CN201450337U - Reactive power compensation-type intelligent voltage regulator - Google Patents

Reactive power compensation-type intelligent voltage regulator Download PDF

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Publication number
CN201450337U
CN201450337U CN2009200344850U CN200920034485U CN201450337U CN 201450337 U CN201450337 U CN 201450337U CN 2009200344850 U CN2009200344850 U CN 2009200344850U CN 200920034485 U CN200920034485 U CN 200920034485U CN 201450337 U CN201450337 U CN 201450337U
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China
Prior art keywords
voltage
phase
transformer
circuit
side winding
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CN2009200344850U
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尹之仁
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XI'AN XINGHUI ELECTRIC TECHNOLOGY Co Ltd
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XI'AN XINGHUI ELECTRIC TECHNOLOGY Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E40/00Technologies for an efficient electrical power generation, transmission or distribution
    • Y02E40/30Reactive power compensation

Abstract

The utility model discloses a reactive power compensation-type intelligent voltage regulator comprising a voltage-detecting unit and three automatic voltage regulating and reactive power compensation units. The automatic voltage regulating and reactive power compensation units comprise single-phase voltage regulating transformers which are connected in series in A, B or C-phase lines, reactive power compensation capacitors which are connected in series with the single-phase voltage regulating transformers, switch control circuits which control a plurality of high-voltage switches on voltage output lines of a plurality of shifts of the single-phase voltage regulating transformers and controllers which are connected with the voltage-detecting unit and control the switch control circuits. Three single-phase voltage regulating transformers in the three automatic voltage regulating and reactive power compensation units form a three-phase voltage regulating transformer; and primary windings of the three single-phase voltage regulating transformers are in star connection and Y1 ends of the primary windings are connected at one point after respectively passing through the reactive power compensation capacitors. The reactive power compensation-type intelligent voltage regulator has reasonable circuit design, easy and convenient operation and convenient wiring, also can improve the power factor of the line as well as regulating the voltage of the power supply line and improves the quality of the power supply line fundamentally.

Description

Reactive compensation type intelligent voltage regulator
Technical field
The utility model belongs to power distribution network automatic Regulation technical field, particularly relates to a kind of reactive compensation type intelligent voltage regulator.
Background technology
At present, the ubiquity distribution transformer divides spreading, mounting points problem how in the low pressure rural power grids, is in particular in the following aspects: 1, often adorn tens on a circuit, even station power distribution transformer up to a hundred; 2, circuit is long, and general every circuit backbone adds branch line, about tens kms between tens kms; 3, the line power factor is low, and line loss rate is big, and load with round the clock, seasonal variations is big; 4, line construction is simple, and part branched line quality of voltage is poor, and the power distribution automation degree is on the low side; 5, power failure work often, in the circuit, the average frequency of power cut of annual accident interruption and scheduled outage nearly tens times.Along with the raising of urban and rural economies development and people life level, people urgently wish to improve quality of voltage and power supply reliability.Therefore, inquire into the way that improves the distribution circuit electric voltage quality, provided one of the important topic in good service and exploitation rural power market.
For guaranteeing quality of voltage, pressure regulation means in the low and medium voltage distribution network and measure mainly contain following four kinds, that is: the on-load voltage regulation of transforming plant main transformer depressor; Improve the reactive power of circuit; Change line parameter circuit value; The feeder line automatic voltage regulator is installed.Above-mentioned four kinds of voltage regulating modes are ways that current China rural power grids are used for improving quality of voltage, through actual motion effect for many years, the pressure regulation result of these four kinds of voltage regulating modes are compared as follows.
