ground. The power supply method for the drone is characterized in that it separates and comes down only when going, and after doing business such as delivery or putting people down, it goes up to the mother ship and receives power supply and is operated by the mother ship.

When using a solar cell on the outside of an airship equipped with a moving means such as a propeller filled with a lighter-than-air gas such as helium or hydrogen and using it as a power supply mothership, an unmanned drone with a wingspan of about 20m is used as a power supply mothership. If continuous flight is possible for several days only by charging solar cells without separate charging, if enough solar cells are formed on the outside of the airship, which is the mother ship, continuous flight for several days is possible, and long-distance flights are possible, and delivery of goods from Korea to the United States is also possible with batteries. This may be possible without capacity issues.

Figure 5

A hole is formed in the bottom of the UFO-type drone, a plate that fits into the hole is formed, and a bar with a lifter function is formed in the plate, so that the plate that fits into the hole in the bottom of the UFO-type drone has the function of lifting luggage, pets, or people. and

A staircase or escalator-type transportation means is formed at the lower part of the UFO-type drone, and the stairs, escalator, or conveyor belt-type transportation means may further include unfolding and folding by unfolding and folding means such as a hinge or a servo motor.

A staircase or escalator-type transportation means is formed at the bottom of the UFO-type drone, and the stairs, escalator, or conveyor belt-type transportation means can be unfolded and folded by unfolding and folding means such as hinges or servo motors to allow luggage or people or pets to board. More may be included.

Figure 6 is another perspective view of the present invention.

The outside of the airship, which is equipped with a means of transportation such as a propeller filled with a lighter-than-air gas such as helium or hydrogen, is formed with solar cells to serve as a power supply mothership. The power supply mothership is operated, and the drone receives power from the mothership and then descends to the ground. A power supply device and method for a drone, characterized in that it is separated and brought down only when going, and after doing business such as delivery or dropping off people, it goes up to the mother ship, receives power supply, and is operated by the mother ship.

A power supply bus with solar cells formed on the outside of an airship equipped with a moving means such as a propeller containing a gas lighter than air, such as helium or hydrogen, is a means of wrapping and unwinding a line around the bus so that it can be tied to one side of a building like an ad balloon. It may further include forming a detachable port at the end of the string.

As seen in the drawing

A door is formed on the outer lower part of the airship, which is equipped with a means of transportation such as a propeller containing a lighter-than-air gas such as helium or hydrogen. A door is formed through which the drone can enter and exit, and the drone is charged inside the airship by passing through the door.

also

A smartphone with a delivery app downloaded is formed on one side of the drone, and the smartphone operation of the app is operated by looking at the smartphone or PC with a device that has the same functions as a human finger, operated by a wireless camera and a wirelessly remotely controlled servomotor. You can include more delivery methods and

Figure 7

In the drawings 1 to 4

The bottom surface of the UFO may further include legs formed.

On the bottom of the UFO, wheels are formed on the legs.

The legs on the bottom of the UFO have electric motors in the wheels.

Electric motors are formed on wheels on the legs of the bottom of the UFO, which may further include forming a radio control device.

The legs on the bottom of the UFO are formed as legs with robotic functions.

The legs on the bottom of the drone may further include legs with a robot function that are operated by a wireless camera and a wirelessly operated servomotor.

also

The legs of the bottom of the UFO are provided with means to prevent the wheels from rotating, that is, from rolling.

Means are formed on the legs of the bottom of the UFO to prevent the wheels from rotating, that is, to prevent them from rolling, and when the robot legs operate, the wheels are automatically fixed.

also

A wirelessly operated speaker, microphone, camera, and display are formed on one side of the UFO-type drone, allowing the UFO-type drone to see and speak wirelessly, just like a person delivering directly, and the UFO-type drone's communication method.

Figure 8 is another perspective view of the present invention.

This is the situation in Figure 6 where the LED is turned on at night.

Figures 9 and 10 are another perspective view of the present invention.

The outside of the airship, which has means of transportation such as a propeller filled with a lighter-than-air gas such as helium or hydrogen, is formed with a solar cell to form a power supply busbar, and a magnet on one side of the busbar is used to make the N and S poles a power supply magnet. Two ends are formed, and the drone is formed with a bus bar for power supply and an electromagnet for power supply with the S and N poles. Two ends of the electromagnet are detachable, and the electrodes are changed to electromagnets to be attached and detached. A method of powering a drone may be further included, characterized in that the drone is supplied with power by causing the electrodes of the drone to be energized.

also

A smartphone with a delivery app downloaded is formed on one side of the drone, and the smartphone operation of the app is operated by looking at the smartphone or PC with a device that has the same functions as a human finger, operated by a wireless camera and a wirelessly remotely controlled servomotor. You can include more delivery methods and

Figures 11, 12 and 13 are another perspective view of the present invention.

in drones

It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed on the bottom of the bottom, so that the heat sink is blown by the wind in flight or the cold at high altitude. It is cooled by air in an air-cooled manner.

The bottom surface of the transparent hemisphere may further include a heating means such as stainless steel.

It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed on the bottom of the bottom, so that the heat sink is blown by the wind in flight or the cold at high altitude. It is a heat dissipation method for UFO-type drones that are cooled by air.

The bottom of the transparent hemisphere is formed with a heating means such as stainless steel that reflects light to heat the transparent hemisphere of the UFO-type drone.

In UFO-style water drones

It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed at the bottom of the bottom to be located on the surface and underwater during navigation. It may further include cooling by water cooling.

The bottom of the transparent hemisphere is formed with a heating means such as stainless steel.

It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed at the bottom of the bottom to be located on the surface and underwater during navigation. It may further include a UFO-type water drone heat dissipation method that is cooled by water.

also

The bottom surface of the transparent hemisphere may further include a heating method within the transparent hemisphere of the UFO-type water drone, which is formed with a heating means by light reflection, such as stainless steel.

also

The bottom surface of the hull is formed below the bottom surface of the transparent hemisphere.

Figures 14 and 15 are perspective views of the present invention.

The bottom of the UFO drone's disk is formed of three parts: the bottom of the disk, a zigzag foldable cloth guide frame, a cloth, and the disk. The bottom of the disk is a zigzag foldable fabric guide frame and a foldable cloth. One side of the guide frame is attached to the cloth, and the zigzag folding cloth guide frame can be folded in a zigzag manner, or the zigzag folded frame can be unfolded to the outside of the disc, and the lower part of the disc of a UFO-type drone is a zigzag folding cloth guide frame. and the disk below are formed as one body.

The zigzag folding frame is driven by a driving means such as a servo motor to fold or unfold.

The cloth is an air pocket that is filled with a gas lighter than air, such as helium, by sucking and compressing it from a ballast tank, or by spraying it out. A solar cell is formed on the top of the cloth to serve as a power source.

This is a method of enlarging or reducing the size of the disk of a UFO-type drone.

also

A solar cell is formed on the top of the cloth to serve as a power source. This is an electrical charging method for UFO-type drones in which a relatively small UFO-type drone enters and exits a mothership such as an airship and receives electricity as a power source for battery charging.

Figure 16 is a perspective view of the present invention.

A solar cell is formed on the outside of the airship, which has a means of transportation such as a propeller filled with gas lighter than air, such as helium or hydrogen, to supply power, and a secondary battery is formed to charge the secondary battery. A power source that can travel day and night for more than 24 hours. It is an airship that forms a supply section and can move continuously while floating in the air.

The airship is formed into three parts: a disk or cylinder on the side, or a zigzag folding fabric guide frame and fabric on both sides, and a disk or cylinder on the side, and the sides of the disk or cylinder are a zigzag folding fabric guide frame. One side of the folding cloth guide frame is attached to the cloth, and the zigzag folding cloth guide frame can be folded in a zigzag fashion, or the zigzag folded frame can be unfolded to the side of another disk or cylinder, or the disk or cylinder of an airship. The side part of the zigzag folding fabric guide frame and the disk or cylinder next to it are formed as one piece.

