KR101381872B1 - Plasma film for airflow control - Google Patents

Abstract

The present invention relates to a plasma film for airflow control wherein an upper electrode and a lower electrode are asymmetrically attached on the top and underside of a base film to generate plasma therefrom. According to the present invention, the plasma film is formed by attaching the upper and lower electrodes on the top and underside of the base film and then disposed on the surface of an object, thus making it simple to be installed and attached, and since soft dielectrics are used, further, the plasma film can be prefabricated with the appropriate location of the two electrodes to provide optimal performance, thus being freely attached to a desired position. Especially, the plasma film according to the present invention can be just attached even on the gentle curved surface or the surface of the prefabricated object, thus sufficiently achieving the effects of the present invention. Accordingly, if the plasma film is just attached to the surface of an express train or the wing surface of an airplane, air resistance or aerodynamic noise can be reduced, and if it is just attached on the blade surfaces of a wind generator, lift can be increased to improve the generating efficiency. [Reference numerals] (101) High voltage alternating current (d)

Description

Surface-Mount Plasma Generating Film for Air Flow Control {PLASMA FILM FOR AIRFLOW CONTROL}

The present invention relates to a surface-attached plasma generating film for air flow control, and more particularly, to a plasma generating device that can artificially control the flow of high-speed air flowing on the surface of the object in the form of a very thin film exposed to the air It relates to a surface-attached plasma generating film for controlling the flow of the flow of the surface of the object.

In general, the plasma generating apparatus includes a pair of electrodes configured to receive high voltages, respectively, and operates to allow glow and discharge of air flowing between the pair of electrodes to generate plasma.

As shown in FIG. 1, a pair of electrodes including the upper electrode 10 and the lower electrode 20 are asymmetrically attached to the conventional plasma generator as shown in FIG. 1.

That is, the upper electrode 10 is attached to the front surface 1a of the object 1 and exposed to the outside air, and the lower electrode 20 is attached to the rear surface 1b of the object 1.

Therefore, when a high voltage AC power is supplied from the power supply unit 30 and a high voltage is applied to the upper electrode 10, plasma is generated at the rear of the upper electrode 10, and the upper electrode 10 and the lower electrode are generated by the generated plasma. As the air between the 20 is ionized, the ion air wind W is generated.

The ion air wind may reduce air resistance or aerodynamic noise that may occur when the object 1 moves or rotates at high speed.

However, the conventional plasma generator is attached to the surface portion of the object (1) mainly to reduce air resistance or aerodynamic noise, the performance of the plasma generator is two electrodes, the upper electrode 10 and the lower electrode 20 ) Is affected by the attachment spacing.

However, in most cases, the thickness of the object 1 to which the plasma generator is attached is not uniform. Therefore, the thickness of the object 1 is not uniform, so that the upper electrode 10 and the lower electrode 20 are attached at regular intervals. Although difficult to attach the upper electrode 10 and the lower electrode 20 to the surface 1a and the rear surface 1b of the object 1, there is a problem in that the attachment interval is also difficult to attach constantly.

In addition, even though the upper electrode 10 and the lower electrode 20 are attached to the surface 1a and the rear surface 1b of the object 1, wiring work for inputting high voltage AC power to the two electrodes is also difficult.

Therefore, the present invention is to solve these problems, the present invention is to produce a plasma that can artificially control the flow of high-speed air flowing on the surface of the object in the form of a thin film of the generator device exposed to the air using the same It is an object of the present invention to provide a plasma generating film for attaching the surface for controlling the air flow that can control the flow of the surroundings.

In addition, the present invention can induce the generation of plasma even if only attached to the surface of the object is easy to install, and can easily control the flow of flow around the object precisely, regardless of the surface shape or thickness of the object It is an object of the present invention to provide a plasma generating film for attaching the surface for controlling the air flow.

In addition, an object of the present invention is to provide a plasma generating film for surface attachment that can be applied to various fields such as high-speed train, automobile, aircraft, wind power generator.

In order to solve such a technical problem,

An upper surface and a lower surface of the base film provides a plasma generating film for the surface attachment for the air flow control, characterized in that the asymmetrical attachment to the upper electrode and the lower electrode to enable plasma generation.