1) output voltage of adjusting main transformer both can change voltage levvl, can change the power division of system again, and the main transformer of present most of transformer stations all adopts this voltage regulating mode.In this manner, regulate the tap of main transformer, make transformer station's outlet voltage satisfy predetermined requirement according to the system loading situation.Because the foundation of regulating can only be that substation bus bar is a benchmark, be about to the busbar voltage horizontal constraints within a predetermined scope, in the hope of in the certain radius of electricity supply that with the bus is benchmark, satisfying the voltage deviation requirement, but can't satisfy long voltage request apart from supply line's end, and substation bus bar has many outlets, the load curve of each bar outlet also has nothing in common with each other, pressure drop is also different, the voltage that then can not guarantee all circuits all meets the demands, therefore the flexibility of this voltage regulating mode, specific aim is poor, when feeder line is complicated, tend to cause the local voltage near higher apart from transformer station, on the low side apart from the local voltage that transformer station is far away.
2) the employing reactive power compensation improves the reactive power of system, can improve the quality of voltage of terminal temperature difference.The outdoor capacitors compensation is that at present unique voltage that is widely used in the rural power grids system is adjusted measure, and its volume is little, and is easy for installation, realized dispersion compensation.But capacitor compensation mainly is the power factor that improves circuit, and voltage regulation result is very limited, only relies on capacitor compensation, can not solve because the long situations such as line end power supply quality difference that caused of circuit.
3) changing line parameter circuit value, increase conductor cross-section, rationally reduce the impedance of system, also is one of effective way of voltage adjustment.For example shorten radius of electricity supply as far as possible, adopt thick cross section lead.And the cross section of strengthening lead means increase material consumption and construction cost.In addition, the loss of voltage is not only relevant with line resistance, and relevant with the reactance of circuit, the increasing of conductor cross-section to reactance reduce the effect not obvious.Thereby this kind method is just just more effective in higher, the original conductor cross-section of load power factor distribution line less than normal.
4) the feeder line automatic voltage regulator is a kind ofly can regulate the device that no-load voltage ratio guarantees output voltage stabilization automatically, it can automatically adjust to input voltage in 20% scope, be specially adapted to the circuit that voltage fluctuation is big or pressure drop is big. this voltage regulator is installed in the appropriate location of feeder line, within the specific limits line voltage distribution is adjusted, the supply power voltage that guarantees the user is qualified, reduce the line loss of circuit. but because feeder line automatic voltage regulator itself will consume a part of reactive power, this has just caused the power factor of back end of line further to reduce, though voltage has improved, the line end power supply capacity differed plays the effect of lifting surely.
The utility model content
Technical problem to be solved in the utility model is at above-mentioned deficiency of the prior art, a kind of reactive compensation type intelligent voltage regulator is provided, its circuit design novelty, reasonable, use easy and simple to handle and easy-to-connect, when adjusting supply line's voltage, can also improve the power factor of circuit, fundamentally improve the power supply quality of circuit, effectively avoid traditional existing defective of raising quality of voltage method and deficiency.
For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of reactive compensation type intelligent voltage regulator, it is characterized in that: comprising that supply power voltage to three-phase power line detects in real time with the voltage detection unit of analyzing and processing and according to the supply power voltage that the check and analysis result of voltage detection unit tackles described three-phase power line mutually controls three automatic Regulation and the reactive power compensation unit of adjusting and simultaneously described three-phase power line being carried out reactive power compensation, and described three automatic Regulation and reactive power compensation unit are serially connected in the A of described three-phase power line respectively, on B and the C triple line; The reactive power compensation electric capacity that described automatic Regulation and reactive power compensation unit comprise the single-phase voltage regulating transformer that is serially connected in A, B or the C phase line, be connected in series mutually with the single-phase voltage regulating transformer, a plurality of high-voltage switch gears that are serially connected in respectively on a plurality of gear voltage output lines of described single-phase voltage regulating transformer are carried out the ON-OFF control circuit of deciliter control and the controller that joins and ON-OFF control circuit is carried out corresponding control with voltage detection unit, described ON-OFF control circuit is joined with described a plurality of high-voltage switch gears respectively, and ON-OFF control circuit and controller join; Three single-phase voltage regulating transformers in described three automatic Regulation and the reactive power compensation unit connect to form a three-phase regulating transformer, and be Y-connection, the x of described three single-phase voltage regulating transformer first side winding between the first side winding of described three single-phase voltage regulating transformers 1The end correspondence is connected on A, B or the C phase line and its other end is y 1End is connected to a bit behind reactive power compensation electric capacity respectively mutually.
