RU2444819C2 - Method and apparatus for protection from lightning based on lightning-protection film - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: method for protection from lightning involves transfer of charge onto a conducting lightning-protection film, thereby eliminating lightning-induced charges on the conducting surface and protecting the conductor from being struck by lightning. The apparatus for protection from lightning has a conducting film and an insulating film between the conducting film and the conductor, wherein the conducting film and the surface of the conductor respectively form two capacitor electrodes after deposition of the insulating film on the conductor. A protective film can also be deposited on the outer surface of the conducting film. The insulating film can be replaced with a layer of air such that the lightning-protection film includes the conducting film only. The lightning-protection film can be deposited on the outer or inner surface of the conductor.

EFFECT: easier protection of objects from lightning.

9 cl, 3 dwg

Description

FIELD OF THE INVENTION

The present invention relates to the field of lightning protection films, in particular to a lightning protection method based on a lightning protection film.

BACKGROUND

Lightning protection technology has been known for three centuries. In 1750, Franklin invented a lightning rod, which is considered traditional and which is a conductive rod connected to the ground and superior in height to the protected structure. When struck by lightning, the intensity of the electric field at the upper point of the lightning rod increases to a value at which the lightning discharge can pass through the air, thus, the lightning rod is damaged and the structure is protected from lightning strike.

Nowadays, an increasing number of microelectronic equipment used in buildings is damaged due to electromagnetic radiation produced by the lightning rod during the passage of lightning into the ground. Therefore, a lightning rod cannot protect modern high-tech equipment, and the use of new technologies to protect against lightning is extremely necessary. In 1995 (Chinese patent CN 1049531 C), the author of the present invention described a completely new technology of protection against lightning, which avoids a direct lightning strike into a protected object. This technology can be applied not only to stationary objects located on the ground, but also to moving objects located on the ground, sky and in the air to protect them from lightning. For an object located on the ground, protection takes place as follows: an artificial plasma ball is proposed that causes the disappearance of induced charges on the protected object, as well as preventing induced charges on such an object by transferring charges of opposite polarity with respect to the induced charges to the protected object.

SUMMARY OF THE INVENTION

The objective of the present invention is to provide a simple method of protection against lightning and a device based on a lightning protection film to prevent damage by lightning caused by induced charges on the protected object, so as to protect the object from damage.

To solve the problem, the method according to the invention includes the following steps:

A. The surface of the conductor of the protected object is covered with a layer of a conductive film; moreover

B. the conductive film and the surface of the conductor of the protected object are isolated from each other, thus forming two capacitor electrodes; wherein,

C. if the conductive film is on the outside of the surface of the conductor of the protected object, the charges on it have the opposite polarity with respect to the induced charges from lightning, and the charges on the surface of the conductor of the protected object are added to the conductive film;

D. if the conductive film is located on the inner side of the surface of the conductor of the protected object, the charges on it have the same polarity with respect to the induced charges from lightning, and the charges on the surface of the conductor of the protected object are added to the conductive film; so that [movement] of charges of the same polarity with previous charges from lightning on a conductive film or the conductor of a protected object in the direction from a thundercloud to the ground prevents lightning discharge on a conductive film or conductor of a protected object.

The conductive film and the surface of the conductor of the protected object are isolated from each other by a layer of air or a solid insulating film.

The charging voltage added to the conductive film is greater than or equal to the electric potential resulting from an electrical discharge around the strip of the conductive film. The electric potential on the surface of the conductor of the protected object is zero.

The present invention can be implemented in the form of a device for protection against lightning, which includes a lightning protection film consisting of a conductive film covering the surface of the conductor of the protected object; a protective film covering the outer part of the conductive film; a non-conductive (insulating) film located between the conductive film and the surface of the conductor of the protected object; and a central processing unit (CPU) in electrical connection with the conductive film.

The above CPU includes means for monitoring the danger of lightning strikes to detect lightning, measure the polarity of lightning and analyze information about lightning, a high voltage power supply for transferring charges to a conductive film, and a control unit for controlling the process of transferring charges to a high voltage power source.

The present invention can further be implemented in the form of a device for protection against lightning, including a lightning protection film consisting of a conductive film covering the surface of the conductor of the protected object; a protective film covering the outer part of the conductive film; a non-conductive (insulating) film located between the conductive film and the surface of the conductor of the protected object; a conductive film deposited on the inside of the insulating film; and a central processing unit (CPU) in electrical connection with the conductive film.

