KR20190140288A - Drones for making and spraying artificial snow - Google Patents

Abstract

Disclosed is a drone capable of generating and spraying artificial snow in the air. The present invention discharges the artificial snow on a progress path of winds generated by rotation of a wing part after generating the artificial snow by mixing water and compressed air, thereby smoothly spraying the artificial snow by using thrust of the drone itself without a separate spread device.

Description

Drones for making and spraying artificial snow}

The present invention relates to a drone for artificial snow injection, and more particularly to a drone for artificial snow generation and injection for generating artificial snow in the air and spraying to the ground.

Drones were first developed for military use, but recently they are used in various fields due to the convenience of transport and storage, and ease of operation.

Using the characteristics of drones that can freely support three-dimensional space and view objects from various angles, continuous research has been carried out to replace things that cannot be done on the ground or costly and time-consuming.

Recently, it is most commonly used for broadcast photography, and disaster disaster monitoring, logistics transportation, and forest fire extinguishing. Applications such as pesticide spraying are expanding.

Although the use of drones is already common in the shooting of dramas, movies, or broadcast programs, the necessity of using drones to create props and surroundings for simple photography is also emerging.

In shooting dramas and movies, it is sometimes necessary to set the weather according to the situation in the play in order to create a dramatic atmosphere.

Conventionally, in order to spray artificial snow or rain, a separate device installed on the ground was used, which is too heavy, generates noise during movement, and is fixed on the ground, and the movement range of the bar is limited.

In addition, there is a problem in that additional cost is required to diffuse the generated snow in the air efficiently.

Utility Model Registration No. 20-0479365

It is an object of the present invention to provide a drone for generating and spraying artificial snow in the air.

The present invention, in order to achieve the above object,

A plurality of wing parts coupled to the body part so that the body part can fly;

An artificial snow generating module unit provided at one side of the body to generate artificial snow;

A control unit for controlling driving of the snow generation module unit, at least one discharge nozzle for discharging the snow generated by the snow generation module unit to the outside, and fixed to a rotation axis of the wing unit to provide rotational power to the wing unit; And a power supply unit for supplying electrical energy to the drive unit and the artificial snow generating module unit, wherein the discharge nozzle is disposed on a path of wind generated by the wing unit.

Preferably, the snow generating module unit is a water storage unit formed with a space for storing water, a pump unit for providing power to draw the water of the reservoir by receiving electrical energy from the power supply unit, the discharged water is discharged A first pipe passage leading to the nozzle includes an air compressor and a second pipe passage leading air compressed by the air compressor to the discharge nozzle.

Preferably, the discharge nozzle is characterized in that the two holes are formed so that the first pipe and the second pipe is connected to one side, the discharge port for discharging the artificial snow on the other side.

Preferably, the power supply unit is characterized in that the battery is electrically connected to the control unit, the snow generation module unit and the drive unit.

The present invention has an effect of effectively dispersing the snow produced by using the thrust of the drone by being disposed on the wind propagation path generated by the snow discharge nozzle in the wing.

The present invention has the effect of generating artificial snow using only air and water outside without using a separate refrigerant using an air compressor.

1 is a perspective view of a drone for snow injection according to an embodiment of the present invention.
2 is a schematic cross-sectional view of FIG. 1.
3 is a cross-sectional view of FIG. 1 in which a configuration of an artificial eye generation module unit according to an embodiment of the present invention is embodied.
Figure 4 illustrates in detail the operating principle of the snow-generating module unit according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

In addition, various modifications may be made to the embodiments described below. The examples described below are not intended to be limiting of the embodiments, but should be understood to include all modifications, equivalents, and substitutes for them.

This will be described logically according to the drawings.

1 is a perspective view of a drone for snow injection according to an embodiment of the present invention. 2 is a schematic cross-sectional view of FIG. 1.

As shown in Figure 1 and 2, the drone for snow injection according to the present invention, the body portion 100, wing 200, the discharge nozzle 400, the snow generation module 300, the control unit 320, a driver 210, and a power supply 310.

Body portion 100 constitutes the overall shape of the drone, considering that it is directly exposed to the outside, having a certain hardness and tensile force, and can fly in the air for a long time, easily change direction, vertical movement It is preferable to use a light metal material to enable this.

More specifically, it will be appropriate to use metals such as aluminum, stainless steel, duralumin and the like.

In addition, in order to minimize the resistance of the air during the flight, the outer thickness of the body portion 100 is configured as thin as possible, providing a power supply unit 310 and the snow generating module unit 300, the control unit 320 and the like to provide power It is desirable to secure a minimum internal space so that it can be stored.

There is no particular limitation with respect to the shape of the body portion 100, but it is preferable that it is formed with symmetry to maintain an optimal balance during flight.

The edge of the body portion 100 may be formed with a groove, etc. to which the wing portion 200 may be fixed, and more preferably, the wing portion may be formed on the plurality of radial leg portions 120 extending from the body portion 100. 200 may be fixed at a certain distance from the body portion (100).