In this case, the upper electrode is attached to the front of the upper surface of the base film, the lower electrode is characterized in that attached to the rear of the lower surface of the base film.

And, the base film is characterized in that the dielectric film.

In particular, the dielectric film is characterized by consisting of any one material of polyethylene (polyethylene) or polystyrene (polystyrene).

In addition, a protective film is further attached to an upper surface of the base film to which the upper electrode is attached.

In addition, the base film is characterized in that the adhesive is attached to the surface of the object.

At this time, the surface of the object is characterized in that the surface of the rear or front head of the high-speed train.

And, the surface of the object is characterized in that the wing surface of the aircraft.

In addition, the surface of the object is characterized in that the blade surface of the wind turbine.

According to the present invention, a plasma generating film can be prepared by attaching an upper electrode and a lower electrode to generate a plasma on a base film, and can be directly installed on the surface of an object. Since the two electrodes are positioned in order to exhibit the best performance, they can be freely attached to the desired position later.

In particular, the present invention can be obtained by only attaching the present invention to a smooth curved surface or the surface of an already manufactured object, and when applied to the surface of a high-speed train or the surface of an aircraft wing, air resistance and aerodynamic noise can be reduced. In addition, when attached to the blade surface of the wind power generator can increase the lift force to improve the power generation efficiency.

1 is a view illustrating a plasma generating apparatus for controlling a conventional general air flow.
Figure 2 is a view showing for explaining a plasma generating film for the surface attachment for air flow control according to the present invention.
3 is a view showing a state before and after application to the rear portion of the high-speed train as an example of the application of the plasma generating film for the surface attachment for air flow control according to the present invention.
4 to 6 illustrate various application examples of the surface-attached plasma generating film for controlling air flow according to the present invention.

With reference to the accompanying drawings, the plasma generating film for attaching the surface for controlling the air flow according to the present invention will be understood by the embodiments described in detail below.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

2 is a view showing a surface-attached plasma generating film for air flow control according to the present invention and Figure 3 is an application example of the surface-attached plasma generating film for air flow control according to the present invention the tail of a high-speed train 4 and 6 illustrate various application examples of the surface-attached plasma generating film for controlling air flow according to the present invention.

According to FIG. 2, the surface-attached plasma generating film 100 for air flow control according to the present invention generates a plasma capable of artificially controlling the flow of high-speed air when attached to the surface 1a of the object 1. By controlling the flow around the object (1) exposed to the air by controlling the flow of air around the high-speed vehicle, such as high-speed trains, automobiles, aircrafts to reduce air resistance and aerodynamic noise, And by improving the lift of the wind turbine blade, etc. can improve the operating efficiency of the aircraft and wind turbine.

The surface-attached plasma generating film 100 for air flow control according to the present invention is asymmetrically attached to the upper electrode and the lower electrode 130 on the upper and lower surfaces to the base film 110 so that the plasma can be generated. Is done.

In this case, the upper electrode 120 is attached to the front of the upper surface of the base film 110 and leaks to the outside, and the lower electrode 130 is attached to the rear of the lower surface of the base film 110.

Hereinafter, the structure of the present invention will be described in more detail.

The base film 110 uses a dielectric film such as polyethylene or polystyrene. At this time, the base film 110 by using a dielectric film having flexibility, when the surface-attached plasma generating film 100 for air flow control according to the present invention when the surface (1a) of the object (1) is curved Even if it consists of, it can be easily attached.

The upper electrode 120 and the lower electrode 130 are asymmetrically attached to the upper and lower surfaces of the base film 110. That is, the upper electrode 120 is attached to the front of the upper surface of the base film 110, the lower electrode 130 is attached to the rear of the lower surface of the base film 110.

Therefore, when a high voltage AC power is supplied from the power supply unit 101 and a high voltage is applied to the upper electrode 120, plasma is generated at the rear of the upper electrode 120, and the upper electrode 120 and the lower electrode are generated by the generated plasma. As the air between the 130 is ionized, the ion air wind is induced.

The induced ion air wind may reduce air resistance or aerodynamic noise that may occur when the object 1 moves or rotates at high speed.

On the other hand, the upper electrode 120 positioned above the base film 110 may be separated from the base film 110 or surface wear due to friction with air when directly exposed in the air.

