UA76808C2 - Collecting information-display system of multi-engine power unit of aircraft - Google Patents

Abstract

The invention relates to the system of automated control and registration of parameters of state of multi-engine power unit. To the system with two blocks for control of detectors and frequency control, two operation storage units, two blocks for transformation of direct voltage and frequency to code, two blocks of single signal control, additionally are included n operation blocks, n blocks of multi-channel reception-transfer of serial code, n-2 blocks of formers, n-2 blocks of normalizers, n-2 blocks for detectors control and frequency control, n-2 blocks for transformation of direct voltage and frequency to code, n-2 operation storage units, n-2 blocks for control of single signals.

Description

The invention relates to systems of automatic con- analog-to-digital converter, the first block of troll and registration of parameters of various objects, and standards, the first generator of the reference frequency, namely information - display systems and the first block of frequency switching and the first unit of accumulating information about the technical condition of - radio unit), the first unit of shapers without poser meters of the multi-engine power plant and through the first unit of control of the frequency of the aircraft. (the first block of signaling devices) is connected to the first

The improvement and operation of the aviation block of conversion of constant voltage and frequency of engines according to the technical condition is impossible without a sewing code, the second block of sensor control (the second block of the annual application of information - control of input circuits, the second block of controlled display systems that accumulate information and matching devices, the second block of comparators, the technical condition of the parameters of the second block of monovibrators), connected to the second two-turbine engines, to which the block of constant voltage and frequency conversion has the following basic requirements: in the code (the second two commutators, the second analog-

The system must have functional capabilities - a digital converter, a second block of standards, hubs sufficient to solve the given task, a second generator of a reference frequency, a second block, for example, a task of accumulating information about frequency switching and a second operating block), technical condition of parameters of gas turbine engines, a second block of formers directly and through the multi-engine power plant both in the mode of the second unit of frequency control (the second unit of signal start-up and during the flight of the aircraft. analyzers) is connected to the second unit of conversion

The system should ensure the accumulation of constant voltage and frequency in the code. information of a wide range of parameters from their display- The above-mentioned systems are limited by sufficient functional reliability and functional capabilities, field of application interference immunity. and insufficient functional reliability.

Known systems: The closest in terms of technical essence and the achievement of automatic control of the paired effect in relation to the claimed meters of the gas turbine engine | see Auth. witness technical solution is the well-known "Storable in-

USSR Mo786434, cl. Е 020 9 / 28, сх О6Е15/46), which formation-measuring system of the power system has a computer unit, serially connected unit of the new aircraft" | see declarative normalization/ switch, analog-differ re-patent of Ukraine for an invention Mo 66241 А, class R 02С 9 / creator, first program (operational) unit 28, (06E15/40, application /Мео2003098221 from outputs connected to a computer and a switch-04.09.2003), which has a control unit, the first and rom , and its input is connected to the output of the computer - the second operational drives (the recorder unit, the second program (operational) parameter output unit), the first control unit of single checkers is connected to the Kk! computer and signals (the first switch of single checkers signals, the interval (frequency) converter is a code, and its first on-board voltage switch, the first input block is connected to the computer output and the galvanic isolation block, and the third operational former block), the second control block for single signals "System of automatic k parameter control (the second commutator of single signals, the second co-gas turbine engine" see patent of Ukraine for on-board voltage mutator, second unit galvanic invention Me39279, cl. БО2С9/28)|), which has a block of solutions, and the fourth operational unit), matching is connected to the first switch and the first block of normalizers is connected to the first first block of control of input circuits, the output of the control block of sensors and frequencies ( the first of which is connected to the first switch and the first sensor control unit, the first control unit to the operating unit, the output of which is through the second co-frequency), and to the first conversion unit, the mutator and the first analog-to-digital conversion of constant voltage and frequency into a code (the first the switch is connected to the input of the first operational torus, the frequency switch, the standard switch, the per-block, the second switch through the second analog-to-digital converter, the first digital converter is connected to the second op- the standard block, the first block of the reference frequency and a walkie-talkie block, a block of shapers through the block of the first operating block), the first block of frequency precommutation (frequency switch) is connected to the transmitters, connected to the first block of the counter of the first m operating unit, reference clock and frequency generator and the first frequency conversion unit, sensor control unit (unit of controlled constant voltage and frequency in the code, second unit of matching devices, voltage source, sensor and frequency control unit (second unit of counter-comparators, unit of monovibrators and sensor control unit, the second frequency control unit), frequency connector (alarm unit). equipped with the second block of conversion of constant "Automatic control system and con- voltage and frequency to code (second switch, switch of parameters of the gas turbine engine" | see frequency tor, switch of standards, the second analog patent of Ukraine for the invention Me40478, class G02S9 /281I, digital converter, the second block of standards, which has a block of normalizers (matching), connected the second block of the reference frequency and the second open with the first control block of sensors (the first walkie-talkie block), the second block of shapers connected block of input control chains, the first unit of the ke- with the second unit of control of sensors and frequency and moving matching devices, the first unit of com- the second unit of conversion of constant voltage and parators, the first unit of monovibrators) and from per- frequency to code. This system has the following disadvantages: the frequency in the code (the first two switches, the first - there is no possibility to control the parameter

multi-engine (three or more engines) power is the first input of the system, and its output is connected to the rear installation of the aircraft, which indicates the first block of sensors and frequency control and limited functionality and the first block of conversion of constant voltage and fins of application systems; frequencies in the code, the input of the first block of normalizers has limited functionality and is connected to the second input of the system, the second block of fins for use in conjunction with the impossibility of normalizers is connected to the second block of counter-registration of parameters of gas turbine engines, power sensors and frequency and by the second unit of the transformer unit in one operational application of constant voltage and frequency in the code, the second generator (parameter registration unit) in the event of a failure, the block of formers is connected to the second block of the second; sensor and frequency control com and the third input - there is no possibility of direct diagnosis of the system, and its output is connected to the second control unit of individual blocks of the system, which also indicates sensor and frequency control and the second unit reports limited functionality and constant voltage conversion and frequencies in the code, scope of the system; the input of the second unit of normalizers is connected to the fourth - insufficient functional reliability in the connected input of the system, the first control unit with the inability to ensure the registration of even single signals at the input is connected to the fifth and meters of the gas turbine engines of the power plant in the sixth input of the system, the second unit controls one operating storage unit (units of single signals on the input are connected to the sixth registration of parameters) when the second one fails. and the seventh input of the system, ADDITIONALLY introduced