The aforementioned CPU includes means for monitoring the danger of lightning strikes to detect lightning, measure lightning polarity and analyze lightning information, a high voltage power supply for transferring charges to a conductive film, and a control unit for controlling the process of transferring charges to a high voltage power source.

The present invention can also be implemented in the form of a lightning protection device, which is a film for protection against lightning, consisting of a conductive film covering the surface of the conductor of the protected object; the air layer located between the conductive film and the surface of the conductor of the protected object; and a central processing unit (CPU) electrically connected to the conductive film.

The above CPU includes means for monitoring the danger of lightning strikes to detect lightning, measure the polarity of lightning and analyze information about lightning, a high voltage power supply for transferring charges to a conductive film, and a control unit for controlling the process of transferring charges to a high voltage power source.

Both the above and other characteristics and advantages of the invention will become more apparent from the following detailed description with reference to the accompanying figures.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a schematic view of a first modification of the inventive device;

Figure 2 is a schematic view of a second modification of the inventive device;

Figure 3 is a schematic view of a third modification of the inventive device.

BRIEF DESCRIPTION OF REFERENCE NUMBERS

The conductor 11 of the protected object; conductive film 21; protective film 22; insulating film 23; CPU 24; conductive film 25; layer 26 of air.

BEST MODES FOR CARRYING OUT THE INVENTION

The present invention provides a simple method of protection against lightning and a device based on a lightning protection film, the method according to the invention includes the following steps:

A. The surface of the conductor of the protected object is covered with a layer of a conductive film; moreover

B. the conductive film and the surface of the conductor of the protected object are isolated from each other, thereby forming two capacitor electrodes; wherein,

C. if the conductive film is on the outside of the surface of the conductor of the protected object, the charges on it have the opposite polarity with respect to the induced charges from lightning, and the charges on the surface of the conductor of the protected object are added to the conductive film;

D. if the conductive film is located on the inner side of the surface of the conductor of the protected object, the charges on it have the same polarity with respect to the induced charges from lightning, and the charges on the surface of the conductor of the protected object are added to the conductive film; so that the [movement] of charges of the same polarity with previous charges from lightning on the conductive film or on the surface of the conductor of the protected object in the direction from the thundercloud to the ground can protect the conductive film or conductor of the protected object from being struck by lightning.

The conductive film and the surface of the conductor of the protected object are isolated from each other by a layer of air or a solid insulating film.

The charging voltage added to the conductive film is greater than or equal to the electric potential resulting from an electric discharge around the strip of the conductive film. The electric potential on the conductor of the protected object is zero. If the intensity of the electric field caused by lightning on the surface of the object is E, and the thickness of the insulating layer between the conductive film and the conductor of the protected object is d, then the indicated electric potential V around the gasket of the conductive film will be V = Ed. For example, if d = 0.1 mm, E = 3 × 10 ⁶ V / m, then V = Ed = 300 V.

The present invention can further be implemented as a conductive film based lightning protection device, as described above. Figure 1 presents a schematic view of a first example implementation of a device according to the invention. A lightning protection device based on a conductive film includes: a conductive film 21 covering a surface of a conductor 11 of a protected object; a protective film 22 covering the outer side of the conductive film 21, an insulating film 23 located between the conductive film 21 and the surface of the conductor 11 of the protected object; and a CPU 24, which is in electrical connection with the conductive film 21.

The aforementioned CPU 24 includes lightning hazard monitoring means 241 for detecting lightning, measuring lightning polarity and analyzing lightning information, a high voltage power supply 242 for transferring charges to the conductive film, and a control unit 243 for monitoring the charge transfer process of the high voltage power source. All of the above blocks are described in Chinese patent application CN 1674179A in the name of the present inventor.

Thus, when the lightning protection device is operating, the CPU 24 first determines the danger of being struck by lightning using the means 241 to monitor the danger of being struck by lightning. If a lightning strike approaches, a lightning hazard monitor 241 measures the polarity of the lightning and analyzes the lightning information. Then, the control unit 243 controls the high voltage power supply to transmit a charge with a suitable polarity and voltage (polarity and voltage are determined using the above method) to the conductive film, which protects the object from lightning.

Figure 2 presents a schematic view of a second example implementation of a device according to the invention. A lightning protection device based on a conductive film includes: a conductive film 21 covering a surface of a conductor 11 of a protected object; a protective film 22 covering the outer side of the conductive film 21; an insulating film 23 located between the conductive film 21 and the surface of the conductor 11 of the protected object; a conductive film 25 located on the inside of the insulating film 23; and a CPU 24 connected to the conductive films 21 and 25.

