CZ20004176A3 - Process of generating electricity with time variable characteristic - Google Patents

Abstract

The invention provides a more reliable definition of an electrical source energy, consumer electricity and electrical circuit or transmission line, which is electrical energy supplied to the consumer. From this it includes a procedure for introducing a source identifier or consumer or at least one of the transmission power lines or at least one of the distributors electricity, during or after that generating electromotive force. The identifier can be to a fundamental harmonic frequency or one from the highest or lowest harmonic frequencies or current. The identifier consists of unidirectional and / or bidirectional pulses and their various combinations, or can be determined by temporarily disrupting voltage synchronization and current.

Description

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Process of production of electricity with time variable course

Technical field

The invention relates to the generation of electrical power and electrical connections and is used to identify the electricity produced.

BACKGROUND OF THE INVENTION

At present, the identification of the created product has started to be promoted in various sectors of the national economy

Within the scope of the invention, identification is understood to determine the conformity of a group of objects and an individual object (product) with a unique identification mark. The identification can be done by means of an identifier (mark) on the product or by introducing an identifier into the product, for example by introducing an information signal to identify the electricity producer or the power line supplying electricity from the producer to the consumer into the electricity.

The term identification is used throughout this specification, including the claims.

Product identification often uses labels containing barcodes, symbolic, numeric, and alphabetic codes, and identity transmitters constructed as oscillating LC loops. The code combination of letters, digits, and tuning frequency of the LC loop is an identifier that uniquely defines an object.

The aforementioned identifiers and procedures for their application to objects are described in the specifications of the Russian patents No. 2045780, No. 2074696. No. 2102246, No. 2106689, No. 2112958 and in the utility model certificate No. 0006461.

However, the above identifiers and procedures are inappropriate to identify the electricity produced, transferred, distributed and consumed due to the specific features of this product.

Within the scope of the invention, electricity is understood to be a combination of a phenomenon characterized by the existence, movement and interaction of charged particles (in an electromagnetic field). One variant of the term electricity is electrical energy [3,4]. The term electricity is used throughout this specification, including the claims.

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A conventional procedure for generating variable-wave electricity is explained in the description of the Soviet Union Patent Certificate 390626 for a Remote Control Switching Unit for Power Plants, published July 11, 1973, Int. Cl. H02J 13/00, which comprises the formation of code lines for removing voltage from the power line. The prior art discloses a procedure for disconnecting power plants in urgent and atypical situations and can be interpreted as a procedure for identifying a fault in a power line.

However, the prior art does not very reliably establish a source, distributor and consumer of electricity, or a section of electrical circuit and power lines through which electricity is supplied from an electrical system to a consumer in an electrical system. power stations which are connected by a power line and together supply electricity to consumers [1],

The term electric power system is used throughout this description.

Source of electricity is a device that generates electricity. According to the energy source we distinguish thermal power plants (steam power plants, gas turbine power plants, nuclear power plants, etc.), hydroelectric power plants, solar power plants, geothermal power plants, tidal power plants, wind power plants, chemical cells, etc. throughout the description.

Description in the Author's Certificate for the Invention of the Soviet Union No. 547917 for a procedure for managing distributed objects associated with a public utility network, published on May 25, 1977, Int. C1, H02J 13/00, is concerned with a variable-wave electricity generation technique which involves generating a short control ring signal in the form of unidirectional pulses whose repetition rate coincides with the supply frequency.

BACKGROUND OF THE INVENTION The prior art discloses a method of remote circular control of distributed objects over power lines in emergency and atypical situations and can be interpreted as a procedure for identifying a fault or problem on power lines or controlled objects.

However, the prior art does not very reliably establish the source, distributor and consumer of electricity, nor the section of electrical circuit and power lines through which electricity is supplied in the electricity system from the producer to the consumer.

Also known is a method of transmitting information relating to transmission over a communication channel described in Russian Patent Application No. 94033147 for a method of transmitting transmitted information published February 20, 1998, which comprises grouping information into a series of information elements and transmitting it to a communication channel.

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The prior art method is concerned with transmitting information to stationary and mobile stations via one or more communication channels and may be interpreted as a transmitter and receiver identification procedure.

However, the state of the art does not provide a very reliable source, distributor and consumer of electricity, nor a section of electrical circuit and power lines through which electricity is supplied in an electricity system from the producer to the consumer

From a technical point of view, the present process is closer to the time-varying power generation process, including the generation of electromotive voltage, as described in the US Patent Authentication Certificate No. 758387 for the procedure of managing distributed objects over a power line which includes generating a control signal. in the form of pulses with a repetition rate corresponding to the supply frequency, the pulses causing asymmetry of the sine wave of the supply voltage with respect to the timeline.