This invention is directed to the creation of a system of n operating units, n units of a multi-channel system which should ensure the registration of the parameters of reception and transmission of a serial code, n-2 units of gas turbine engines of a multi-engine unit (three and formers, n-2 units of normalizers, n-2 units of more engines) power installations of flight control of sensors and frequencies, n-2 of the transponder unit. In addition, the system should have such a constant voltage and frequency conversion into the code, n-2 structure that will ensure a reliable check of operational storage devices, n-2 block of control capacity of individual blocks of the system, reliable single signal input, inputs-outputs of the first and registration of parameters of gas turbine engines on the second control unit of single signals, per-operational storage devices and display in the second control unit of sensors and frequency-real time parameters (in the form of graphs, you, the first and second unit of conversion of physical values, text messages, etc. ) of constant voltage and frequency in the code, the first and each gas turbine engine of the multi-engine second operating unit are connected to the power plant inputs. outputs of the first multi-channel block

In case of improvement of the system, the reception-transmission of the serial code, the second input - its functional capabilities are expanded, the field of application - the output of the first operating unit is connected to it / the operational characteristics of the input-output of the first operational multi-engine power plant are increased, the fuel pump, the second input is increased - the output of the second operational control of the system suitability, the utilization factor of the block is connected to the input-output of the second stage of the equipment, a reliable operational storage is provided, the input-output of the block registration of the parameters of gas turbine engines and control through the second block of the multi-channel gas engine power plant for commissioning- transmission of the serial code is connected to the serial storage devices and displayed in real-last inputs-outputs of the first and n-th blocks of time of the parameters of each engine of the multi-channel reception-transmission of the serial multi-engine power plant, decreasing code, the n-th unit is normalized the ditch is connected to the n-simple aviation equipment and is provided by the sensor and frequency control unit and the n-th operation of the multi-engine power plant by the constant voltage and frequency conversion unit according to the technical condition. in the code, the n-th block of formers is connected to the input

The purpose of the invention is to expand the functional n-th control unit of sensors and frequency and their n-th capabilities of the system, the field of application, the input of the system from frequency sensors, and to increase its operational characteristics, the output is connected to the n-th control unit of the sensors of the engine of the power plant, the frequency control device and the n-th block of conversion of the system constancy and the coefficient of use of equipment voltage and frequency into the code, the input of the n-th block of the system, as well as the provision of reliable malizators connected to the n-th the input of the system from the registration of parameters of gas turbine engines on analog sensors, the n-th unit of control of single-operating accumulators with the display of signals in them is connected to the n-th input of the system from the real-time parameters of the multi-engine sy- sensors-alarms of the n-th engine and n input of the installation and its operation according to the technical house of the system from the on-board voltage network, the input state. outputs of the n-th control block of single signals, n-

The specified goal is achieved by the fact that in the known sensor and frequency control unit, the n-th unit, a system that has a control unit, the first and second transformation of constant voltage and frequency into a code, the operational drive, the first and second n-th operating unit with connected to the inputs - single signal control block, the first block is connected to the first block of serial code transmission by the outputs of the n-th block of multi-channel reception - normalizers, the second input-output of the n-th sensor and frequency troll and the first block of the pe-operational block connected to the input-output of the conversion of constant voltage and frequency into the code of the operating storage device. the first block of shapers is connected to the Input of additional features in the system, namely the first block of sensors and frequency control and: n operational blocks, n blocks of multi-channel reception-transmission of a serial code, n-2 blocks of nals; in Fig. 5, an example of the execution of the block of multi-formers, n-2 block of normalizers, n-2 block of final reception-transmission of a serial code; on the control of sensors and frequency, n-2 of the block, Fig. b example of the execution of the block of reception-transmission of constant voltage and frequency into a code, n-2 of the serial code of the block of multi-channel reception-operating storage, n-2 of the counter-transmission block serial code. single signals, allows to provide: The system contains the first block 1 of the normalizer - control of the parameters of the multi-engine (three tors, the first block of 2 formers, the first explo- and more engines) power plant of the aircraft atation storage device 3, the first block 4 of the device control, which indicates expansion of sensor and frequency functions, first unit 5 transformation of capabilities and areas of application of constant voltage and frequency into code, first system operation; walkie-talkie block b, the first block 7 of single control - expansion of functional capabilities and their signals, the first block 8 of the multi-channel field of application in connection with the provision of serial code reception and transmission, the second block of registration of parameters of gas turbine engines, 9 normalizers, the second block 10 formers, wire-motor power plant in one of the n th operational drive 11, the second block of operational drives in case of failure of one 12 sensors and frequency control, the second block 13 or several operational drives but the conversion of constant voltage and frequency into a code, no more than n- 2 (in the presence of three or each operating unit 14, the second unit 15 of two operating drives) or not trolling single signals, the second unit 16 is many more than n-3 (in the presence of five or six channel reception-transmission serial code, operating drives) etc. with n operation block 17 of control, n-1st block of 18 normalizers, tation drives. n-1st block 19 formers, n-1st operational - the ability to directly diagnose the drive 20, n-1st block 21 control of sensors, individual blocks of the system, which also indicates the distribution and frequency, n-1st block 22 transformation of the constantly expanding functional capabilities and areas of voltage and frequency into code, the n-1st operating block of the system application; 23, the n-1st block 24 of monitoring single signals, n- - high functional reliability in connection with the ith block 25 of multi-channel reception-transmission with the ability to ensure the registration of serial code parameters, the n-th block 26 of normalizers, n- gas turbine engines of the multi-engine the power unit 27 of the formers, the nth operational installation in one of the n operational accumulators - the accumulator 28, the nth unit 29 of the control of sensors and watches in case of failure of one or more, but not the frequency, the nth unit 30 of the conversion of a constant greater than n -2 (if there are three or four voltages and frequencies in the code, the n-th operational block of operational drives) or no more than 31, the n-th block of 32 control of single signals. p-3 (if there are five or six operations - Block 17 of the control can be filled with storage devices on them), etc. with n operating tools - the basis of a standard portable computer, printers; for example, the industrial version, which includes the registration of gas turbine parameters, the cleaner 33, the block 34 of the set of commands, the block of engines on operational drives and 35 information display. display of parameters (in the form of graphs, Block 4 of sensor and frequency control includes physical parameter values, etc.) of each gas- frequency sensor failure alarm 36, sig-turbine engine multi-engine power analyzer 37 frequency, alarm 38 installation failure in real time; analog sensors, operating block 39. - high reliability, immunity to interference and up- Block 5 conversion of constant voltage and frequency control of parameters as a result of simplicity in the code includes block 40 reference frequency, conducting control of functioning. block 41 standards, switch 42 frequency, switch