The zigzag folding frame is driven by a driving means such as a servo motor to fold or unfold.

Cloth is an air pocket that is filled with gas lighter than air, such as helium, by sucking and compressing it from a ballast tank and storing it or spraying it out.

A solar cell is formed at the top of the cloth to serve as a power source.

A solar cell is formed on the top of the cloth to serve as a power source, and a relatively small drone can enter and exit a mothership such as an airship and receive electricity as a power source for battery charging.

Figure 17 is a perspective view of the present invention.

In an airship or drone, a number of vertical electromagnets are formed on the ground, and the direction is adjusted by the interaction of the electromagnets with geomagnetism.

In a method of controlling an airship or drone, wherein a plurality of vertical electromagnets are formed on the ground in the airship or drone, and the direction is adjusted by the interaction of the electromagnets with the earth's magnetism.

The electromagnet is a method of controlling an airship or drone that is characterized by adjusting the direction by providing a device that intermittently switches on and off and adjusts the polarity.

This also

Even in ships and submarine vehicles, a number of vertical electromagnets are formed on the ground, and the direction is adjusted by the interaction of the electromagnets with the earth's magnetism. The electromagnet is a device that switches on and off intermittently and adjusts the polarity. By equipping the device, the direction can be adjusted.

Figure 18 is another perspective view of the present invention.

Two landing skids formed at the bottom of the drone, that is, an electromagnet is formed on the bottom of the pedestal, and a drone landing pad is formed on the top of the car. When the drone approaches a certain distance from the top of the car, two landing skids are formed at the bottom of the drone, i.e. An electromagnet is energized on the bottom of the base, and an electromagnet is also energized on the drone landing pad on top of the car, so the N and S poles are pulled and fixed, and at the time of takeoff, the electromagnet is switched off and takes off. It is a device and method for allowing a drone to take off and land on a drone landing pad on the top of a car.

This is a drone charging device and method using a drone landing pad formed on a car that allows electric current from the car to pass through the two landing skids formed at the bottom of the drone, that is, the bottom of the pedestal and the drone landing pad at the top of the car, thereby charging the drone's battery.

Figure 19 is another perspective view of the present invention.

A rectangular plate with solar cells is formed at the horizontal end of the drone, and on one side of the rectangular plate with solar cells, an air pocket, such as a cube, containing a lighter-than-air gas is formed. This lighter-than-air air pocket is formed. A battery charging device and method for reducing the weight of a drone in which one or more solar panels are formed at the end of a drone or UFO-type drone.

A solar panel formed with an air pocket that is lighter than air is a device and method in which an air pocket and a means for folding and unfolding the air pocket or the solar panel and the solar panel are formed.

Figure 20 is a perspective view of the present invention.

There is an entrance in the center of the bottom of the ufo type drone, and the entrance is open, and a telescopic, spring, or zigzag folding cylindrical electric cylinder or cylindrical electromagnet is formed to fold and unfold, and when unfolded, a person can ride through the cylinder. This is a UFO-type drone in which an electromagnetic cylindrical capsule forming an entrance door is lowered and raised, and a person can get on and off the UFO-type drone.

From here

The cylinder is to be expanded to a certain distance from the ground, with a sensor measuring the distance from the ground to the end of the cylinder and a means to expand to a certain distance.

Figure 21 is a perspective view of the present invention.

A device that measures the magnetic field strength and adjusts the magnetic field strength of the electromagnet is formed by a sensor that measures the magnetic field strength of the geomagnetism and the electromagnet, and is formed by a control unit that outputs the magnetic field strength of the electromagnet according to the input geomagnetism according to the desired direction. An apparatus and method for controlling the direction of a vehicle using geomagnetism and electromagnets to control direction.

A device that measures the magnetic field strength and adjusts the magnetic field strength of the electromagnet is formed by a sensor that measures the magnetic field strength of the geomagnetism and the electromagnet, and is formed by a control unit that outputs the magnetic field strength of the electromagnet according to the input geomagnetism according to the desired direction. It is a vehicle that is characterized by controlling the direction.

An apparatus and method for controlling the direction of a vehicle using geomagnetism and electromagnets, further including adjusting the direction of a vehicle using wheels, horizontal rudders, rudders, elevators, ailerons, hydrofoils, etc.

A vehicle using geomagnetism and electromagnets that further includes adjustment of the direction of a vehicle that obtains thrust by geomagnetism and electromagnets by wheels, horizontal rudders, rudders, elevators, ailerons, hydrofoils, etc.

In controlling the direction of a vehicle that obtains thrust by geomagnetism and electromagnets, wind speed, etc. is further input to the control unit by wheels, horizontal rudders, rudders, elevators, ailerons, hydrofoils, etc., and the wheels, horizontal rudders, rudders, etc. in the desired direction are adjusted. An apparatus and method for controlling the direction of a vehicle using geomagnetism and electromagnets further includes outputting the angles of the elevator, aileron, hydrofoil, etc.

Figure 22 is a perspective view of the UFO drone of the present invention.

A rectangular plate with solar cells is formed at the horizontal end of the drone. The rectangular plate with solar cells is formed as a device for winding and unwinding the solar panel integrated with the motor, etc. Also, the solar panel goes out on one side of the drone. One or more are formed at the end of a drone or UFO-type drone, where a long, flat hole and a solar cell entry/exit guide tube are formed. The picture shows a UFO-type drone with three solar panels like a stingray kite.

Figure 23 is a perspective view of the UFO drone of the present invention.

One or more partition walls form a room that can be filled with hydrogen, and in each room, oxygen is blown out of the partition by an electrolysis device for water, and only hydrogen is filled, and each partition releases hydrogen gas. It is an airship-type drone in which a valve is formed to fill or release hydrogen gas, thereby raising or lowering the part that becomes the airship-type drone.

In addition, electromagnets are formed and moved perpendicularly up and down in the Earth's magnetic field according to the magnetic field lines of the Earth's magnetic field, and the electromagnets are intermittently turned on/off to move the magnetic force lines that the aircraft follows along the magnetic force lines so that the aircraft follows other magnetic force lines. By adjusting the direction, the thrust and acceleration can be adjusted according to the strength of the electromagnet.

1: Propeller 2: Piping
3: UFO Drone 5: Boarding Lifter
10: solar cell 11: mothership
15: Robot leg 20: Wheel
21: hot air 22: transparent cover
23: thermoelectric element 24: hole
25: secondary battery 26: propeller
27: Heat sink 28: N pole of electromagnet
29: S pole of electromagnet 30: Hull of water drone
31: ballast tank 32: cloth
33: cloth guide frame 34: electromagnet
35: Landing skid 36: Electromagnet
37: Drone landing pad 38: Spring-type electricity-conducting cylinder
39: Capsule for people to ride 50: Geomagnetism
51: Rudder 53: Aileron
55: hydrogen outlet 56: oxygen outlet
58: bulkhead 59: valve
60: Water electrolysis device

Claims (154)