Within the scope of the present invention, an information signal is a physical process (or phenomenon) that transmits a message (information) about the event, state or property of the object being tracked, or sends control commands, instructions, alerts, and the like. For example, the information signal may take the form of a voltage pulse or a series of voltage pulses with a certain waveform at one of the harmonic oscillations or over the full range of voltage harmonic oscillations.

The term information signal is used throughout this description.

The aforementioned prototype performs remote control of objects distributed over power lines in emergencies and atypical situations.

However, the prototype does not reliably establish the source, distributor and consumer of electricity, nor the section of the electric circuit and the power line through which electricity is supplied in the electricity system from the producer to the consumer.

SUMMARY OF THE INVENTION

The object of the invention is to increase the reliability of determining the source (power), the consumer of electricity, the section of the electrical circuit and the power lines through which the electricity is supplied in the electricity system from the producer to the consumer, as well as the electricity distributor (distribution unit) between consumers or networks.

The object of the invention can be achieved by a process of generating time-varying electricity, including generating an electromotive voltage, the method further comprising introducing the identifier of the source, the consumer of electricity or at least one of the power lines or at least one of the electricity distributors to

9 during or after said generation of an electric motor voltage.

This is how electricity is identified as a product.

The process of generating time-varying electricity with an identifier may comprise replenishing the electricity with at least one harmonic oscillation of AC voltage or current, the identifier being said harmonic oscillation.

Within the scope of the invention, we mean a harmonic value that periodically changes with a certain frequency over time, such as voltage (harmonic voltage oscillation). The harmonic oscillation with the frequency equal to the frequency of the non-sinusoidal periodic value is the fundamental (first) harmonic oscillation. The remaining harmonic oscillations with the frequency, which is eg 2x, 3x, 4x etc. higher than the fundamental harmonic frequency, the harmonic oscillations are higher, and, on the other hand, the harmonics with a frequency lower than the basic harmonic frequency are the lower harmonics [2],

The term harmonic oscillation is used throughout this specification, including the claims.

The process of generating electricity with an identifier may include introducing the identifier into a voltage or current fundamental harmonic or at least one of the higher voltage or current harmonic oscillations or at least one of the lower voltage or current harmonic oscillations. This improves the efficiency of the detection of the identifier and the reliability of the determination of the power source.

The process of generating an identifier electricity may include introducing the identifier into a fundamental harmonic oscillation and at least one of the lower harmonic oscillations of voltage or current. This will strengthen the action of the identifier,

The process of generating an identifier electricity may include introducing the identifier into a fundamental harmonic oscillation and at least one of the higher harmonic oscillations of voltage or current. This will strengthen the action of the identifier.

The process of generating electricity with an identifier may include using the identifier in the form of a unidirectional or bidirectional pulse or a combination of unidirectional or bidirectional pulses and a periodic or non-periodic series of unidirectional pulses. This increases the reliability of the determination of the power source and the section of the electric circuit or power line.

The process of generating electricity with an identifier may include using an identifier in the form of pulses with waveforms in the form of portions of a polygon or a conic formed from a rotating cone. This increases the reliability of the determination of the power source and the section of the electric circuit or power line.

Within the scope of the invention, a conic section means a curve formed by the intersection of a rotary conical surface and a cutting plane that does not pass through the apex of the cone.

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The term conic is used throughout this specification including the claims.

The process of generating electricity with an identifier may include using the identifier in the form of a temporary disruption of voltage and current synchronization. This increases the reliability of the determination of the power source and the section of the electric circuit or power line.

The prior art analysis has shown that the combination of the technical properties set forth in the claims is unknown. It can therefore be concluded that the invention meets the condition of novelty.

In checking the compliance of the present invention with the condition of the inventive step, further investigations were conducted to identify prior art solutions having the same characteristics as the invention that differ from the prototype. It has been determined that the invention does not appear to be obvious from the prior art. Therefore, the present invention fulfills the inventive step condition.

DETAILED DESCRIPTION OF THE INVENTION

The process of generating electricity with an identifier according to the invention and its implementation will be further explained with reference to the accompanying drawings, in which Figure 1 shows the fundamental harmonic oscillation 2, the higher harmonic oscillation 3 and the lower harmonic oscillation 4 of the AC voltage. and the lower harmonic oscillation, and the identifier 1 is further a higher order harmonic oscillation than the harmonic oscillation 3

Figure 2 shows identifiers in the form of a combination of unidirectional pulses 5 and bidirectional pulses 6.

