RU2505917C1 - Self-contained electric power supply system - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: system has an alternating current source, a unit of three automatic tripping devices, a synchronous electric motor, a synchronous generator with an exciter, two ac voltage stabilisers and consumable units; the device is equipped with switched on first and second voltage analysers, a voltage mode control unit, an uninterrupted power supply and a switch.

EFFECT: controlling voltage modes with reliable electric power supply to consumers having a different electric power supply mode.

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Description

The invention relates to the field of energy supply and electric power and can be used to power consumers, both in the presence and absence of a centralized energy supply system. The system can be used to power the geographically dispersed objects of the mineral resource complex, remote from centralized energy supply systems.

A known autonomous power supply system (patent RU 2284644, etc. pr. 14.06.2005), comprising a battery, a rheostat, an automatic release, a direct current electric motor, a synchronous generator with a pathogen, an automatic power control unit, a three-phase rectifier with a smoothing filter, consumed nodes, the first, second and third outputs of the synchronous generator with the exciter are connected respectively to the first, second and third inputs of the consumed nodes and a three-phase rectifier with a smoothing filter, the output which is connected through an automatic power adjustment unit to the first input of automatic trip unit, having a second input and an output respectively connected through a resistor to the output of the battery and to an input of a DC motor, is rigidly connected with a synchronous generator with exciter.

The disadvantages of the system are: the presence of electric energy losses in the rheostat, insufficient reliability of power supply and the inability to control power consumption modes when powering consumers.

A known power supply system of objects (patent RU 2316108, etc. pr. 23.10.2006), containing a direct current source, a rheostat, an automatic trip, an electric motor, a synchronous generator with a pathogen, a three-phase rectifier with a smoothing filter, transformer ferroresonant voltage stabilizers, consumed nodes. Moreover, the synchronous generator with the exciter is rigidly connected to the electric motor and has first, second and third outputs connected respectively to the first, second and third inputs of the consumed nodes, and the output of the DC source is connected to the input of the rheostat, the first and second outputs of which are connected to the first input an automatic trip unit having a second output and a second input, respectively connected to the input of the electric motor and to the output of a three-phase rectifier with a smoothing filter, the first, second and third inputs of which respectively, connected to the first output of the transformer ferroresonant voltage stabilizer, with a second output of this stabilizer, also connected to the first output of the transformer ferroresonant voltage stabilizer and to the second output of this stabilizer having a first input connected to the second output of the synchronous generator with a pathogen, also connected to the second input the aforementioned stabilizer, and the second input of the aforementioned stabilizer is connected to the third output of the synchronous generator agent having a first output coupled to the first input of the aforementioned stabilizer.

The disadvantages of the system are: the presence of electric energy losses in the rheostat, insufficient reliability of power supply and the inability to control power consumption modes when powering consumers.

A known AC power system (patent RU 2316887, etc. pr. 07.11.2006), comprising an AC source, a block of three automatic releases, a synchronous electric motor, a synchronous generator with a pathogen, transformer ferroresonant voltage stabilizers, consumed nodes,

the first, second and third outputs of the AC source through a block of three automatic releases are respectively connected: to the first, second and third inputs of the synchronous motor, and the fourth, fifth and sixth inputs of the above block are respectively connected to the first output of the transformer ferroresonant voltage stabilizer, with the second outputs of the aforementioned stabilizer and transformer ferroresonant voltage stabilizer, as well as the third output of this stabilizer having the first and second inputs, respectively connected to the first and second outputs of the synchronous generator with a pathogen, the second output of which is also connected to the second input of the aforementioned transformer ferroresonant stabilizer having a first input connected to the third output of the synchronous generator with a pathogen, also connected to the third input of the consumed nodes , the first and second inputs of which are respectively connected to the first and second outputs of the above-mentioned synchronous generator with a pathogen, rigidly connected synchronous motor.

The disadvantages of the system are: insufficient reliability of power supply and the inability to control power consumption modes when powering consumers.

Known AC power system (patent RU 2419956, etc. pr. 05/11/2010), adopted as a prototype, an alternating current source, a block of three automatic releases, a synchronous electric motor, synchronous generators with exciters, AC voltage stabilizers, consumed nodes, while the first, second and third outputs of the AC source through a block of three automatic releases are respectively connected to the first, second and third inputs of the synchronous motor, and the fourth, fifth and sixth inputs are above The removed block is respectively connected to the first output of the AC voltage stabilizer, with the second output of the aforementioned stabilizer and the first output of the AC voltage stabilizer, as well as to the second output of the aforementioned stabilizer having the first and second inputs, respectively connected to the first and second output of the synchronous generator with a pathogen the output of which is also connected to the second input of the stabilizer having a first input connected to the third output of the synchronous generator from the exciter a device that has a rigid connection with an electric motor and with a synchronous generator with an exciter, the first, second, and third outputs of which are respectively connected to the first, second, and third inputs of the consumed units.