It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.
In this way, the UFO-type drone has a cylindrical air intake in the middle, and at least 4 fans are formed in the cylindrical air intake, roughly like a drone, and at least one fan sucks air from the center of the inside of the UFO-type drone, roughly like a drone. In this case, it is a UFO-type drone that generates thrust by discharging air to the bottom through four pipes. In paragraph 1
It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.
In this way, the UFO-type drone has a cylindrical air intake in the center, and at least one fan is formed in the cylindrical air intake, roughly like a drone.
The FAN is a UFO-type drone that is formed in a cylindrical hole inside the UFO of the pipe, by forming a hole in the bottom of the UFO, or in the middle of the pipe. In paragraph 1
By having the same appearance as the original UFO, the drone-like FAN is used as a UFO.
A UFO-type drone characterized by forming a hole in the center of the floor to serve as an intake port, forming one or more holes around the center to serve as intake ports, and forming propellers in each hole around the center. For general drones
It is designed to have the same appearance as the original UFO, and the propeller of the drone is positioned to become an intake port by forming a hole in the center on the bottom of the UFO, and one or more holes are formed around the center so that the propeller of the drone is positioned to become an intake port. A UFO-style drone that is characterized by covering it with a propeller guard. In paragraphs 1 to 4
The air sucked from one or more fans formed in the central cylinder of this UFO-type drone becomes the source of suction power for the vacuum cleaner and air purifier.
Here, a donut-shaped trash can is formed outside the cylindrical inlet and the cylindrical inlet, and a grid-shaped trash can is formed on the outer net of the FAN and the front part of the cylindrical inlet, and a donut-shaped trash can surrounds the grid net and the cylindrical inlet. It has a device that generates static electricity so that dust is filtered out and the sucked garbage goes into a donut-shaped trash can. There is a cylindrical inlet like this and a donut-shaped trash can surrounding the cylindrical inlet on the outside of the cylindrical inlet and a detachable port for the UFO drone. Formed into a detachable UFO drone or trash can.
The donut-shaped trash can has wheels at the bottom.
A UFO-type drone robot cleaner is characterized in that a donut-shaped wheeled moving means is formed on the outside of the donut-shaped trash can to have the function of a robot vacuum cleaner, and moves in a programmed cleaning direction like a general robot cleaner. In paragraphs 1 to 4
If the air sucked from one or more fans formed in the central cylinder of the UFO drone becomes the suction power source of the air purifier and interferes with the air purifier function, connect the cylindrical filter of the air purifier to the central cylinder of the UFO drone and the cylindrical shape of the air purifier. A UFO-type drone air purifier that functions as an air purifier by attaching it through a detachment hole formed on the filter. In paragraphs 1 to 4
A UFO-type drone characterized by legs forming on the bottom of the UFO. In paragraph 7
A UFO-type drone characterized by wheels formed on the legs on the bottom of the UFO. In paragraph 8
A UFO-type drone characterized by electric motors formed on wheels on the legs of the bottom of the UFO. In paragraph 9
A UFO-type drone characterized by an electric motor formed on the wheels of the legs of the bottom of the UFO, which forms a wireless control device. In any one of paragraphs 7 to 10
A UFO-type drone characterized by the legs on the bottom of the UFO being formed as legs with a robotic function. A rectangular plate with solar cells is formed at the horizontal end of the drone, and on one side of the rectangular plate with solar cells, an air pocket, such as a cube, containing a lighter-than-air gas is formed. This lighter-than-air air pocket is formed. A battery charging method for reducing the weight of a drone, characterized in that one or more solar panels are formed at the end of a drone or UFO-type drone. A rectangular plate with solar cells is formed at the horizontal end of the drone, and on one side of the rectangular plate with solar cells, an air pocket, such as a cube, containing a lighter-than-air gas is formed. This lighter-than-air air pocket is formed. A battery charging device that reduces the weight of a drone, characterized in that one or more solar panels are formed at the end of a drone or UFO-type drone. In clause 13
A solar panel formed with an air pocket lighter than air is a battery charging device that reduces the weight of a drone, characterized in that a means for folding and unfolding the air pocket or the solar panel or the solar panel is formed. In clause 12
A battery charging method for reducing the weight of a drone, characterized in that a solar panel formed with an air pocket lighter than air is formed with a means for folding and unfolding the air pocket or the solar panel. According to any one of claims 1 to 17
A hole is formed in the bottom of the UFO-type drone, a plate that fits into the hole is formed, and a bar with a lifter function is formed in the plate, so that the plate that fits into the hole in the bottom of the UFO-type drone has the function of lifting luggage, pets, or people. A UFO-type drone characterized by: According to any one of claims 1 to 17
A hole is formed in the bottom of the UFO-type drone, a plate that fits into the hole is formed, and a bar with a lifter function is formed in the plate, so that the plate that fits into the hole in the bottom of the UFO-type drone has the function of lifting luggage, pets, or people. A method of boarding a UFO-type drone, characterized in that: According to any one of claims 1 to 17
A hole is formed in the bottom of the UFO-type drone, a plate that fits into the hole is formed, and a bar with a lifter function is formed in the plate, so that the plate that fits into the hole in the bottom of the UFO-type drone has the function of lifting luggage, pets, or people. UFO-type drone characterized by According to any one of claims 1 to 17
A UFO-type drone is characterized in that stairs or an escalator-type transportation means are formed at the bottom of the UFO-type drone, and the stairs, escalators, or conveyor belt-type transportation means are unfolded and folded by unfolding and folding means such as a hinge or a servo motor. According to any one of claims 1 to 17
A staircase or escalator-type transportation means is formed at the bottom of the UFO-type drone, and the stairs, escalator, or conveyor belt-type transportation means can be unfolded and folded by unfolding and folding means such as hinges or servo motors to allow luggage or people or pets to board. How to board a UFO-style drone According to any one of claims 1 to 20
A smartphone with a delivery app downloaded is formed on one side of the drone, and the smartphone operation of the app is operated by looking at the smartphone or PC with a device that has the same functions as a human finger, operated by a wireless camera and a wirelessly remotely controlled servomotor. A delivery drone characterized by being According to any one of claims 1 to 20
A smartphone with a delivery app downloaded is formed on one side of the drone, and the smartphone operation of the app is operated by looking at the smartphone or PC with a device that has the same functions as a human finger, operated by a wireless camera and a wirelessly remotely controlled servomotor. A delivery method by drone, characterized in that: In any one of paragraphs 7 to 10
The legs on the bottom of the drone have a robot function and are operated by a wireless camera and a wirelessly operated servo motor. In any one of paragraphs 7 to 10
A method of operating a drone leg, wherein the leg on the bottom of the drone has a robot function and is operated by a wireless camera and a wirelessly operated servomotor. The outside of the airship, which is equipped with a means of transportation such as a propeller filled with a lighter-than-air gas such as helium or hydrogen, is formed with solar cells to serve as a power supply mothership. The power supply mothership is operated, and the drone receives power from the mothership and then descends to the ground. A method of supplying power to a drone, which is characterized in that it separates and comes down only when going, and after doing business such as delivering or putting people down, it goes up to the mother ship, receives power supply, and is operated by the mother ship. The outside of the airship, which is equipped with a means of transportation such as a propeller filled with a lighter-than-air gas such as helium or hydrogen, is formed with solar cells to serve as a power supply mothership. The power supply mothership is operated, and the drone receives power from the mothership and then descends to the ground. A power supply device for a drone that separates and comes down only when going, and after doing business such as delivery or dropping off people, it goes up to the mother ship, receives power supply, and is operated by the mother ship. The outside of the airship, which has means of transportation such as a propeller filled with a lighter-than-air gas such as helium or hydrogen, is formed with a solar cell to form a power supply busbar, and a magnet on one side of the busbar is used to make the N and S poles a power supply magnet. Two ends are formed, and the drone is formed with a bus bar for power supply and an electromagnet for power supply with the S and N poles. Two ends of the electromagnet are detachable, and the electrodes are changed to electromagnets to be attached and detached. A method of supplying power to a drone, characterized in that the electrodes of the drone are energized so that the drone is supplied with power. The outside of the airship, which has means of transportation such as a propeller filled with a lighter-than-air gas such as helium or hydrogen, is formed with a solar cell to form a power supply busbar, and a magnet on one side of the busbar is used to make the N and S poles a power supply magnet. Two ends are formed, and the drone is formed with a bus bar for power supply and an electromagnet for power supply with the S and N poles. Two ends of the electromagnet are detachable, and the electrodes are changed to electromagnets to be attached and detached. A power supply device for a drone, characterized in that the drone is supplied with power by causing the electrodes of the drone to be energized. According to any one of paragraphs 25 to 28