Figure 3 shows polygonal pulses 7 (bipolar trapezoidal pulses), a circular portion 8, and triangular bidirectional pulses 9 and 10 with different amplitudes.

Figure 4 shows an identifier in the form of a temporary disruption of the synchronization of current 11 and voltage 12.

Fig. 5 is a diagram showing an embodiment of a process for producing and identifying electricity generated by sources 13 and 14 and consumed by the consumer (15). The power sources are connected to the consumer by a power line with sections A-B, C-B and B-D. The power sources 13 and 14 include generators 16 and 17 for introducing identification pulses or harmonics. The power lines comprise identification pulse generators 18, 19, 20. The electricity distribution device 24 comprises an identification pulse generator 25. The load 25 has an identification pulse generator tt · · · ·

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21. The apparatus 22 for receiving the identifying properties of the sources and power lines is located downward from the load. After decoding the obtained information 23, the consumer obtains data informing about whom he is taking electricity from and through which power lines the electricity is supplied.

The feasibility of the invention is illustrated by information on analogous processes and apparatuses for carrying out the process described in the specifications of the following inventions filed in the Soviet Union:

an apparatus for generating a remote signal for switching on a switchgear (USSR 352352);

a procedure for generating an AC circuit command (Soviet Inventory Certificate No. 433558);

apparatus for communication between power grids (Author's Certificate of the Invention of the Soviet Union No. 542295);

procedure for transmitting commands for the remote control of moving objects (Soviet Certificate of Invention No. 801190);

remote signaling apparatus (Author's Certificate for the Invention of the Soviet Union No. 811502) and in the description of the patent application of the Russian Republic for the procedure of transmission of information in broadcasting (application No. 94033147 of 20 February 1988) and counting the cast blocks in the convergent flow process (Russian Patent No. 2101764).

Generators of identifying properties of electricity (eg microwave generators) will be compact, since the power of such a generator is many times lower than the pulse power [3], e.g. for a pulse of 10 gs duration, with a power of 100 kW and a repetition rate of 200 Hz, the power of the generator shall not exceed 200 W,

References:

1, Postnikov, Ν. P., Rubashov G M., Power Supply of Industrial Enterprises: Manual for Technical Colleges, L. Leningrad Division, 1980, 376 pages,

2, Popov, V.S., Theoretical Electrical Engineering. Manual for technical colleges, 3rd edited edition, M. Energoizdat, 1990, 554 pages.

3. Zherebtsov, I.P., Fundamentals of Electrical Engineering, 5th amended edition, L. Energoizdat, Leningrad Division, 1989, 352 pages.

4. Soviet Encyclopedia Dictionary, M. Sov. Entsiklopediya, 1981,1554 pages.

Claims (12)

PATENT CLAIMS 1. Mark the process of generating electricity with a time-varying course, including the generation of electromotive voltage, mark! The method further comprises introducing an identifier of at least one of the electricity sources or at least one of the electricity consumers or at least one of the power lines or at least one of the electricity distributors to the electricity during and / or after said generation of the electric motor voltage. Method according to claim 1, mark! characterized in that said identifier is introduced into a fundamental harmonic oscillation of voltage and / or current. Method according to claim 1, characterized by! characterized in that said identifier is introduced into at least one of the higher harmonic oscillations of voltage and / or current. A method according to claim 1, characterized in that said identifier is introduced into at least one of the lower harmonic oscillations of voltage and / or current. Process according to any one of claims 1, 2 and 4, characterized by! characterized in that said identifier is introduced into the fundamental harmonic oscillation and at least one of the lower harmonic oscillations of voltage and / or current. Process according to any one of claims 1 to 3, characterized by! characterized in that said identifier is introduced into the fundamental harmonic oscillation and at least one of the higher harmonic oscillations of voltage and / or current. Method according to any one of claims 1 to 6, characterized in that said identifier is a unidirectional and / or bi-directional pulse, 8. The method of any one of claims 1 to 7, wherein said identifier is. a combination of unidirectional and / or bidirectional pulses. The method of any one of claims 1 to 8, wherein said identifier is a periodic and / or non-periodic series of unidirectional and / or bi-directional pulses. • · · · · · · · · · · · · · · · · · · Process according to any one of claims 7 to 9, characterized by! The method of claim 1, wherein the pulse wave is in the form of portions of a polygon or conic formed from a rotating cone. Method according to any one of claims 1 to 6, characterized in that said identifier is determined by temporarily disrupting the synchronization of the voltage and current introduced into the electricity. Process according to any one of claims 1 to 6, characterized in that: characterized in that said identifier is at least one of the harmonic oscillations of the alternating voltage and / or current.