In addition, the radial leg portions 120 may be provided at regular intervals on the body portion 100 to maintain the body portion 100 in perfect balance.

 The body portion 100 does not necessarily need to be formed to completely seal the internal power supply portion 310 from the outside, and maintains a constant frame and protects the power supply portion 310 stored therein from external shocks. If so, any shape can be changed.

In the lower part of the body portion 100, a separate body that can support and maintain a certain distance from the surface in order to prevent damage to contact with the surface and collision of the body portion 100 or wing 200 of the drone during takeoff and landing of the drone The support 110 may further include.

The support 110 may be formed of one body with the body portion 100, or may be formed by binding to the leg portion 120 extending from the body. The support 110 may be symmetrically formed from the center of the drone body portion 100 to form a drone. If the surface can be firmly supported, the shape or structure is not particularly limited.

Wing portion 200, at least two blades 201 is provided with a plurality of propeller form formed by extending from the rotation center portion, one side or body portion 100 of the body portion 100 to rotate at a sufficient distance from the body It is fixed to the leg portion 120 that extends from to provide the thrust for the flight of the drone.

Each blade 201 provided in one wing 200 may have the same size and shape, and each wing 200 does not necessarily need to be identical in shape, and according to the shape, It can take on different functions, such as providing propulsion or redirecting drones.

 The material of the blade 201 is suitable to use a light reinforced plastic material in order to generate the maximum rotational force with a small power, it is also possible to apply a material such as alloy, aluminum, duralumin, etc. depending on the application.

The blade 201 may be directly exposed to the outside, but in order to prevent the user's safety and damage of the surrounding facilities, one side may be configured to rotate while being stored and fixed in an open housing (not shown).

At this time, the housing is preferably configured so that one side is opened so that the thrust due to the rotation of the blade 201 is not lost, or a plurality of through-holes are formed to allow good ventilation.

The wing unit 200 is preferably rotated by being rotated so that its rotation axis is in the direction of gravity, but the rotation axis direction is changeably applied as long as there is no problem in flight even when the leg 120 is tilted at an angle.

In addition, it is also possible to change the rotation axis of the wing portion 200 coupled for direction control, altitude control, or configuration to change the rotation axis mechanically through electrical energy during flight.

The artificial eye generation module unit 300 is provided on one side of the body part 100 to generate artificial snow by mixing the stored water and external air.

The artificial snow generating module unit 300 is an electronic device that is operated by receiving electric energy from the outside, and is housed inside the body unit 100 and preferably maintained in a safe state from wind or impact during landing. Therefore, it is also possible to further include a separate housing in the lower body portion 100 so that the snow-generating module module 300 is securely mounted, fixed.

The artificial snow generating module unit 300 generates artificial snow by mixing water and compressed air in itself, and then guides it to the discharge nozzle 400 through a pipeline, but preferably, two Compressed air and water through the two pipes to each one discharge nozzle 400 can be discharged at the same time as the production of the snow. In consideration of the smooth discharge of the snow, a structure for generating snow just before the discharge in the discharge nozzle 400 may be more efficient.

 The discharge nozzle 400 may be connected through a pipe at a predetermined distance from the snow generation module unit 300.

Two holes are formed at one side to allow the water and the compressed air to be introduced through the pipe from the snow generating module unit 300, and the outlet is formed at the other side, so that the water and the compressed air are discharged inside the discharge nozzle 400. Is formed so that the artificial snow is mixed is smoothly discharged to the outlet.

The discharge nozzle 400 is fixed so that the exit direction is located on the wind path generated by the rotation of the wing 200.

Therefore, the artificial snow discharged through the discharge nozzle 400 can be immediately sprayed to the outside by the wind power, it is also possible to prevent the phenomenon that the artificial snow is frozen to block the outlet.

Although the number of discharge nozzles 400 is not limited, in order to enable the smooth flight of the drone, it is provided symmetrically in the vicinity of the wing portion 200 is located opposite to the center of gravity of the drone is located in the center desirable.

The discharge nozzle 400 may be firmly fixed by the discharge nozzle fixing member 420 provided in the driving unit 210 or the leg 120 located near the wing 200.

There is no particular limitation on the shape of the discharge nozzle fixing member 420, and any configuration can be changed if the discharge nozzle 400 can be positioned on the path of the wind generated by the wing 200.

In addition, the outlet direction of the outlet is provided with a mesh 410 surrounding the outlet, to help the artificial snow discharged from the outlet in various directions, by spraying the refined snow of a predetermined size or less can maximize the production of snowfall have.

The controller 320 is electrically connected to the artificial eye generation module to control the generation speed of the artificial eye.

Specifically, by controlling the driving of the air compressor 303 and the pump unit 301, by controlling the amount of compressed air or water discharged through the pipe as necessary to control the amount of snow that is ultimately sprayed or its spraying speed can do.

Even during the flight, in order to control the amount of snow spraying, etc., it can be connected via a wireless communication with the user's terminal.

In addition, it is electrically connected to the power supply unit 310 may be operated by receiving electrical energy.