As can be seen from the above, the stated technical standards 43, switch 44, analog-digital solution has essential features that allow the converter 45, operating unit 46. to expand the functional capabilities, the area Block 7 control of single signals includes the application of the system, to increase operational switch 47 of single signals, block 48 gal- characteristics of multi-engine power plant-stationary separation, switch 49 of on-board voltage, which, to increase the controllability of the system, operational block 50. equipment utilization factor, to ensure Block 8 of multi-channel reception-transmission reliable registration of parameters of gas turbine serial the code includes the block 51-1...51-4, 52- engines of the multi-engine power plant on 1...52-4 reception-transmission of the serial code. operational storage devices, reduce idle time Block 51-1 (51-2...51-4, 52-1...52-4) of reception- aviation equipment and ensure the operation of serial code transmission includes controller 53, multi-engine power plant behind the technical receiver -transmitter 54 serial code. condition Inputs of block 2 of formers and block 4 of control

The principle of operation of the system is explained by the chair of sensors and the frequencies are connected with each other and with connections where: Fig. 1 shows the structural diagram of the first input of the system from the frequency sensors of the system, for example, the system for controlling the first engine, the input of block 1 of the three normalizers gas turbine engines; in Fig. 2 - the example is connected to the second input of the system from the analog execution of the sensor and frequency control unit; on the sensors of the first engine, the output of unit 2 for-

Fig. 3C - an example of the implementation of the unit for converting washers connected to unit 4 of monitoring sensors and constant voltage and frequency into a code; in Fig. 4, the frequency and unit 5 of the conversion of the constant value of the implementation of the single sig- voltage and frequency control unit into code, the output of unit 1 is normalized

torus is connected to unit 4 of sensor control and the outputs of unit 25 of multi-channel frequency reception and unit 5 of conversion of constant transmission of serial code are connected to units 21 of voltage and frequency in the code, input-output of operational and 29 control of sensors and frequency, units 22 and storage device C is connected to the input of the conversion of constant voltage and frequency in the output of the operating unit 6, the inputs of the code unit 10, the operating units 23 and 31 and the unit 16 of the formers and the unit 12 of the control of sensors and cha- multi-channel reception-transmission of serial The devices are connected to each other and to the third input of the code, the input-output of which is connected to block 17 of the console from the frequency sensors of the second engine, the input of the troll. block 9 of normalizers is connected to the fourth Operating block 6 (14,23,31) can be the input of the system from analog sensors of the second alized on the basis of a standard multifunctional engine, the output of block 10 of formers is connected to the nal processor that can be used by the block 12 sensors and frequency control and a block of both internal and external memory, which also has 13 constant voltage and frequency conversion in addition to computing functions, a code function, the output of the block 9 normalizers is connected to the block receiving and issuing code parcels. com 12 of sensors and frequency control and block 13 Operational storage 3(11,20,28) mod- conversion of constant voltage and frequency into code, which must be performed on standard input-output microcircuits of the operational storage 11 flash memory connector . connected to the input-output of the operating unit 14, Unit 4(12,21,29) of sensor control can be unit 7 of monitoring single signals connected to the completed using a technical solution at the fifth input of the system from sensors-alarmers (auth. cert. of the former USSR Mo 1339459 kl. (5 01 V of the first engine and with the sixth input from the on-board 31/02 (alarm 36 of the failure of the voltage frequency data network, control unit 15 of single sigchiks,|, comparators in the integral version of the the seventh input of the system from the data (analog sensor failure alarm 38) and chicks-alarmers of the second engine and with the sixth waiting monovibrators in an integrated version with the input from the on-board voltage network, inputs-outputs (frequency alarm 37) of block 8 of multi-channel reception-transmission Operating block 46 blocks 5(13,22,30) of the re-sequential code are connected to blocks 4 and 12 of the conversion of constant voltage and frequency into a code that can be trolled by sensors and frequency, blocks 5 and 13 can be implemented on on the basis of the standard multiplexing of constant voltage and frequency into code, an operational processor that can use both internal and external memory with the help of blocks b and 14 and block 16, which, in addition to computing functions, also has multi-channel serial reception-transmission, the function of the code, the inputs of block 19 of the formers and block 21 con- measurement of time intervals, as well as the function of troll sensors and frequencies are connected to each other and from receiving and issuing code parcels and single eighth input of the system from frequency sensors n- signals. of the 1st engine, the input of the block 18 of the normalizers is connected Frequency switch 42 and the switch 43 are connected to the ninth input of the system from the analog lons of the block 5 (13,22,30) can be implemented on the sensors of the 1st of the engine, the output of block 19 of standard switching switches is integrated with block 21 of sensor control and high-frequency performance. and unit 22 conversion of constant voltage and Unit 40 reference frequency of unit 5(13,22,30) frequency into code, the output of unit 18 of normalizers can be implemented on standard generated with unit 21 control of sensors and frequency and count frequency with a rectangular shape of the output signal block 22 of constant voltage and channel conversion. stored in the code, the input-output of the operational accumulator Block 41 of the standards of the block 5 (13,22,30) can be the watch 20 connected to the input-output of the operational implemented on the standard elements of the permanent block 23, the inputs of the block 27 of the formers and the block 29 of the reference voltage control sensors and frequencies are connected to each other Switch 47 of single signals and the switch and with the tenth input of the system from the frequency data- 49 on-board voltage of block 7 (15,24,32) can be chips of the n-th engine, the input of the block 26 normalizers are implemented on standard switches are connected to the eleventh input of the system from the analog voltage in an integral design. log sensors of the n-th engine, the output of block 27 Block 48 of the galvanic isolation of the former block is connected to block 29 of data control 7(15,24,32) can be implemented on standards and frequencies and block 30 of their conversion elements optocouplers in the integral of constant voltage and frequency in the code, the output of the block 26 conanni. of normalizers is connected to the control unit 29. The operational unit 50 of the unit 7(15,24,32) can sensors and frequency and the conversion unit 30 can be implemented on a standard single-wavelength voltage and frequency in the code, input-output steel processor, which ensures the operation operational drive 28 is connected to the path for receiving signals from the sensors-input-output of the operating unit 31, block 24 of signaling devices, to control its operation, control of single signals is connected to two and issuing, for example, a serial code. the tenth input of the system from sensors - Controller 53 of block 51-1 (51-2.. .51-4,52-1...52- signaling devices of the n-1st engine and with the thirteenth 4) of block 8(25) is standard single-crystal system input from the on-board voltage network, the processor block that provides reception-transmission of information 32 control of single signals is connected to the formation, for example, from the operating processor by the thirteenth input of the system from /sensors-block 6 to the receiver-transmitter 54 in series- signaling devices of the n-th engine and with the thirteenth input code of block 51-1. home of the system from the on-board voltage network, inputs Block 16 of multi-channel reception-transmission of the serial code is performed as a set of blocks 51-1 of transmission of the serial code to the control block 17 of the block 8(25), and their number depends on the number for its display. subscribers who issue and receive sequential Let's consider the operation of the system in the code mode. days of self-control on the example of measuring