A power supply bus with solar cells formed on the outside of an airship equipped with a moving means such as a propeller containing a gas lighter than air, such as helium or hydrogen, is a means of wrapping and unwinding a line around the bus so that it can be tied to one side of a building like an ad balloon. A power supply device for a drone, characterized in that a detachment port is formed at the end of the string. According to any one of paragraphs 25 to 28
A power supply bus with solar cells formed on the outside of an airship equipped with a moving means such as a propeller containing a gas lighter than air, such as helium or hydrogen, is a means of wrapping and unwinding a line around the bus so that it can be tied to one side of a building like an ad balloon. A method of supplying power to a drone, characterized in that a detachment port is formed at the end of the string. According to any one of paragraphs 25 to 28
A door is formed on the outer lower part of the airship, which is equipped with a means of transportation such as a propeller containing a lighter-than-air gas such as helium or hydrogen, and a door through which the drone can enter is formed. The power source of the drone is characterized in that it is charged inside the airship by passing through the door. Charging method. According to any one of paragraphs 25 to 28
A door is formed on the outer lower part of the airship, which is equipped with a means of transportation such as a propeller containing a lighter-than-air gas such as helium or hydrogen, and a door through which the drone can enter is formed. The power source of the drone is characterized in that it is charged inside the airship by passing through the door. Charging device. Two landing skids formed at the bottom of the drone, that is, an electromagnet is formed on the bottom of the pedestal, and a drone landing pad is formed on the top of the car. When the drone approaches a certain distance from the top of the car, two landing skids are formed at the bottom of the drone, i.e. An electromagnet is energized on the bottom of the base, and an electromagnet is also energized on the drone landing pad on top of the car, so the N and S poles are pulled and fixed, and at the time of takeoff, the electromagnet is switched off and takes off. A device that allows a drone to take off and land on a drone landing pad on the top of a car. Two landing skids formed at the bottom of the drone, that is, an electromagnet is formed on the bottom of the pedestal, and a drone landing pad is formed on the top of the car. When the drone approaches a certain distance from the top of the car, two landing skids are formed at the bottom of the drone, i.e. An electromagnet is energized on the bottom of the base, and an electromagnet is also energized on the drone landing pad on top of the car, so the N and S poles are pulled and fixed, and at the time of takeoff, the electromagnet is switched off and takes off. A method of having a drone take off and land on a drone landing pad on top of a car. In clause 33, a drone landing pad formed on a car is characterized in that the two landing skids formed at the bottom of the drone, that is, the bottom surface of the pedestal and the drone landing pad on the top of the car, allow the car's current to pass through to charge the drone's battery. Drone charging device used. In clause 34, a drone landing pad formed on a car is characterized in that the two landing skids formed at the bottom of the drone, that is, the bottom surface of the pedestal and the drone landing pad on the top of the car, allow the car's current to pass through to charge the drone's battery. How to charge a drone. According to any one of claims 1 to 24
A UFO-type drone is characterized by a wirelessly operated speaker, microphone, camera, and display formed on one side of the UFO-type drone, allowing the user to see and speak wirelessly, just like a person directly delivering the product. According to any one of claims 1 to 24
A UFO-type drone communication method characterized in that a wirelessly operated speaker, microphone, camera, and display are formed on one side of the UFO-type drone, allowing people to see and speak wirelessly, just like delivering a product in person. In paragraph 10
A UFO-type drone, characterized in that means are formed on the legs of the bottom of the UFO to ensure that the wheels are fixed so that they do not rotate, that is, they do not roll. In paragraph 10
A UFO-type drone is characterized in that means are formed on the legs of the bottom of the UFO to fix the wheels so that they do not rotate, that is, so that they do not roll, and the wheels are automatically fixed when the robot legs operate. A solar cell is formed on the outside of the airship, which has a means of transportation such as a propeller filled with gas lighter than air, such as helium or hydrogen, to supply power, and a secondary battery is formed to charge the secondary battery. A power source that can travel day and night for more than 24 hours. An airship characterized by forming a supply section so that it can continue to move while suspended in the air. A solar cell is formed on the outside of the airship, which has a means of transportation such as a propeller filled with gas lighter than air, such as helium or hydrogen, to supply power, and a secondary battery is formed to charge the secondary battery. A power source that can travel day and night for more than 24 hours. A flight method characterized by forming a supply section so that it can continue to move while suspended in the air. According to any one of claims 1 to 42
In UFO-type drones
It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed on the bottom of the bottom, so that the heat sink is blown by the wind in flight or the cold at high altitude. A UFO-type drone characterized by being cooled by air in an air-cooled manner. In UFO-style drones
It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed on the bottom of the bottom, so that the heat sink is blown by the wind in flight or the cold at high altitude. A UFO-type drone characterized by being cooled by air in an air-cooled manner. In any one of paragraphs 43 to 44
A UFO-type drone characterized by a heating means such as stainless steel formed on the bottom of the transparent hemisphere. According to any one of claims 1 to 42
In UFO-style drones
It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed on the bottom of the bottom, so that the heat sink is blown by the wind in flight or the cold at high altitude. A heat dissipation method for a UFO-type drone, characterized in that it is cooled by air in an air-cooled manner. In UFO-type drones
It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed on the bottom of the bottom, so that the heat sink is blown by the wind in flight or the cold at high altitude. A heat dissipation method for a UFO-type drone, characterized in that it is cooled by air in an air-cooled manner. In any one of paragraphs 46 to 47
A heating method in the transparent hemisphere of a UFO-type drone, characterized in that the bottom surface of the transparent hemisphere is formed with a heating means by light reflection, such as stainless steel. In UFO-style water drones
It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed at the bottom of the bottom to be located on the surface and underwater during navigation. A UFO-type water drone characterized by being water-cooled by water. In paragraph 49
A UFO-type water drone characterized by a heating means such as stainless steel formed on the bottom of the transparent hemisphere. In UFO-style water drones
It forms a transparent hemisphere, and the bottom of the transparent hemisphere has a hole formed on the bottom, a thermoelectric element is formed on the bottom, and a heat sink is formed at the bottom of the bottom to be located on the surface and underwater during navigation. UFO-type water drone heat dissipation method, characterized in that it is cooled by water in a water-cooled manner. In clause 51
A heating method in the transparent hemisphere of a UFO-type water drone, characterized in that the bottom surface of the transparent hemisphere is formed with a heating means by light reflection, such as stainless steel. According to any one of paragraphs 49 to 50
A UFO-type water drone characterized by the bottom surface of the hull being formed on the lower part of the bottom surface of the transparent hemisphere. According to any one of claims 51 to 53
A UFO-type water drone heat dissipation method, characterized in that the bottom surface of the hull is formed on the lower part of the bottom surface of the transparent hemisphere. According to any one of paragraphs 1 to 54