The disadvantage of the system is the inability to control energy consumption during power supply to consumers.

The technical result of the invention is to provide control of voltage modes with reliable power supply to consumers having different power consumption modes.

The technical result of the invention is achieved by the fact that the AC power system, consisting of an AC source, a block of three automatic releases, a synchronous motor, a synchronous generator with a pathogen, two AC voltage stabilizers and consumed nodes, where the first, second and third outputs of the AC source through a block of three automatic releases, respectively, connected to the first, second and third inputs of the synchronous motor, the fourth, fifth and sixth the ohms of the aforementioned unit are respectively connected to the first output of the first AC voltage stabilizer, to the second output of the aforementioned stabilizer and to the first output of the second stabilizer, as well as to the second output of this stabilizer having the first and second inputs, respectively connected to the first and second outputs of the synchronous generator with pathogen, the second output of which is also connected to the second input of the first stabilizer having a first input connected to the third output of the synchronous generator, having having a rigid connection with a synchronous electric motor, a second synchronous generator with a pathogen, rigidly connected with the first synchronous generator with a pathogen and having first, second and third outputs, respectively connected to the first, second and third inputs of the consumed nodes, equipped with the first and second voltage analyzers, unit control voltage mode, uninterruptible power supply, switch, and the first, second and third outputs of the AC source are connected respectively to the first, second th and third inputs of the first voltage analyzer, the first, second and third outputs of which are connected respectively to the first, second and third inputs of a block of three automatic trip units, the first, second and third outputs of the second synchronous generator are connected respectively to the first, second and third inputs of the second analyzer voltage, the first, second and third outputs of which are connected respectively with the first, second and third inputs of the consumed nodes and with the first, second and third inputs of an uninterruptible power supply, four the first outputs of the first and second voltage analyzer are connected to the first and second inputs of the voltage mode control unit, the first and second outputs of which are respectively connected to the third inputs of the first and second voltage stabilizer, the fourth outputs of the first and second synchronous generator are connected respectively to the third and fourth inputs of the control unit voltage mode, the first, second and third outputs of the AC source are connected respectively to the first, second and third inputs of the switch, the first, second the swarm and third outputs of which are connected respectively to the first, second and third inputs of the uninterruptible power supply, the first, second and third outputs of which are respectively connected to the first, second and third inputs of the consumed nodes.

The proposed device is illustrated by the drawing shown in figure 1, which shows the structure of the device. Figure 1: 1 - source of alternating current; 2 - block of three automatic releases; 3 - synchronous electric motor; 4, 5 - respectively, the first and second synchronous generators with pathogens; 6, 7 - respectively, the first and second AC voltage stabilizers; 8 - consumed nodes; 9 - voltage mode control unit; 10, 11 - respectively, the first and second voltage analyzers; 12 - uninterruptible power supply, 13 - switch.

The first, second and third outputs of the AC source 1 through a block of three automatic releases 2 are respectively connected to the first, second and third inputs of the synchronous motor 3. The fourth, fifth and sixth inputs of a block of three automatic releases 2 are respectively connected to the first output of the AC voltage stabilizer 6, with a second output of the aforementioned stabilizer and a first output of an AC voltage stabilizer 7, as well as with a second output of the aforementioned stabilizer. The first and second inputs of the AC voltage stabilizer 7 are respectively connected to the first and second output of the synchronous generator with the pathogen 4, the second output of which is also connected to the second input of the stabilizer having a first input connected to the third output of the synchronous generator with the pathogen 4 an electric motor 3 and with a synchronous generator with a pathogen 5, the first, second and third outputs of which are respectively connected to the first, second and third inputs of the consumed nodes 8. To the first, second the first, second and third inputs of the first voltage analyzer 10, the first, second and third outputs of which are connected respectively to the first, second and third inputs of the block of three automatic releases 2, the first, second and third outputs, respectively, are connected to the third and outputs of the AC source 1 the second synchronous generator 5 are connected respectively to the first, second and third inputs of the second voltage analyzer 11, the first, second and third outputs of which are connected respectively to the first, second and third inputs consumed nodes 8 and with the first, second and third inputs of an uninterruptible power supply 12, the fourth outputs of the first 10 and second 11 of the voltage analyzer are connected to the first and second inputs of the voltage mode control unit 9, the first and second outputs of which are respectively connected to the third inputs of the first 6 and the second 7 voltage stabilizers, the fourth outputs of the first 4 and second 5 synchronous generators are connected respectively to the third and fourth inputs of the voltage mode control unit 9, the first, second and third outputs are AC source 1 are connected respectively to the first, second and third inputs of switch 13, the first, second and third outputs of which are connected respectively to the first, second and third inputs of uninterruptible power supply 12, the first, second and third outputs of which are respectively connected to the first, second and the third inputs of the consumed nodes 8.