Blocks 51-1...51-4, 52-1...52-4 of the reception-transmission channel of the operational block 6 of the first gas turbine - serial code of block 8(25) work on the given engine (the corresponding ones will be indicated in brackets algorithms depending on the blocks of the measurement channel of the operating block of the programs recorded in them, and each block has its own address field 14,23,31 of the second, third and fourth ha- to ensure the output of information. Each block of a turbine engine, respectively). 51-1...51-4,52-1...52-4 reception-transmission sequence From the output of the operating block 6(14,23,31) through the code of the block 8(25) to its input-output block 51 -1(52-1) of block 8(25) to the inputs of blocks 51- receives a serial code from the second receiving blocks- 2.51-3.51-4(52-2/52-3.52-4) receives control transmission and issues a confirmation of its reception/ a code package that ensures the self- and on its output-input forms a sequential code, control blocks 5,6,7 (12,13,15; 21/22,24; 29,30/32) . which is received by the second reception units - Controller 53 through the transmission receiver-transmitter 54, and the generated code is kept by the block 51-3(52-3) block 8(25) of the multi-channel at the output-input until the reception-transmission of the serial code receives con- confirmation of its reception from the second (second) trol code parcel, which will ensure control of the reception-transmission blocks of the serial code. This is the functioning of block 4(12,21,29) and issues it to ensures the interaction of blocks 51-1...51-4,52-1...52-4 of operational block 39 of block 4(12,21,29). After the reception-transmission of the serial code of block 8, between the reception of the control code parcel of operations, depending on the algorithm of its operation, block 39 of block 4 (12,21,29), the latter starts the registration of the parameters of the first and second, and the self-monitoring program, which of the non-turbine engine of the power plant of the aircraft, depending on the state of the analog circuits and the device in the operating storage device З or 11 frequency sensors, is installed on the circuit 39-1 in the event of failure of one of them or the failure of one of the operational alarm 36 of the failure of frequency sensors and ration units 6 or 14. circuit 39-2 signaling device 38 analog failure

And the interaction of blocks 51-1. ..51-4,52-1. ..52-4 sensors in a mode simulating a violation of the input reception-transmission of the serial code of the block 8(25) chains, while at the output of the signaling devices 36,38 we will receive signals from each other depending on the algorithm, for example, in the form of logical functioning, it ensures the registration of a pair - "I", which arrive at the inputs of the operating unit 39 meters of the third and fourth gas turbine unit 4(12,21,29) and are recorded in its memory. In addition to the engine of the multi-engine power plant, from the second output of the signaling device 36 to the input of the signaling device in the operational accumulator 37 of the frequency of block 4 (12,21,29), the 20 or 28 are supplied in the event of a failure of one of them or a failure of a signal that prohibits issuing from its signal outputs of one of the operational blocks 23 or 31. nals of logical "1" in connection with the issuance of an alarm

The system works as follows: rom 36 simulated input disturbance signals

When the power supply voltage is turned on, the operating circuits of the frequency sensors. blocks 6,14,23/31, blocks 4,12,21,29 of data control After the end of recording the signals from the sig-chik output and frequency, blocks 5,13,22,30, conversion of analyzers 36 and 38 into the memory of the operational block of constant voltage and frequency in the code and blocks 39, the latter removes signals from its outputs 39-1 and 7,15,24,532 of the control of single signals set 39-2, which leads to the transfer of signaling devices to the initial state and with a time interval, 36 and 38 block 4(12,21,29) in the control mode which exaggerates transient processes in the system, chains of frequency and analog sensors. After block 17 of control through block 16 of multi-channel transfer of alarm 36 into the control mode of reception-transmission of the serial code and the corresponding chains of frequency sensors, the latter removes the obstruction, blocks 8 and 25 issue to the corresponding blocks 6, 14 a dropping signal from alarm 37 of the frequency of the block and 23, 31 code signals that provide verification 4(12,21,29), which provides signaling of the presence of independent automatic frequency control from block 2(10,19,27) of shapers. functioning of units 4,5,6,7 measuring In connection with the fact that the control is carried out pe-channel of the first gas turbine engine, blocks red by starting the first (second, third, Thursday- 12,13,14,15 measuring channel of the second gas-turbine of the second) gas turbine engine, the signals from the frequency sensors of the gas turbine engine, blocks 21,22,23,24 are not received, then there are no pulses at the output of the measuring channel formers of the third gas turbine block 2(10,19,27), and, accordingly, the engine, blocks 29,30 . 4(12,21,29) control sensors and frequency and communication

Blocks 4,12 and 21,29 control sensors and chatator 42 frequency of block 5(13,22,30) conversion of hundred, blocks 5,13 and 22,30 conversion of constant constant voltage and frequency to code. voltages and frequencies in the code, blocks 7/15 and 24,32 control. Absence of pulses at the signalizer input 37 control of single signals function independently of frequencies, after removing the prohibiting signal from and through the corresponding blocks 51-1...51-4, 52-1...52-4 of the output of the signaling device 36, leads to the appearance on the blocks 8 and 25 of the output of logic level "I" signals, which indicate the absence of frequency signals from the sensors of radio units 6/14 and 23,31 for registration in revolutions. Signals in the form of logical level "1" from the operational drives 3,11 and 20,28, and the output of the signaling device 37 are sent to the operational unit 16 of the multi-channel receiving unit 39 of the unit 44 (12,21,29) for registration in its memory 46 reference frequencies from the switch output 42 cha-