The bottom of the UFO drone's disk is formed of three parts: the bottom of the disk, a zigzag foldable cloth guide frame, a cloth, and the disk. The bottom of the disk is a zigzag foldable fabric guide frame and a foldable cloth. One side of the guide frame is attached to the cloth, and the zigzag folding cloth guide frame can be folded in a zigzag manner, or the zigzag folded frame can be unfolded to the outside of the disc, and the lower part of the disc of a UFO-type drone is a zigzag folding cloth guide frame. and the disk below are formed as one body.
The zigzag folding frame is driven by a driving means such as a servo motor to fold or unfold.
The cloth is an air pocket, and is a UFO-type drone that is filled with gas lighter than air, such as helium, by sucking and compressing it from a ballast tank and storing it or spraying it out. A ufo-type drone, characterized in that a solar cell is formed on the top of the cloth of item 55 to serve as a power source. According to any one of paragraphs 1 to 54
The bottom of the UFO drone's disk is formed of three parts: the bottom of the disk, a zigzag foldable cloth guide frame, a cloth, and the disk. The bottom of the disk is a zigzag foldable fabric guide frame and a foldable cloth. One side of the guide frame is attached to the cloth, and the zigzag folding cloth guide frame can be folded in a zigzag manner, or the zigzag folded frame can be unfolded to the outside of the disc, and the lower part of the disc of a UFO-type drone is a zigzag folding cloth guide frame. and the disk below are formed as one body.
The zigzag folding frame is driven by a driving means such as a servo motor to fold or unfold.
The cloth is an air pocket, and is a method of enlarging or reducing the size of the disk of a UFO-type drone, characterized in that a gas lighter than air, such as helium, is sucked in and compressed from a ballast tank and stored or sprayed and discharged to fill the air pocket. Electrical charging of a UFO-type drone, characterized in that a solar cell is formed on the top of the cloth of Article 57 to become a power source, and a relatively small UFO-type drone enters and exits a mothership such as an airship and receives electricity as a power source for battery charging. method. According to any one of paragraphs 1 to 58
There is an entrance in the center of the bottom of the ufo type drone, and the entrance is open, and a telescopic, spring, or zigzag folding cylindrical electric cylinder or cylindrical electromagnet is formed to fold and unfold, and when unfolded, a person can ride through the cylinder. A ufo-type drone characterized by an electromagnetic cylindrical capsule forming an entrance door that lowers and rises to form a store. According to any one of paragraphs 1 to 58
There is an entrance in the center of the bottom of the ufo type drone, and the entrance is open, and a telescopic, spring, or zigzag folding cylindrical electric cylinder or cylindrical electromagnet is formed to fold and unfold, and when unfolded, a person can ride through the cylinder. A method for people to board and disembark from a UFO-type drone, characterized in that an electromagnetic cylindrical capsule forming an entrance door is lowered and raised. According to any one of paragraphs 1 to 54
The airship is formed into three parts: a disk or cylinder on the side, or a zigzag folding fabric guide frame and fabric on both sides, and a disk or cylinder on the side, and the sides of the disk or cylinder are a zigzag folding fabric guide frame. One side of the folding cloth guide frame is attached to the cloth, and the zigzag folding cloth guide frame can be folded in a zigzag fashion, or the zigzag folded frame can be unfolded to the side of another disk or cylinder, or the disk or cylinder of an airship. The side part of the zigzag folding fabric guide frame and the disk or cylinder next to it are formed as one piece.
The zigzag folding frame is driven by a driving means such as a servo motor to fold or unfold.
The cloth is an air bag that is compressed and stored in a ballast tank with gas lighter than air, such as helium, or sprayed and discharged to fill the air bag. An airship that expands or contracts laterally. An airship characterized in that solar cells are formed on the upper part of the cloth of item 61 to serve as a power source. According to any one of paragraphs 1 to 54
The airship is formed into three parts: a disk or cylinder on the side, or a zigzag folding fabric guide frame and fabric on both sides, and a disk or cylinder on the side, and the sides of the disk or cylinder are a zigzag folding fabric guide frame. One side of the folding cloth guide frame is attached to the cloth, and the zigzag folding cloth guide frame can be folded in a zigzag fashion, or the zigzag folded frame can be unfolded to the side of another disk or cylinder, or the disk or cylinder of an airship. The side part of the zigzag folding fabric guide frame and the disk or cylinder next to it are formed as one piece.
The zigzag folding frame is driven by a driving means such as a servo motor to fold or unfold.
The cloth is an air pocket, and is a method of enlarging or reducing the size of an airship-type drone, characterized in that a gas lighter than air, such as helium, is sucked in and compressed from a ballast tank and stored or sprayed and discharged to fill the air pocket. A solar cell is formed on the top of the cloth of item 63 to serve as a power source, and a relatively small drone enters and exits a mothership such as an airship and receives electricity as a power source for battery charging. According to any one of paragraphs 1 to 64
An airship or drone is characterized in that an electromagnet is formed in an airship or drone, and the direction and thrust are adjusted by the interaction of the electromagnet with geomagnetism. In clause 65
In an airship or drone, a number of vertical or horizontal electromagnets are formed on the ground, and the direction and thrust are adjusted by the interaction of the electromagnets with geomagnetism. In clause 65
An airship or drone in which a large number of electromagnets at various angles are formed on the ground, and the direction and thrust are adjusted by the interaction of the electromagnets with geomagnetism. In clause 65
In an airship or drone, a number of electromagnets with angle adjustment means such as servomotors are formed so that the electromagnets are at various angles to the ground, and the direction and thrust are adjusted by the interaction of the electromagnets with the earth's magnetism. . According to any one of paragraphs 65 to 68
An airship or drone in which the direction and thrust of the electromagnet are adjusted by being equipped with a device that switches on and off intermittently and a device that adjusts the polarity. According to any one of paragraphs 1 to 64
A method of controlling an airship or drone, characterized in that an electromagnet is formed in the airship or drone and the direction and thrust are adjusted by the interaction of the electromagnet with geomagnetism. In clause 70
A method of controlling an airship or drone, characterized in that a plurality of electromagnets with vertical or horizontal polarity are formed on the ground in an airship or drone, and the direction and thrust are adjusted by the interaction of the electromagnets with geomagnetism. In clause 70
A method of controlling an airship or drone, characterized in that a large number of electromagnets with various polarity angles are formed on the ground in an airship or drone, and the direction and thrust are adjusted by the interaction of the electromagnets with the geomagnetism. In clause 70
In an airship or drone, a number of electromagnets are formed with angle adjustment means such as servomotors so that the electromagnets have various angles to the ground, and the direction and thrust are adjusted by the interaction of the electromagnets with the geomagnetism. or how to control a drone. According to any one of paragraphs 70 to 73
A method of controlling an airship or drone, characterized in that the direction and thrust of the electromagnet are adjusted by providing a device for intermittently switching on and off and a device for adjusting the polarity. A ship or submarine car in which an electromagnet is formed and the direction and thrust are adjusted by the interaction of the electromagnet with geomagnetism. In a ship or submarine car, a vertical or horizontal electromagnet is formed on the ground, and the direction and thrust are adjusted by the interaction of the electromagnet with the earth's magnetism. In clause 75
A ship or submarine car in which a number of vertical or horizontal electromagnets are formed on the ground, and the direction and thrust are adjusted by the interaction of the electromagnets with the earth's magnetism. In clause 75
In a ship or submarine car, a number of electromagnets at various angles are formed on the ground, and the direction and thrust are adjusted by the interaction of the electromagnets with the earth's magnetism. In clause 75
In ships or submarine vehicles, a number of electromagnets with angle adjustment means such as servomotors are formed so that the electromagnets are at various angles to the ground, and the direction and thrust are adjusted by the interaction of the electromagnets with the earth's magnetism. submarine car. According to any one of paragraphs 75 to 79
A ship or submarine vehicle characterized in that the direction and thrust of the electromagnet are adjusted by being provided with a device that switches on and off intermittently and a device that adjusts the polarity. According to any one of paragraphs 1 to 64
A method of controlling a ship or submarine car, characterized in that an electromagnet is formed in the ship or submarine car and the direction and thrust are adjusted by the interaction of the electromagnet with geomagnetism. In clause 81