The voltage transformer that the phase voltage to three-phase power line that comprises described voltage detection unit detects in real time, join with voltage transformer and to voltage transformer institute detection signal carry out analog-to-digital A/D change-over circuit one, the main control unit that joins with A/D change-over circuit one and the wireless communication module one that joins with main control unit; Be connected to wireless communication module two on the described controller, wireless communication module two is connected with wireless communication mode with one of wireless communication module.
Two ends of the same name of described single-phase voltage regulating transformer first side winding and secondary side winding are x 1End and x 2End joins, and the two is serially connected with a high-voltage switch gear that joins with ON-OFF control circuit and controlled by ON-OFF control circuit; The two ends of described single-phase voltage regulating Circuit Fault on Secondary Transformer winding are x 2And y 2End joins and the two is serially connected with a lightning arrester; The x of described single-phase voltage regulating transformer first side winding 1The different name end y of end and secondary side winding 2Join, and the two is serially connected with a high-voltage switch gear that joins with ON-OFF control circuit and controlled by ON-OFF control circuit; The two ends of described single-phase voltage regulating transformer first side winding are x 1And y 1End joins and the two is serially connected with an electric capacity.
The I/V change-over circuit that also comprises current measurement circuit in described automatic Regulation and the reactive power compensation unit, joins with described current measurement circuit, the signal amplification circuit that joins with the I/V change-over circuit, join with signal amplification circuit and the corresponding voltage comparator circuit that ON-OFF control circuit is controlled, with the A/D change-over circuit two that signal amplification circuit joins multiselect one analog switch and joins with multiselect one analog switch, described A/D change-over circuit two connects controller;
Described current measurement circuit comprises that a plurality of current transformers and three real-time two ends of the same name to single-phase voltage regulating transformer first side winding and secondary side winding of in real time the electric current on a plurality of gear voltage output lines of described single-phase voltage regulating transformer being detected respectively are x 1End and x 2The x of the electric current between end, single-phase voltage regulating transformer first side winding 1The different name end y of end and secondary side winding 2Between electric current and the two ends of single-phase voltage regulating transformer first side winding be x 1And y 1The current transformer that electric current between end detects, described current transformer all connects the I/V change-over circuit.
Described voltage transformer comprise two respectively to A in the described three-phase power line mutually with the C voltage transformer that detects in real time of phase voltage mutually.
The utility model compared with prior art has the following advantages:
1, circuit design novelty, reasonable is used easy and simple to handle and easy-to-connect, and making and use cost are low.
2, result of use is good, when adjusting line voltage distribution, can also improve the power factor of circuit, thereby can effectively improve the bulk supply quality of three-phase power line.
3, voltage regulating transformer and reactive-load compensation capacitor are in series, and have not only reduced the operating voltage of voltage regulating transformer, and whole device volume is little, capacity big and be convenient to installation and maintenance.
4, the utility model can be adjusted the output voltage of circuit automatically according to the situation of change of circuit input voltage, need not human intervention, and voltage is adjusted the precision height.
5, intelligent controller adopts the technical grade control chip, the reliability height, and antijamming capability is strong, can adapt to outdoor adverse circumstances.
6, the scene can be revised the parameter of controller by wireless communication module, grasps the service data of device, and is simple.
In sum, the utility model circuit design novelty, reasonable, use easy and simple to handle and easy-to-connect, when adjusting supply line's voltage, can also improve the power factor of circuit, fundamentally improve the power supply quality of circuit, effectively avoided traditional existing defective of raising quality of voltage method and deficiency.
Below by drawings and Examples, the technical solution of the utility model is described in further detail.