After the end of recording the control signals of block 5(13,22,30). in the form of a logical "7" in the memory of the operating unit. The number of frequency inputs of the operating unit 39 of the unit 4 (12,21,29) from the output of the signaling devices 36,37 46 of the block 5 (13,22,30) correspond to the number of con- and 38 operating unit 39 block 4 (12,21,29) of the controllable frequency parameters of the first (second, control code package of the third, fourth) gas turbine engine at its output. to the controller 53 block 51-3 (52-3) of reception - Operation block 46 serially, or para- transmission of the serial code of block 8(25) multi-channel, if its processor has a multi-channel reception-transmission of the serial code. frequency (interval)-code converters,

The controller 53 provides formation at the output and provides conversion of the reference frequencies that the receiver-transmitter 54 of the block 51-3 (52-3) receive from the output of the block 40 of the reference frequency of the mu-transmission of the serial code of the block 8 (25) through the frequency switch 42 in the control of the two-channel reception-transmission serial code. After each connection of the control control code parcel received by the frequency controller, during serial conversion, and 53 through the receiver-transmitter 54 of the block 51-2(52-2), respectively, and after each conversion of it to the reception-transmission of the serial code of the block 8(25) radio unit 46 writes to its memory the value of the multi-channel reception-transmission serial control code. code and issues it to the operating unit 46 of the block After converting the reference frequencies from output 5 (13,22/30) and the controller, 53 through the receiver of the switch 42 and recording control codes, the transmitter 54 of the block 51-1 (52-1) receiving- to the memory of the operating unit 46, the serial code transmission signal of the block 8(25) multi-channel logical M is removed and the signal of the logical nal reception-transmission of the serial code is set and "1" at the input 46-1 of the operating unit 46 of the unit issues it to operating unit 6(23). 5(13,22,30) under the action of which switch 42 turns off

The received control code package operates block 40 of the reference frequency and connects the block with the radio block 46 of block 5 (13,22,30) starts 2 (10,19,27) shapers to the inputs of the operating self-monitoring program, which provides block 46 of block 5( 13,22,30) conversion of the constant output from the operating unit 46 of the voltage and frequency unit into a code to ensure con- and on the chain 46-2 to the commutator 43 of the third, fourth) of the gas turbine engine. lons of signals, for example, the logical "OO", which After the recording of the control codes, after disconnecting the inputs of the switch 43 from the outputs of block conversion of reference analog signals ka 1(9,18,26) normalizers and connecting the outputs and reference frequencies, in the memory operating block of block 41 standards to the input of switch 44 and 46 of block 5 (13,22,30) operating block 46 of the block disconnect the inputs of switch 42 from block 5 (13,22,30) forms at its output control 2 (10,19, 27) shapers and connect the outputs of the block-code parcel to the controller 53 of the block 51-2(52-2) and 40 of the reference frequency to the operating block 46 of the block 8(25) of the multi-channel reception-transmission block 5(13,22,30). serial code. The controller 53 provides for-

At the same time, the reference signals through the switching switch at the output of the receiver-transmitter 54 of the block 43 are sent to the switch 44 and, as a result, the control values of the reception-transmission of the serial code of the control constant voltage are set on its block 51-2(52-2) of the block 8(25) of the multi-channel input . From the output 46-3 of the operational block-code parcel received by the controller 53 through the ka 46, signals are sent to the input of the switch 44, the receiver-transmitter 54 of the block 51-1 (52-1) of the block, for example, in the form of a binary code, which provides 25) of multi-channel reception-transmission hears the connection of the control values of the serial code in turn and gives it to the operational block of the voltage from the output of the switch 43 through the switch 6(14,23,31). tator 44 to the analog-to-digital converter 45 The received control code parcel of the op-block 5(13,22,30), in which the constant control radio unit 6(14,23,31) writes to its memory. the voltage is converted into a binary control code Simultaneously with the control code. After each connection of the control function of the voltage conversion unit 5(13,22,30), and, accordingly, after each of its conversion of the constant voltage and frequency into a code, the controller 53 is driven by the converter 45 with a time interval through the receiver-transmitter 54 of the unit 51-1(52 -1) by exaggerating the transient processes in the switch of the multi-channel reception-transmission unit 8(25) 44 and the analog-to-digital converter 45 of the operation code, the control code unit 46 writes to its memory the value of the parcel (imitation of a violation of the input circuits) with control code. output of block 51-2(52-2) of block 8(25) multi-channel

After converting the control signals from the reception-transmission of the serial code and switching, the switch 44 and recording the control codes gives it to the operating unit 6(14,23,31). to the memory of the operating unit 46, the signal of the received control code package is removed from the output of the logic "O7" and the signal of the logic unit 51-2(52-2) of the block 8(25) of the multi-channel "77" is set at the output 46-2 of block 5(13,22,30) under the action of reception-transmission of a serial code, the operational switch 43 of which disconnects block 41 of standards and block 6(14,23,31) writes to its memory. connects block 1(9,18, 26) normalizers to the computer. In addition, from the output of the operational block of the tator 43 of block 5 (13,22,30) to ensure connection 6 (14,23,31) through block 51-1 (52-1) of block 8 (25) bagatrol of analog parameters of the first (second, two-channel reception-transmission of the serial code of the third, fourth) gas turbine engine. to block 51-4(52-4) of block 8(25) of the multi-channel

Then the conversion of the reception-transmission block of the serial code is also provided

a control code parcel is soldered, which ensures that they correspond to the assigned control parameters - self-control of block 7 (15,24,32). To note, the operating unit 6(14,23,31) issues the signal controller 53 through the receiver-transmitter 54 of the unit 51- of the serviceability, as they do not meet the tasks of the 4(52-4) unit 8(25) of multi-channel reception - those control parameters/ then the operator of the serial code transmission receives the control unit 6 (14,23,31), issues a fault signal of the coded package and issues it to the operating unit of 50 mo for each of the units 4 (12,21,29), 5 (13,22,30) and block 7(15,24,32) to control its 7(15,24,32) through blocks 8(25) and 16 multi-channel operation. reception-transmission of the serial code to the block