A method of controlling a ship or submarine vehicle, characterized in that a plurality of vertical or horizontal electromagnets are formed on the ground and the direction and thrust are adjusted by the interaction of the electromagnets with the earth's magnetism. In clause 81
A method of controlling an airship or drone in which a large number of electromagnets at various angles are formed on the ground in a ship or submarine vehicle, and the direction and thrust are adjusted by the interaction of the electromagnets with the earth's magnetism. In clause 81
In ships or submarine vehicles, a number of electromagnets with angle adjustment means such as servomotors are formed so that the electromagnets are at various angles to the ground, and the direction and thrust are adjusted by the interaction of the electromagnets with the earth's magnetism. How to control a submarine car. According to any one of paragraphs 81 to 84
A method of controlling a ship or submarine vehicle, characterized in that the direction and thrust of the electromagnet are adjusted by providing a device for intermittently switching on and off and a device for adjusting the polarity. According to any one of paragraphs 65 to 85
A device that measures the magnetic field strength and adjusts the magnetic field strength of the electromagnet is formed by a sensor that measures the magnetic field strength of the geomagnetism and the electromagnet, and is formed by a control unit that outputs the magnetic field strength of the electromagnet according to the input geomagnetism according to the desired direction. A device for controlling the direction of a vehicle using geomagnetism and electromagnets, which controls direction and thrust. According to any one of paragraphs 65 to 85
A device that measures the magnetic field strength and adjusts the magnetic field strength of the electromagnet is formed by a sensor that measures the magnetic field strength of the geomagnetism and the electromagnet, and is formed by a control unit that outputs the magnetic field strength of the electromagnet according to the input geomagnetism according to the desired direction. A method of controlling the direction of a vehicle using geomagnetism and electromagnets, characterized by controlling the direction and thrust. According to any one of paragraphs 65 to 85
A device that measures the magnetic field strength and adjusts the magnetic field strength of the electromagnet is formed by a sensor that measures the magnetic field strength of the geomagnetism and the electromagnet, and is formed by a control unit that outputs the magnetic field strength of the electromagnet according to the input geomagnetism according to the desired direction. A vehicle characterized by control of direction and thrust. According to any one of paragraphs 65 to 88
A device for controlling the direction of a vehicle using geomagnetism and electromagnets, which further includes adjusting the direction of a vehicle using wheels, horizontal rudders, rudders, elevators, ailerons, hydrofoils, etc. According to any one of paragraphs 65 to 88
A method of controlling the direction of a vehicle using geomagnetism and electromagnets, which further includes adjusting the direction of a vehicle using wheels, horizontal rudders, rudders, elevators, ailerons, hydrofoils, etc. According to any one of paragraphs 65 to 88
A vehicle using geomagnetism and electromagnets, which further includes direction control of a vehicle that obtains thrust by geomagnetism and electromagnets and is further controlled by wheels, horizontal rudders, rudders, elevators, ailerons, hydrofoils, etc. According to any one of paragraphs 65 to 88
In controlling the direction of a vehicle that obtains thrust by geomagnetism and electromagnets, wind speed, etc. is further input to the control unit by wheels, horizontal rudders, rudders, elevators, ailerons, hydrofoils, rudders of ships, etc., and the wheels or rudders in the desired direction are further inputted to the control unit. A device for controlling the direction of a vehicle using geomagnetism and electromagnets, further comprising outputting the angles of the horizontal rudder, rudder, elevator, aileron, hydrofoil, etc. According to any one of paragraphs 65 to 88
In controlling the direction of a vehicle that obtains thrust by geomagnetism and electromagnets, wind speed, etc. is further input to the control unit by wheels, horizontal rudders, rudders, elevators, ailerons, hydrofoils, rudders of ships, etc., and the wheels or rudders in the desired direction are further inputted to the control unit. A method of controlling the direction of a vehicle using geomagnetism and electromagnets, further including outputting the angles of the horizontal rudder, rudder, elevator, aileron, hydrofoil, etc. A square plate with flexible solar cells is formed at the horizontal end of the drone. The square plate with the solar cells is formed as a device for winding and unwinding the solar panel formed integrally with the motor, etc. Additionally, a solar panel is placed on one side of the drone. A battery charging device for a drone, characterized in that at least one is formed at the end of a drone or UFO-type drone, where long flat holes for going out and coming in and solar cell entry and exit guide tubes are formed. A square plate with flexible solar cells is formed at the horizontal end of the drone. The square plate with the solar cells is formed as a device for winding and unwinding the solar panel formed integrally with the motor, etc. Additionally, a solar panel is placed on one side of the drone. At least one is formed at the end of the drone or UFO-type drone, where the long flat holes for going out and coming in and the guide tube for entering and exiting the solar cell are formed. When landing, the solar panel is rolled up and placed inside the main body, and after landing, the solar panel is unscrewed. A battery charging method for a drone, which is formed like a tail like a kite and flies while charging. A square plate with flexible solar cells is formed at the horizontal end of the ship, and at least one square plate with solar cells is formed on one side of the ship, where a device for winding and unwinding the solar panel integrated with the motor, etc. is formed. A battery charging device for a ship, characterized in that it is formed. A square plate with flexible solar cells is formed at the horizontal end of the ship. The square plate with the solar cells is formed with a device that winds and unwinds the solar panels formed integrally with the motor, etc., so that the solar panels can be wound when entering port. A method of charging a ship's battery, which involves shortening the hull length, entering a port, and sailing while unpacking and charging solar panels in a wide space after departure. According to any one of paragraphs 96 to 97
A battery charging device for a ship, characterized in that the end of the solar panel is formed with a buoyancy means and a means for standing at the height of the ship. In clause 98
A battery charging device for a ship, characterized in that the lower part of the buoyancy means is formed with a hydrofoil to reduce water resistance. According to any one of paragraphs 1 to 95
One or more partition walls form a room that can be filled with hydrogen, and in each room, oxygen is blown out of the partition by an electrolyzer of hydrogen water and only hydrogen is filled, or the partition wall is filled with brown gas. On the bulkhead, valves capable of releasing hydrogen gas or brown gas are formed vertically in several stages to fill or release hydrogen gas or brown gas, thereby raising or lowering the part that becomes the airship-type drone. A wired drone. According to any one of paragraphs 1 to 95
One or more partition walls form a room that can be filled with hydrogen, and in each room, oxygen is blown out of the partition by an electrolyzer of hydrogen water and only hydrogen is filled, or the partition wall is filled with brown gas. On the bulkhead, valves capable of releasing hydrogen gas or brown gas are formed vertically in several stages to fill or release hydrogen gas or brown gas, thereby raising or lowering the part that becomes the airship-type drone. How to ascend and descend a wired drone. In clause 100
An airship-type drone that is lighter than air but further includes a means of mixing it with hydrogen gas or changing it into another gas so as not to explode. In clause 100
An airship-type drone ascent and descent method that is lighter than air but further includes a means of mixing it with hydrogen gas or changing it into another gas so as not to explode. An airship, characterized in that the airship further includes a means for mixing hydrogen gas or converting hydrogen gas into another gas so that the gas inside the airship is lighter than air but does not explode. A method of preventing the explosion of a hydrogen-filled airship, characterized in that the airship further includes a means of mixing the gas inside the airship with hydrogen gas so that it is lighter than air but does not explode, or converting the hydrogen gas into another gas. An attitude control method for an artificial satellite or space station, characterized in that a plurality of electromagnets are formed on the satellite or space station as an attitude control means, and the attitude is controlled by the interaction between the electromagnets and geomagnetism. An attitude control device for an artificial satellite or space station, characterized in that a plurality of electromagnets are formed on the satellite or space station as an attitude control means and the attitude is controlled by the interaction between the electromagnets and geomagnetism. In paragraph 107
Electromagnets are formed in large numbers along a circular line along the XY axis, in large numbers along a circular line in the Z An attitude control device for an artificial satellite or space station, characterized in that the attitude is controlled by interaction with geomagnetism. In paragraph 106