Therefore, the upper electrode 120 is separated by air resistance by attaching a protective film 140 of the same material as the base film 110 to the upper surface of the base film 110 to which the upper electrode 120 is attached. Prevent wear.

The plasma generating film 100 for surface attachment for air flow control according to the present invention manufactured as described above may be attached to the surface 1a of the object 1 to be attached by applying an adhesive to the lower portion of the base film 110. have.

That is, since the surface-attaching plasma generating film 100 for controlling the air flow according to the present invention is attached only to the surface 1a of the object 1, the installation work can be controlled simply and precisely.

3 is a view showing an example in which the surface-attached plasma generating film 100 for air flow control according to the present invention applied to a high-speed train. This can confirm the air flow state before and after attaching the plasma generating film 100 of the present invention to the rear part (or front head part) 2a of the high speed train 2.

That is, before the plasma generating film 100 is attached to the rear part (or front head) 2a of the high speed train 2, when the high speed train 2 is driven, it passes through the rear part (or front head) 2a of the high speed train. Air falls from the surface of the vehicle, creating a vortex, which generates air resistance or aerodynamic noise.

On the contrary, when the plasma generating film 100 is attached to the rear part (or front head) 2a of the high speed train 2 and the high speed train 2 is driven, the high speed train may be formed by the plasma generated by the plasma generating film 100. Momentum is added to the flow around the tail 2a of 2).

Due to this action, the air around the rear portion 2a of the high speed train 2 can flow along the surface of the vehicle without separation of the flow. As a result, not only the air resistance of the high speed train 2 can be reduced, but also the aerodynamic noise can be reduced.

Meanwhile, FIGS. 4 to 6 are diagrams for explaining various application examples of the surface-attaching plasma generating film for controlling air flow according to the present invention.

That is, the plasma generating film 100 of the present invention uses a dielectric of a flexible material and places the two electrodes so as to exhibit the best performance, and thus, the surface-producing plasma generating film 100 for controlling the air flow prepared in advance is desired. It can be attached and used freely, as well as the above-mentioned high-speed train, the lifting force when attached to the blade 3a surface of the aircraft 3 shown in FIG. 4 or the blade 4a of the wind turbine 4 shown in FIG. By increasing the energy efficiency of the aircraft 3 and the power generation efficiency of the wind power generator 4 can be improved.

In addition, the plasma generating film 100 of the present invention may be applied to the blades 5a for the various cooling fans 5 driven for cooling as shown in FIG. 6, thereby reducing the air resistance and increasing the cooling efficiency.

As such, by simply attaching the plasma generating film 100 according to the present invention to the surface of an object, particularly a smooth curved surface or an already manufactured object, an effect of reducing air resistance can be obtained.

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: object 2: high speed train
2a: tail part 3: aircraft
3a: wing 4: wind turbine
4a: blade 5: cooling fan
5a: wing 100: plasma generating film
110: base film 120: upper electrode
130: lower electrode 140: protective film

Claims (9)

It is made by attaching the upper electrode and the lower electrode asymmetrically to enable plasma generation on the upper and lower surfaces of the base film,
The upper electrode is attached to the front of the upper surface of the base film, the lower electrode is attached to the rear of the lower surface of the base film,
The protective film is attached to the upper surface of the base film to which the upper electrode is attached,
The base film is a plasma generating film for surface adhesion for air flow control, characterized in that attached to the surface of the object with an adhesive.
delete The method according to claim 1,
The base film is a plasma generating film for surface adhesion for air flow control, characterized in that the dielectric film.
The method of claim 3,
The dielectric film is a plasma generating film for surface adhesion for air flow control, characterized in that made of any one material of polyethylene (polyethylene) or polystyrene (polystyrene).
delete delete The method according to claim 1,
Surface of the object is a plasma generating film for the surface attachment for air flow control, characterized in that the surface of the rear or front head of the high-speed train.
The method according to claim 1,
Surface-attached plasma generating film for air flow control, characterized in that the surface of the object is the wing surface of the aircraft.
The method according to claim 1,
Surface-attached plasma generating film for air flow control, characterized in that the surface of the object is the blade surface of the wind turbine.

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