After acceptance of control code parcel 17 control. operating block 50 of block 7(15,24,32), the last Block 17 controls the received information, documents the received information, starts the self-monitoring program, and displays on the block 35 the display of the path of receiving single signals from the information sensors, for example, in the form of a protocol for signaling devices (input 5(7,12,14)) of the first (second, which is visible whether or not there are violations in the third, fourth) gas turbine engine. When measuring channels of the system. to this, the operating unit 50 issues a signal on the switch. Then, the operating unit 6(14,23,31) with the interrogator 49 of the on-board voltage to connect the control information stored in its memory, the forward voltage to the switch 47 of single signals. the frame, which is overwritten by it, is washed

Then the operating unit 50 issues to the switch 47 the corresponding addresses to the operating instructions, which ensure the switching of the on-board recorder 3 (11,20,28). voltage on all channels of the switch 47. Signals As can be seen from the above, the results of the on-board voltage, for example, plus 27 volts of the conducted self-monitoring of the measuring channels, step on the unit 48 of the galvanic isolation unit of the analog, frequency and single control unit 7(15,24, 32). system signals are registered in operational ones

Block 48 is intended for galvanic resolution of storage devices, which then, if necessary, can be used to read the on-board network of the aircraft and the voltage of the wires through the operating blocks of the blocks and elements of the storage information 6,14,23,31 and blocks 8,25 and 16 of the multi-channel mother-display system of the multi-engine reception-transmission of the serial code with the help of the power plant of the aircraft to ensure the control unit 17, which at the request of the baking unit command of its immunity. Upon arrival at 34 through its computer 33 and block 16 through the block inputs of block 48 of the on-board voltage at the corresponding ki 8 and 25 at the input of operational blocks 6,14,23 and 31 its outputs, normalized signals are obtained, it outputs signals in the form of sequential binary, for example, in the form of a logical "", which are received on the code under the influence of operational blocks 6,14,23 and the inputs of operational block 50 of block 7(15,24,32). 31 switch to the accumulated reading mode

The operating unit 50 records the input control signals from the operational storage devices, from the output of the unit 48, to its memory. 3/11,20 and 28 and transferring it to the computer 33 block

At the end of recording the control signals in ka 17 control. the memory of the operating unit 50 of block 7(15,24,32) The control unit 17 documents the information and the operating unit 50 of the unit 7(15,24,32) forms on the display on the unit 35 the display of information, at its output a control code parcel to the con- for example, in the form of a protocol, which shows the troller 53 of block 51-4 (52-4) of block 8 (25), whether or not there are violations in measuring channel reception-transmission of the serial code. lah system.

The controller 53 provides formation at the output. This construction of the system allows, with the help of the receiver-transmitter 54 block 51-4 (52-4) control block 17, to directly diagnose individual blocks of measuring channels of the system, serial code control code parcel which allows, if there is information about the failure of the controller 53 through the receiver-transmitter serviceability, promptly make a decision about 54 block 51-1(52-1) block 8(25) multi-channel restoration of the functioning of the system and reduce the reception- transmission of a serial code and issues it to the inactivity of aircraft equipment. operating unit 6(14,23,31). Consider the operation of the system in registry mode

The radio unit 6(14,23,31) records the received control code parcel of the operation on the operating drives 3(11,20,28) to its memory. and presentation in real time on the block screen

Then the operating unit 50 of the unit 7(15,24,32) and 17 of the control of the current values of the parameters of the control of single signals removes the signal from the second (second, third, fourth) gas turbine mutator 49 of the on-board voltage, which leads to the th engine from its start to stop, the state of removal of on-board voltage at the input of the switch 47 chains of sensors, as well as signals (commands), which are single signals. After removing the signal from the signal coming from sensors-signalers on the example of tator 47, the operating unit 50 switches to re-measuring, accumulative and display control of single signals from the sensors-sorry channel of the first gas turbine engine (signalers of the first (second, third, fourth in parentheses will be indicated the corresponding blocks of that) gas turbine engine, measuring, storage and display

Accepted and recorded control code parcels of the unfortunate channel of the second, third, fourth in the memory of the operating unit 6 (14,23,31) from the gas turbine engine unit). 4(12,21,29) control of sensors and frequency, block After scrolling and subsequent launch of the per- 5(13,22,30) conversion of constant voltage and cup (second, third, fourth) gas turbine speed into code, block 7(15,24,32) of the control of the single engine of the new power plant signals are analyzed by block 6(14,23/31) and if the aircraft signals from analog data

of chips (input 2(4,9,11)) are sent to block 1(9,18,26) of control of the functioning of the measuring channel of the normalizers, where they are converted into the applied frequency sensors of the first (second, third) constant voltage level convenient for analog /fourth) of the gas turbine engine, and through digital conversion by the converter 45 block 16 of the multi-channel reception-transmission block 5 (13,22,30), and for using the sig-sequential code on the control block 17 for the decoder 38 of the block 4 (12, 21,29) data control on block 35 of block 17 and decision-making and frequency. not

Alarm channels 38 analog failures In addition, in the event of a short circuit at the input sensors of block 4 (12,21,29), they are adjusted on the circuits of frequency sensors or the corresponding failure - the voltage level is lower than the voltage level of which channel of block 2 (10,19,27) of the formers corresponds, for example, to the zero level of pressure in the corresponding channels of the signaling device 37 of the frequency, the air, fuel and oil mains send signals to the operating unit 39 of the engine unit. The channels of the analogue 4(12,21,29) failure alarm 38, which ensures the formation of the signal sensors of block 4(12,21,29), are connected to the flow of block 51-3(52-3) of block 8(25) in a multi-channel manner - input circuits of the system (input 2(4,9,11)) through the reception-transmission of the serial code of the code block 1(9,18,26) of the normalizers and in case of violation of the parcel and further transmission through block 51-1(52- input circuits or the failure of the corresponding norm 1) block 8(25) of the multi-channel reception-transmission malizer of block 1(9,18,26) provide signals to the serial code to the operating block of the operating block 39 of block 4(12,21,29), which 6(14,23,31) to ensure registration in the explo- provides formation at the output of block 51-3(52-3) atation drive 3(11,20,28) and through the block of block 8(25) of multi-channel reception-transmission 51 -2(52-2) of block 8(25) of multi-channel reception - serial code of the code package and subsequent transmission of the serial code to the switch 42 cha - transmission through block 51-1(52-1) of block 8(25) rez operating unit 46 of the two-channel reception-transmission block of the serial code 5(13/22,30), to ensure the supply of the reference to the operating unit 6(23; 14,31) to ensure the frequency from the output of block 40 of the reference frequency for registration in the operating storage of the operating block 46, block 5(13,22,30) is converted to 3(11,20,28), through block 51-2(52 -2) of block 8(25) of constant voltage and frequency input into the code for the purpose of gatochannel reception-transmission of sequential control of the functioning of the measuring channel of the code to the switch of the switch of 30 standards through the frequency sensors of the first (second, third, operating block 43 of block 5(13 , 22, 30) for the fourth) gas turbine engine, and through the unit for converting the reference voltage from the output 16 of the multi-channel reception-transmission sequence of the unit 41 for the purpose of controlling the operation of the code to the control unit 17 for displaying the measuring channel of analog sensors - on block 35 of block 17 and making a decision. of the second (second, third, fourth) gas turbine - Registration and display of the current values of the engine and through block 16 of the multi-channel parameters of the first (second, third, fourth) reception-transmission of the serial code to block 17 of the gas turbine engine from its start to stop - control for display on block 35 of block 17, the state of sensor circuits, as well as signals (and decision-making. mand) that come from signaling sensors