Electromagnets are formed in large numbers along a circular line along the XY axis, in large numbers along a circular line in the Z An attitude control method for an artificial satellite or space station, characterized in that the attitude is controlled by interaction with geomagnetism. According to any one of paragraphs 1 to 95
A greenhouse with one or more partitions forming a room that can be filled with hot air, the bottom made of a material with high light reflection and heat conductivity, a heating means formed on the bottom, and the heating means or the top made of a transparent material. A hot air balloon drone is heated by the effect, and the bulkhead is formed with valves capable of discharging heat vertically in several stages to raise or lower the part of the hot air balloon drone. According to any one of paragraphs 1 to 95
A greenhouse with one or more partitions forming a room that can be filled with hot air, the bottom made of a material with high light reflection and heat conductivity, a heating means formed on the bottom, and the heating means or the top made of a transparent material. A method of raising and lowering a hot air balloon drone, wherein the bulkhead is heated by the effect and valves capable of releasing heat are formed vertically in several stages to raise or lower the part that becomes the hot air balloon drone. For aircraft that can rise due to the greenhouse effect
In the case where the upper part is made of a transparent material and the lower part is formed with a heating means, the heating means is formed of one or more hemispheres and the hemisphere is made of a material that can reflect light, and the air is heated due to the light being focused on the hemisphere or the hemisphere is focused on the hemisphere. A hot air balloon drone, characterized in that it can be heated by forming a means that can be heated in the part and can rise with hot and light air like a sky lantern or a hot air balloon. For aircraft that can rise due to the greenhouse effect
In the case where the upper part is made of a transparent material and the lower part is formed with a heating means, the heating means is formed of one or more hemispheres and the hemisphere is made of a material that can reflect light, and the air is heated due to the light being focused on the hemisphere or the hemisphere is focused on the hemisphere. A method of raising and lowering a hot air balloon drone, characterized in that it forms a means that can be heated in the part and heats it so that it can rise with hot and light air, such as a wind lantern or a hot air balloon. According to any one of paragraphs 65 to 113
An aircraft equipped with a propeller and operated by electromagnets, with the polarity of the electromagnets arranged vertically or horizontally on the ground, and a device that turns on and off the intermittent electromagnets, thereby providing acceleration in direction control and thrust. According to any one of paragraphs 65 to 113
An aircraft with a propeller is operated by electromagnets, but the polarity of the electromagnets is formed vertically or horizontally on the ground, and a device that turns on and off the intermittent electromagnets functions to accelerate direction control and thrust. How to steer and accelerate. According to any one of paragraphs 65 to 113
A vehicle that is operated by electromagnets and has a plurality of electromagnets polarized vertically or horizontally on the ground, thereby providing acceleration in direction control and thrust by a device that turns on and off the intermittent electromagnets. According to any one of paragraphs 65 to 113
The vehicle is operated by electromagnets, but the polarity of the electromagnets is formed in a number of directions vertically or horizontally on the ground, and the vehicle's direction adjustment and thrust are accelerated by a device that turns on and off the intermittent electromagnets. Acceleration method. In a levitation device for an aircraft or submarine using electromagnets, the NS polarity of the vertical electromagnets is formed in large numbers to coincide with the NS pole of the geomagnetism, so that it intermittently matches the NS direction of the geomagnetism regardless of the rotation direction of the UFO. A flotation device for vehicles such as aircraft or submarines. In a levitation device for an aircraft or submarine using electromagnets, the NS polarity of the vertical electromagnets is formed in large numbers to coincide with the NS pole of the geomagnetism, so that it intermittently matches the NS direction of the geomagnetism regardless of the rotation direction of the UFO. A method of levitating vehicles such as aircraft or submarines. In an aircraft or submarine flotation device using electromagnets, the polarity of the geomagnetism is input to the control unit through a topographic map or geomagnetic sensor, and the control unit forms a plurality of NS polarities of the vertical electromagnets to match the NS poles of the geomagnetism, intermittently causing the UFO to appear. A flotation device for vehicles such as aircraft or submarines, which outputs electricity intermittently so that the polarity of the electromagnet is formed to match the NS direction of the geomagnetism regardless of the direction of rotation. In an aircraft or submarine flotation device using electromagnets, the polarity of the geomagnetism is input to the control unit through a topographic map or geomagnetic sensor, and the control unit forms a plurality of NS polarities of the vertical electromagnets to match the NS poles of the geomagnetism, intermittently causing the UFO to appear. A method of levitating a vehicle such as an aircraft or submarine, characterized in that electricity is output intermittently so that the polarity of the electromagnet is formed to match the NS direction of the geomagnetism regardless of the direction of rotation. According to any one of paragraphs 65 to 121
The vehicle is driven by electromagnets, but the polarity of the electromagnets is formed vertically or horizontally on the ground, and the direction adjustment and thrust are accelerated by a device that turns on and off the intermittent electromagnets. The direction the vehicle wants to go is controlled by the control unit. A vehicle characterized in that electricity is output from the control unit so that a plurality of electromagnets formed vertically or horizontally on the ground are intermittently energized in the desired direction. According to any one of paragraphs 65 to 121
The vehicle is driven by electromagnets, but the polarity of the electromagnets is formed vertically or horizontally on the ground, and the direction adjustment and thrust are accelerated by a device that turns on and off the intermittent electromagnets. The direction the vehicle wants to go is controlled by the control unit. A method of controlling and accelerating the direction of a vehicle, characterized in that electricity is output from the control unit so that a plurality of electromagnets formed vertically or horizontally on the ground are intermittently energized in the desired direction. According to any one of paragraphs 1 to 123
In drones or UFO-type drones, the drone is shaped like a dish-shaped disk so that it can be held in the hand by forming it long into a dish shape. The drone has a return home function, and when thrown while rotating like a dish-shaped disk, the return home function makes it like a boomerang. A boomerang dish-shaped disk characterized in that it returns. In article 124
The dish-shaped disk and the drone or UFO-type drone have a common rotation axis at the center, but the dish-shaped disk and the drone or UFO-type drone rotate separately, so that the dish-type disk and the drone or UFO-type drone have little influence on each other's rotation. A boomerang dish-shaped disk that prevents it from going crazy. According to any one of paragraphs 1 to 123
In drones or UFO-type drones, the drone is shaped like a dish-shaped disk so that it can be held in the hand by forming it long into a dish shape. The drone has a return home function, and when thrown while rotating like a dish-shaped disk, the return home function makes it like a boomerang. A method of making a dish-shaped disk, characterized by returning, return like a boomerang. In article 126
The dish-shaped disk and the drone or UFO-type drone have a common rotation axis at the center, but the dish-shaped disk and the drone or UFO-type drone rotate separately, so that the dish-type disk and the drone or UFO-type drone have little influence on each other's rotation. A method of making a dish-shaped disk return like a boomerang, which is characterized by preventing it from going crazy. One . Drone delivery method comprising the following steps:
Providing an aircraft comprising a cargo area containing at least one package and at least one unmanned aerial vehicle;
Flying an aircraft to a specific location and
releasing at least one unmanned aerial vehicle from the cargo area while the aircraft is flying or hovering, wherein at least one package is secured to the at least one unmanned aerial vehicle using an app.