The driving unit 210 is positioned on the rotational axis of the wing unit 200 to provide rotational power to the wing unit 200. Any configuration that provides rotational power, such as a motor, may be applied to be changed in any way, and considering that the water reservoir 305 or the like should support the body 100 of the stored weight, it is light and has a high output. It would be desirable to apply.

In addition, it is electrically connected to the power supply unit 310 may be operated by receiving electrical energy.

If exposed directly to the outside, it may be appropriate to be stored inside the housing that can pack the top and side, as there is a possibility of a short circuit due to the effects of snow or rain during flight.

However, in order to prevent overheating by prolonged use, the lower opening may be used to enable ventilation.

The power supply unit 310 may be suitable to use a battery having sufficient capacity in consideration of providing the necessary power during the flight time and operating the pump unit 301 and the air compressor 303.

Removably installed inside the body portion 100, may be exchanged for recharging during discharge.

Figure 3 is a cross-sectional view of Figure 1 that embodies the configuration of the snow-generating module unit 300 according to an embodiment of the present invention. Figure 4 shows in detail the operating principle of the snow-generating module module 300 according to an embodiment of the present invention.

As shown in Figures 3 and 4, the artificial eye generation module unit 300, which is one component of the artificial snow injection drone according to an embodiment of the present invention, the reservoir 305, the air compressor 303, It consists of a pump part 301, the 1st pipe line 31, and the 2nd pipe line 33. As shown in FIG.

In some cases, the discharge nozzle 400 may be included in the snow generation module unit 300.

The reservoir 305 is formed with a constant space for storing water. Opening and closing holes are formed in the upper surface to fill the water, the lower one side is connected to the pipe to allow a certain amount of water to generate the snow to be discharged.

In order to prevent leakage during flight, the reservoir 305 is waterproof and is firmly fixed inside the body 100.

The pump unit 301 is electrically connected to the power supply unit 310 to draw water from the water storage unit 305 using electrical energy to flow through the first pipe line 31. According to the command of the control unit 320 may be drawn out as much water as necessary.

The first pipe line 31 may guide the water discharged from the water storage unit 305 by the pump unit 301 to the discharge nozzle 400. Directly connected to a hole formed on one side of the discharge nozzle (400).

The air compressor 303 may be electrically connected to the power supply unit 310 to suck external air using electrical energy to compress the air, and discharge the compressed air to the second pipe 33. The degree of compression of air will be sufficient to produce snow. The second conduit 33 may guide the air compressed by the air compressor 303 to a hole formed at one side of the discharge nozzle 400.

The discharge nozzle 400 is connected to the first conduit 31 and the second conduit 33 to produce artificial snow by mixing water and compressed air therein, and immediately after the artificial snow is formed as an outlet formed on the other side. Can be discharged.

If this process is delayed, the snow is stacked or frozen in the exit direction of the outlet, which can hinder the smooth discharge of the snow, and the part and the outlet where the first and second pipes 31 and 33 are connected. Is preferably located adjacent to each other.

The discharged snow can be smoothly sprayed downward without a separate diffuser by the wind generated by the rotating wing 200.

On the other hand, the present invention is not limited to the embodiments of the present invention and the accompanying drawings in the above description, it is apparent to those skilled in the art that various substitutions, modifications and changes are possible without departing from the technical spirit of the present invention. something to do.

10: drone for snow injection 31: the first pipe
33: second pipe 100: body
110: support portion 120: leg portion
200: wing 201: blade
210: driving unit 300: snow generation module unit
301: pump unit 303: air compressor
305: water reservoir 310: power supply
320: control unit 400: discharge nozzle
410: mesh 420: discharge nozzle fixing member

Claims (5)

Body portion;
A plurality of wing parts coupled to the body part to allow the body part to fly;
An artificial snow generation module unit provided on one side of the body to generate artificial eyes;
A control unit controlling driving of the snow generation module;
At least one discharge nozzle for discharging the generated snow to the outside;
A driving unit fixed to a rotation shaft of the wing unit to provide rotational power to the wing unit;
It includes a power supply unit for supplying electrical energy to the drive unit and the snow generating module,
The discharge nozzle,
The drone for snow injection, characterized in that disposed on the path of the wind generated by the wing.
The method of claim 1,
The snow generation module unit,
A water reservoir formed with a space for storing water;
A pump unit configured to receive electric energy from the power supply unit and provide power to draw water from the reservoir unit;
A first conduit for guiding water drawn out from the reservoir to the discharge nozzle;
Air compressors;
And a second conduit for guiding the air compressed by the air compressor to the discharge nozzle.
The method of claim 2,
The discharge nozzle,
The drone for snow injection, characterized in that the water and the compressed air is mixed to produce the snow.
The method of claim 2,
The discharge nozzle,
Two holes are formed at one side such that the first pipe line and the second pipe line are connected to each other.
A drone for snow injection, characterized in that to form a discharge port through which the snow is discharged on the other side.
The method of claim 1,
The power supply unit,
The drone for snow injection, characterized in that the battery is electrically connected to the control unit, the snow generating module unit and the driving unit.

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