From frequency sensors (input 1(3,8,10)) it is carried out in the following order. a belt signal proportional to the rotation frequency Operating unit 46 from output 33-3 produces a sig- turbine of the engine, enters unit 2(10/19,27) nals, for example, in the form of a binary code to co-formers, which forms, for example, unipolar of the mutator 44 for alternating connection through rectangular pulses, which through the switch 42, the frequency switch 43 of block 5 (13,22,30) of the signals from the output you arrive to the operating block 46 of the block block 1 (9,18,26) of the normalizers, the values of which are 5 (13,22,30) conversion of constant voltage and frequency characterize the physical state of the parameters of priority in the code. Chains of frequency sensors of the second (second, third, fourth) gas turbine are also connected to block 4 (12,21,29) of the engine sensor control. So the signal from the output of block 1(9,18,26) and the frequency. normalizers through switches 43 and 44

The channels of the alarm signal 36 of the failure of the frequency children to the analog-digital converter 45 of the sensors in the event of a violation of the input circuits issue block 5 (13,22/30), where it is converted into binary signals to the operating block 39 of the code block. 4(12,21,29), which provides formation at the output With a time interval allocated to the operation of the block 51-3(52-3) of the block 8(25) by the multi-channel analog-to-digital converter 45, the receiving transmission of the serial code of the code after providing its input with a signal from the output of the package and further transmission through block 51-1 (52- mutator 44, operating block 46 writes to its 1) block 8 (25) of multi-channel reception-transmission memory, for example, the serial information serial code to the operating block binary code from the output of the analog-to-digital converter 6(14,23,31) to ensure registration with the operator 45 of the block 5(13,22,30). atation drive 3(11,20,28) and through the block After converting all analog signals 51-2(52-2) of block 8(25) of multi-channel reception from the output of block 1(9,18,26) and recording the results - transmission of the serial code to the switch 42, conversion chats to the memory of the block 46, finally, through the operating block 46 of the block, it stops issuing signals to the switch 45 5(13,22,30), to ensure the supply of the reference block 5( 13,22,30) and begins to analyze the frequency signals from the output of the block 40 of the reference frequency to the frequency sensors of the first (second, third, operational block 46 of block 5 (13,22,30) first-fourth) gas turbine engine. recording of constant voltage and frequency in the code with the purpose of In the absence of failures in the frequency sensor circuits of the first (second, third, fourth) sensor circuits of the first (second, third, four gas turbine engine at the input of the operational blower) of the gas turbine engine and display of the 46 block 5(13,22,30) there are sequences of the specified information on the screen of the block 17 control of rectangular pulses that come through the com- block 7(15,24,32) autonomously controls the tator 42 of the frequency of the block 5(13,22,30) from unit of the presence of single signals from sensors - 2 (10,19,27) formers, the periods of which are proportional to the signals (input 5 (7,12,14)) of the first (second, number of revolutions of the turbines of the first (second, third, third, fourth) gas turbine engine. At the fourth) gas turbine engine. the operating unit 50 issues this to the switch 47

Operating block 46 of block 5(13,22,30) of block 7(15,24,32) signals that provide com- serially or in parallel/ if it has voltage signals plus 27 volts on all processors of multi-channel frequency converters switch 47 from the sensors and (interval) - the code, provides the transformation of the signaling devices. Signals plus 27 volts come in a sequence of rectangular pulses coming from the unit 48 galvanic separation. the output of block 2(10,19,27) of formers into binary Block 48 of block 7(15,24,32) is intended for the code, the value of which is proportional to the revolutions, the voltage of the galvanic separation of the on-board network of the aircraft aircraft, low and high pressure turbines primary rate and power supply voltage of blocks and elements of the second (second, third, fourth) gas turbine fuel information and display system of the engine. We are a multi-engine aircraft power plant

After each connection of the input frequency, the device to ensure its immunity to interference. During sequential conversion, and accordingly, when signals from data are received at the inputs of the block 48, after each conversion, the operating block of signaling chips on its corresponding outputs 46 of block 5 (13,22,30) records the detected normalized signals to its memory , for example, the teaching of a binary code, the value of which is proportional to the form of logical "1", which are received at the inputs of the operational revolutions of the turbines of the first (second, third, rational block 50 of block 7 (15,24,32). Normalization - fourth) gas turbine engine. the signals from the output of the block 48 receive operations-