A business method characterized by payment, location confirmation through navigation, and wireless control of the aircraft. A business method according to method claim 128, further comprising the step of releasing the package from the unmanned aerial vehicle at the destination. A business method characterized in that it further comprises the step of sending the unmanned aerial vehicle back to the aircraft in the cargo area after the step of releasing the package of method claim 129. In method claim 128, the aircraft is characterized as an unmanned airship equipped with solar cells to supply power to the unmanned aerial vehicle. In method claim 128, the unmanned aerial vehicle is characterized as being an unmanned aerial vehicle with robotic functions. In an airship, a device that provides buoyancy by a gas lighter than air, such as hydrogen or helium, forms a means for sucking and discharging air, such as a piston, and has an inlet and outlet on one side of this means. An air pocket made of a relatively more elastic material is formed on the other side, and an air pocket made of a relatively less elastic material is formed on the other side. When the air pocket made of a relatively more elastic material is filled with a gas lighter than air, the airship takes off and takes off. An airship characterized in that the airship descends or lands in an air pocket made of less elastic material. According to any one of paragraphs 1 to 132
In an airship, a device that provides buoyancy by a gas lighter than air, such as hydrogen or helium, forms a means for sucking and discharging air, such as a piston, and has an inlet and outlet on one side of this means. An air pocket made of a relatively more elastic material is formed on the other side, and an air pocket made of a relatively less elastic material is formed on the other side. When the air pocket made of a relatively more elastic material is filled with a gas lighter than air, the airship takes off and takes off. An airship characterized in that the airship descends or lands in an air pocket made of less elastic material. In vehicles that generate thrust through the interaction of the Earth's magnetic field and electromagnets, an aircraft is controlled by a rudder or ailerons, a submarine is controlled by a horizontal rudder, and a ship is controlled by a rudder, etc. In a vehicle that generates thrust by the interaction of the Earth's magnetic field and electromagnets, the direction control method of the vehicle is characterized in that the direction is controlled by forming a rudder or aileron in an aircraft, by a horizontal rudder in a submarine, or by a rudder in a ship. In article 135
When an aircraft uses a rudder or aileron to control direction, a submarine uses a horizontal rudder, and a ship uses a rudder, one or more rudders, ailerons, a horizontal rudder, or a rudder are formed in the center of the body, but can rotate left and right to provide resistance to air or water. A vehicle characterized by a change in direction left, right, up and down. In article 136
When an aircraft uses a rudder or aileron to control direction, a submarine uses a horizontal rudder, and a ship uses a rudder, one or more rudders, aileron horizontal rudders, and a rudder are formed in the center of the body, and can rotate left and right to provide resistance to air or water. A method of controlling the direction of a vehicle, characterized in that the direction is changed left, right, up and down. It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.
In this way, the UFO-type drone has a cylindrical air intake in the middle, and at least 4 fans are formed in the cylindrical air intake, roughly like a drone, and at least one fan sucks air from the center of the inside of the UFO-type drone, roughly like a drone. In this case, a UFO-type drone guard is characterized in that thrust is generated by discharging air to the bottom through four pipes. In paragraph 139
It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.
In this way, the UFO-type drone has a cylindrical air intake in the center, and at least one fan is formed in the cylindrical air intake, roughly like a drone.
The FAN is a UFO-type drone guard that is formed in a cylindrical hole inside the UFO of the pipe, by forming a hole in the bottom of the UFO, or in the middle of the pipe. In paragraph 139
By having the same appearance as the original UFO, the drone-like FAN is used as a UFO.
A UFO-type drone guard characterized by forming a hole in the center of the bottom to serve as an intake port, forming one or more holes around the center to serve as an intake port, and forming propellers in each hole around the center. For general drones
It is designed to have the same appearance as the original UFO, and the propeller of the drone is positioned to become an intake port by forming a hole in the center on the bottom of the UFO, and one or more holes are formed around the center so that the propeller of the drone is positioned to become an intake port. A UFO-type drone guard that is characterized by covering it to form a propeller guard. In any one of paragraphs 139 to 142
A noise-free UFO-type drone that creates a sound-absorbing material inside the piping through which the air inside the drone circulates. It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.
In this way, the UFO-type drone has a cylindrical air intake in the middle, and at least 4 fans are formed in the cylindrical air intake, roughly like a drone, and at least one fan sucks air from the center of the inside of the UFO-type drone, roughly like a drone. In this case, a drone guard method is characterized in that thrust is generated by discharging air to the bottom through four pipes. In paragraph 144
It has the same appearance as the original UFO, and a drone-like FAN is formed in a cylindrical shape inside the UFO almost perpendicular to the ground. The air moving to the FAN moves through the pipe, but the pipe is formed at an almost right angle and points toward the ground. It is formed to be discharged. One or more such fans and pipes are formed like a drone.
In this way, the UFO-type drone has a cylindrical air intake in the center, and at least one fan is formed in the cylindrical air intake, roughly like a drone.
The FAN is a UFO-type drone guard, which is characterized by being formed in a hole in the cylindrical shape inside the UFO of the pipe, by forming a hole in the bottom of the UFO, or by forming it in the middle of the pipe. In paragraph 144
By having the same appearance as the original UFO, the drone-like FAN is used as a UFO.
A UFO-type drone guard method characterized by forming a hole in the center of the floor to serve as an intake port, forming one or more holes around the center to serve as an intake port, and forming propellers in each hole around the center. For general drones
It is designed to have the same appearance as the original UFO, and the propeller of the drone is positioned to become an intake port by forming a hole in the center on the bottom of the UFO, and one or more holes are formed around the center so that the propeller of the drone is positioned to become an intake port. A UFO-type drone guard method characterized by covering it with a propeller guard. In any one of paragraphs 144 to 147
A noise removal method for UFO-type drones that involves forming a sound-absorbing material inside the piping through which the air inside the drone circulates. According to any one of paragraphs 1 to 148
To control a UFO drone, you insert a device such as a smartphone with a Wi-Fi hotspot inside the drone and control it while viewing the smartphone or PC from the outside of the UFO drone.
When a call comes through the delivery agency's app installed on the delivery agency's smartphone inside the UFO drone, a robotic arm and camera are formed inside the UFO drone, and this can be viewed from the outside of the UFO drone through a smartphone or Control the drone using WIFI while looking at the PC, watching the navigation using the camera inside the smartphone inside the drone, watching the robot arm and camera inside the drone, and watching the streets and buildings transmitted through the camera that can see the outside of the drone. A UFO drone characterized by doing so. According to any one of paragraphs 1 to 148
To control a UFO drone, you place a device such as a smartphone that can use WiFi as a hotspot inside the drone and control it while viewing the smartphone or PC from the outside of the UFO drone.
When a call comes through the delivery agency's app installed on the delivery agency's smartphone inside the UFO drone, a robotic arm and camera are formed inside the UFO drone, and this can be viewed from the outside of the UFO drone through a smartphone or Control the drone using WIFI while looking at the PC, watching the navigation using the camera inside the smartphone inside the drone, watching the robot arm and camera inside the drone, and watching the streets and buildings transmitted through the camera that can see the outside of the drone. A method of controlling a UFO drone, characterized in that: In paragraph 149
When the delivery agent's call is made from the smartphone inside the UFO, this call is made to ring on an external smartphone or PC, and the location of the drone is displayed on the navigation using a connected navigation system. A UFO drone is characterized in that the drone is controlled by viewing the scene outside the drone transmitted to a smartphone or PC. In paragraph 150
When the delivery agent's call is made from the smartphone inside the UFO, this call is made to ring on an external smartphone or PC, and the location of the drone is displayed on the navigation using a connected navigation system. A UFO drone control method characterized by controlling the drone while looking at the scene outside the drone transmitted to a smartphone or PC. In either section 149 or 151
A UFO drone characterized in that the legs, wheels, robot arm, and radio control arm formed on the outside of the UFO drone are controlled by WIFI in accordance with the control of the drone itself. In either section 149 or 151
A UFO drone control method characterized in that the legs, wheels, robot arm, or radio control arm formed on the outside of the UFO drone are controlled by WIFI in accordance with the control of the drone itself.