The configuration and operation of the aforementioned CPU 24 are similar to the operation of the CPU in the first implementation example.

Figure 3 presents a schematic view of a third example implementation of a device according to the invention. A lightning protection device based on a conductive film includes: a conductive film 21 covering a surface of a conductor 11 of a protected object; a layer of air 26 passing between the conductive film 21 and the surface of the conductor 11 of the protected object; and a CPU 24 in electrical connection with the conductive film 21.

The configuration and operation of the aforementioned CPU 24 are similar to the operation of the CPU in the first modification.

The protected object becomes an object protected from lightning after covering with the above-described film to protect against lightning. For example, by applying a film to protect from lightning, it is possible to give lightning protection properties to various objects, for example, an antenna will become a lightning protection antenna, an umbrella will become a lightning protection umbrella, a hat will become a lightning protection hat and clothing will become lightning protective clothing. In addition, a lightning protection film made in the form of a canvas can be used to cover objects, thus protecting them from damage by lightning.

It should be understood that the above description of the invention with examples of its implementation is only illustrative and not limited to the above areas. In this case, various modifications and additions are possible without changing the scope and essence of the invention, which are defined in the attached claims.

Claims (9)

1. A method of protection against lightning damage based on a lightning-protective film, comprising the following steps:
A. The surface of the conductor of the protected object is covered with a layer of a conductive film;
B. the conductive film and the surface of the conductor of the protected object are isolated from each other, thereby forming two capacitor electrodes; wherein
C. If the conductive film is on the outside of the surface of the conductor of the protected object, the charges on it have the opposite polarity with respect to the induced charges from lightning, and the charges on the surface of the conductor of the protected object are added to the conductive film;
D. if the conductive film is on the inside of the surface of the conductor of the protected object, the charges on it have the same polarity with respect to the induced charges from lightning, and the charges on the surface of the conductor of the protected object are added to the conductive film; so that the presence of charges of the same polarity with previous charges from lightning on the conductive film or on the surface of the conductor of the protected object in the direction from the thundercloud to the ground can protect the conductive film or conductor of the protected object from being struck by lightning. 2. A method of protection against lightning strike based on a lightning protection film according to claim 1, where the conductive film and the surface of the conductor of the protected object are electrically isolated from each other using a layer of air or a solid insulating film. 3. The method of protection against lightning damage based on a lightning protection film according to claim 1, where the charging voltage added to the conductive film is greater than or equal to the electric potential resulting from an electric discharge around the conductive film gasket. 4. A device for protection against lightning strike based on a lightning protection film, comprising: a conductive film covering the surface of the conductor of the protected object; a protective film covering the outer part of the conductive film; an insulating film located between the conductive film and the conductive surface of the protected object; and a CPU electrically connected to the conductive film. 5. A lightning protection device based on a lightning protection film according to claim 4, wherein said CPU includes means for monitoring the danger of lightning strike for detecting lightning, measuring lightning polarity and analyzing lightning information, a high voltage power supply for transferring charges to the conductive film, and a unit control to control the process of transferring charges by a high voltage power source. 6. A device for protection against lightning strike based on a lightning-protective film, including: a conductive film covering the surface of the conductor of the protected object; a protective film covering the outer part of the conductive film; an insulating film located between the conductive film and the surface of the conductor of the protected object; a conductive film located on the inside of the insulating film; and a CPU that is electrically connected to conductive films. 7. A lightning protection device based on a lightning protection film according to claim 6, wherein said CPU contains means for monitoring the danger of lightning strike for detecting lightning, measuring lightning polarity and analyzing lightning information, a high voltage power supply for transferring charges to the conductive film and the unit control to control the process of transferring charges by a high voltage power source. 8. A device for protection against lightning strike based on a lightning protection film, including: a conductive film covering the surface of the conductor of the protected object; a layer of air located between the conductive film and the surface of the conductor of the protected object; and a CPU that is electrically connected to the conductive film. 9. A lightning protection device based on a lightning barrier film according to claim 8, wherein said CPU contains means for monitoring the danger of lightning strikes to detect lightning, measure lightning polarity and analyze lightning information, a high voltage power supply for transferring charges to a conductive film and a unit controls to control the process of charge transfer by a high voltage power source.

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