After the recording of binary information, block 50 of block 7(15,24,32) and at its code output, after converting analog signals from forms a sequential information code, which block 1(9,18,26) of normalizers and frequencies from the block steps on the input of the controller 53 of block 51-4(52-4) 2(10,19,27) formers, in the memory of the operating unit, which, in turn, provides the formation on block 46 of the unit 5(13,22,30) operational block 46 of the output of the receiver-transmitter 54 of the block of the block 51- block 5(13,22,30) forms at its output information 4(52-4) of the block 8(25) of multi-channel reception-mation code parcels to the controller 53 of the block 51-transmission serial code information codes 2(52-2) of block 8(25) of multi-channel reception - parcels received by the controller 53 through the serial code transmission receiver. The controller 53 provides the transmitter 54 of the block 51-1(52-1) of the block 8(25) multiplexes the formation at the output of the receiver-channel reception-transmission of the serial code and the transmitter 54 of the block 51-2(52-2) of the block 8(25 ) sends them to the operating unit 6 (14,23,31) for two-channel reception-transmission of the sequential code of the recording in its memory and the control unit 17 through the information code parcels which is received by the control unit 16 of the multi-channel reception-transmission ler 53 through receiver-transmitter 54 of block 51 - serial code for displaying information in 1 (52-1) block 8 (25) of multi-channel reception - in the form of tables or text messages on the transmission of a serial code and outputs them to the operating screen of block 35. rational block 6( 14,23,31) for recording in its Then the operational unit 6(14,23,31), from the recording memory and unit 16 multi-channel reception of the information stored in its memory, a frame is formed, transmission of a serial code for display otherwise, it can be rewritten according to the corresponding adreformations in the form of graphs, tables ts and text messages themselves to the operational storage of messages on the screen of block 35 of block 17 control 3(11,20,28). Block 6 (14,23,31) frame can foul. from several cycles of measuring parameters

Simultaneously converting and recording in meters, for example, frames per second. memory of the operating unit 6(14,23,31) of information Simultaneously with the registration of technical parameters, the state of analog and frequency parameters, the night state of the parameters of the first (second, third, first (second, third, fourth) and fourth) gas turbine engine in the operation of the turbine engine, a record is provided to the operational drive 3(11,20,28) block 8(25) by the storage block 6(14,23,31) to its memory, through two-channel reception-transmission of the serial code blocks 51-3(52-3) and 51-1(52-1) of code information is continuously issued, through unit 16, of the multi-channel output of unit 4(12,21,29) of sensor control and reception-transmission of a serial code per frequency unit , if there are failures in sensor circuits 17, control information about the technical condition of the steam or failure channels of unit 1 (9,18,26), normalizers of meters of the first (second, third, fourth) ha- and formers of unit 2 (10,19,27) , and the display of a turbine engine for its display in real- information about the state of analog chains data and time on the screen of block 35 in the form of, for example, hundredth sensors in the form of tables and text graphs, tables, text messages. messages on the screen of block 35 of control block 17. This completes the cycle of recording to operation through block 16 of the multi-channel reception-transmission data storage unit 3(11,20,28) of information and its serial code. real-time representation on the block screen

Also, simultaneously with the measurement and recording of 35 units of the technical condition control unit 17 by the para-operating unit 6 (14,23,31) to its memory of the meters of the first (second, third, fourth) analog and frequency parameters and the integrity of the turbine engine, after which the cycle is measured

registration and presentation in real time or further operation of gas turbine engines of information that characterizes the physical state of the para-multi-engine power plant and the very first (second, third, fourth) gas meters. of a turbine engine, the condition of sensor chains/ odi- The proposed technical solution due to the night signals of all sensors-signalling system improvement allows to ensure: is repeated according to the above algorithm. -control of multi-engine parameters (three and

Operating units b and 14 (23 and 31) with more engines) of the power plant of flight interaction with the measuring units of the first apparatus, which indicates the expansion of the functional (second) gas turbine engine and the operational capabilities and application area of the storage units З and 11 (20 and 28) form-system; at their output coded information about the expansion of functional capabilities and the technical condition of the operational blocks of the application area in connection with the provision of 6,14,23,31 and the recording of information in the storage device Z and the registration of the parameters of gas turbine engines of many 11(20 and 28 ). If there is a failure in one of the storage-engine power plant in one of the units 3,11(20,28), is the functioning of the operational storage units disrupted when one of the operating units 6,14(23,31) at the output or several operational storage units fails but one of them will form a code parcel to no more than n-2 (in the presence of three or four controller 53, which stimulates at the output of the receiver operational drives) or not the cha-transmitter 54 of the block 51-1 (52-1) block 8(25) more than p-3 (if there are five or six multi-channel reception-transmission serial operational drives), etc. from p exploit the code parcel which, in turn, through blocking drives. 51-1(52-1) of block 8(25) is accepted as working - the ability to directly diagnose with the operating block 6 or 14(23 or 31) and information- individual blocks of the system, which also indicates the state of the parameters of the first and second- extended functional capabilities and areas of the second (third and fourth) engine, the application of the system is registered; on a working operational drive C - high functional reliability in connection with or 11 (20 or 28). the possibility to ensure the registration of parameters

In addition, information on the technical condition of the gas turbine engines of the multi-engine power unit 6(14,23,31) and operational installations in one of the n operational storage units Z3(11,20,28), as well as information on failures one or more, but not any operational storage device will have more than n-2 (if there are three or four, information about the technical condition of the operational storage devices will be registered) or no more than meters of gas turbine engine multi-engine n-3 (if there are five or six of the operational power plant of the aircraft, storage devices are supplied to them), etc. with n operating instructions for control unit 17 for its display and sensors; making a decision on the need to carry out - registration of parameters of gas turbines, various preventive (repair) measures of engines on operational accumulators and or further operation of gas turbine engines, display of parameters (in the form of graphs, and the system itself. physical values of parameters, etc.) of each ha-

The duration of the accumulation of information, which characterizes the technical condition of the parameters of the gas turbine of the multi-engine power plant in real time; co-turbine engines of a multi-engine power plant - high reliability, interference resistance, and the installation of a legal device can be bushed, the accuracy of parameter control as a result of laying, 75 hours. conducting control of functioning.

At the end of the information accumulation time, as can be seen from the above, the declared technology in drives 3,11,20,28, reading any solution has essential features that allow the array of accumulated information to expand the functionality/area with the help of control unit 17 , which, according to the command of the system application, to increase the operating performance of its block 34 through its computer 33 and the multi-engine power plant characteristic block 16, as well as blocks 8 and 25 to the inputs of the operating rooms, to increase the controllability of the system, blocks 6,14,23,31 receive signals in in the form of the coefficient of equipment utilization, to provide a sequential binary code under the influence of which reliable registration of gas turbine parameters, blocks 6, 14, 23, 31 go into the mode of reading the engines of the multi-engine power plant, receiving information from storage devices 3, 11, 20, 28 and transferring it to operational storage devices, reduce downtime to unit 17 control for its display and aviation equipment, etc and to ensure the operation of the decision on the need to carry out various preventive (repair) measures of the multi-engine power plant according to the technical condition.

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Fig. 5

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Fig. 6

Computer layout M. Klyukin Signature Circulation 26 approx.

Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601