The proposed device operates as follows. Using an alternating current source 1, a three-phase alternating voltage is supplied through a block of three automatic releases 2 to a synchronous motor 3, the shaft of which is rigidly connected to the shaft of the synchronous generator with exciter 4. The shaft of the latter is also rigidly connected to the shaft of the synchronous generator with exciter 5, issuing three-phase alternating voltage in the consumed nodes 8 in the form of electrical loads of various operating modes. Also, from an alternating current source 1, an uninterruptible power supply source is supplied with a battery, which, in the event of an alternating current source 1 failure, serves as a backup source of power supply for especially critical power receivers of consumed units 8 for the period of elimination of the accident from the source 1. From the generator 4, the first and second phases come to the AC voltage stabilizer 7, and the second and third phases to the AC voltage stabilizer 6. At the inputs and outputs of the stabilizers, the second phases are connected. Thus, from the stabilizers, a three-phase alternating voltage is supplied to the other three inputs of the block of three automatic releases, depending on the magnitude of the voltage supplied to the inputs, it connects the corresponding phase of the AC source or stabilizer. When lowering the input voltage at the inputs of the stabilizers at the outputs, the rated voltage will take place. However, if the voltage at the inputs is lower than stabilized, the block of three automatic releases 2 will connect the other three inputs to the corresponding outputs of the AC source 1. Information on the magnitude, phase and harmonic composition of the supply voltage from the side is supplied to the inputs of the voltage mode control unit 9 the first voltage analyzer 10, the voltage of the power consumers of the consumed nodes 8 from the side of the second voltage analyzer 11, on the magnitude of the excitation current of synchronous generators 4 and 5, which depend awns from the law regulating the excitation current may be consumers-regulators. The voltage mode control unit 9, depending on the nature of the measurement information, generates voltage reference signals for the stabilizers 6 and 7. Thus, the voltage mode of the power receivers of the consumed nodes 8 having a different nature of energy consumption is controlled.

Claims (1)

AC power supply system consisting of an alternating current source, a block of three automatic releases, a synchronous electric motor, a synchronous generator with a pathogen, two AC voltage stabilizers and consumed nodes, where the first, second and third outputs of the alternating current source through a block of three automatic releases connected to the first, second and third inputs of the synchronous motor, the fourth, fifth and sixth inputs of the above block are respectively connected s with the first output of the first AC voltage stabilizer, with the second output of the aforementioned stabilizer and with the first output of the second stabilizer, as well as with the second output of this stabilizer having first and second inputs, respectively connected to the first and second outputs of the synchronous generator with the exciter, the second output of which also connected to the second input of the first stabilizer having a first input connected to the third output of the synchronous generator having a rigid connection with the synchronous motor, second A synchronous generator with an exciter, rigidly connected to the first synchronous generator with an exciter and having first, second and third outputs, respectively connected to the first, second and third inputs of the consumed nodes, characterized in that it is equipped with first and second voltage analyzers, a voltage mode control unit , uninterruptible power supply, switch, and the first, second and third outputs of the AC source are connected, respectively, the first, second and third inputs of the first analyzer voltage, the first, second and third outputs of which are connected respectively to the first, second and third inputs of a block of three automatic releases, the first, second and third outputs of the second synchronous generator are connected respectively to the first, second and third inputs of the second voltage analyzer, first, second and the third outputs of which are connected respectively with the first, second and third inputs of the consumed nodes and with the first, second and third inputs of an uninterruptible power supply, the fourth outputs of the first and second ana voltage insulator connected to the first and second inputs of the voltage mode control unit, the first and second outputs of which are respectively connected to the third inputs of the first and second voltage stabilizer, the fourth outputs of the first and second synchronous generator are connected respectively to the third and fourth inputs of the voltage mode control unit, the first, the second and third outputs of the AC source are connected respectively to the first, second and third inputs of the switch, the first, second and third outputs of which are connected are connected respectively with the first, second and third inputs of the uninterruptible power supply, the first, second and third outputs of which are respectively connected to the first, second and third inputs of the consumed nodes.