Description of drawings
Fig. 1 is a circuit block diagram of the present utility model.
Fig. 2 is the circuit block diagram of the utility model voltage detection unit.
Fig. 3 is the circuit block diagram of the utility model automatic Regulation and reactive power compensation unit.
Fig. 4 is the circuit theory diagrams of three automatic Regulation of the utility model and reactive power compensation unit.
Description of reference numerals:
The 1-voltage detection unit; The 1-1-voltage transformer; 1-2-A/D change-over circuit one;
The 1-3-main control unit; 1-4-wireless communication module one; 2-automatic Regulation and reactive power compensation
The unit;
The 2-1-ON-OFF control circuit; The 2-2-controller; 2-3-wireless communication module two;
The 2-4-current transformer; The 2-5-I/V change-over circuit; The 2-6-signal amplification circuit;
The 2-7-voltage comparator circuit; 2-8-multiselect one analog switch; 2-9-A/D change-over circuit two.
Embodiment
As Fig. 1, shown in Figure 3, the utility model comprises that the supply power voltage to three-phase power line detects in real time with the voltage detection unit 1 of analyzing and processing and according to the supply power voltage that the check and analysis result of voltage detection unit 1 tackles described three-phase power line mutually and controls three automatic Regulation and the reactive power compensation unit 2 of adjusting and simultaneously described three-phase power line being carried out reactive power compensation that described three automatic Regulation and reactive power compensation unit 2 are serially connected in respectively on A, the B and C triple line of described three-phase power line.
The reactive power compensation electric capacity that described automatic Regulation and reactive power compensation unit 2 comprise the single-phase voltage regulating transformer that is serially connected in A, B or the C phase line, be connected in series mutually with the single-phase voltage regulating transformer, a plurality of high-voltage switch gears that are serially connected in respectively on a plurality of gear voltage output lines of described single-phase voltage regulating transformer are carried out the ON-OFF control circuit 2-1 of deciliter control and the controller 2-2 that joins and ON-OFF control circuit 2-1 is carried out corresponding control with voltage detection unit 1, described ON-OFF control circuit 2-1 joins with described a plurality of high-voltage switch gears respectively, and ON-OFF control circuit 2-1 and controller 2-2 join.Three single-phase voltage regulating transformers in described three automatic Regulation and the reactive power compensation unit 2 connect to form a three-phase regulating transformer, and be Y-connection, the x of described three single-phase voltage regulating transformer first side winding between the first side winding of described three single-phase voltage regulating transformers 1The end correspondence is connected on A, B or the C phase line and its other end is y 1End is connected to a bit behind reactive power compensation electric capacity respectively mutually.
As shown in Figure 2, described voltage detection unit 1 comprise voltage transformer 1-1 that the phase voltage to three-phase power line detects in real time, join with voltage transformer 1-1 and to voltage transformer 1-1 institute detection signal carry out analog-to-digital A/D change-over circuit one 1-2, the main control unit 1-3 that joins with A/D change-over circuit one 1-2 and wireless communication module one 1-4 that joins with main control unit 1-3.Be connected to wireless communication module two 2-3 on the described controller 2-2, be connected with wireless communication mode between wireless communication module two 2-3 and wireless communication module one 1-4.In the present embodiment, described voltage transformer 1-1 comprise two respectively to A in the described three-phase power line mutually with the C voltage transformer that detects in real time of phase voltage mutually.In addition, in order to guarantee operate as normal of the present utility model, voltage detection unit 1 is provided with under-voltage and overcurrent protective device.
In the actual use, voltage detection unit 1 mainly detects feeder voltage, and control automatic Regulation and the 2 pairs of line voltage distributions in reactive power compensation unit adjust accordingly, and finally makes feeder voltage reach predetermined value.To sum up, the utility model is made up of a voltage detection unit 1 and three automatic Regulation and reactive power compensation unit 2, wherein voltage detection unit 1 is fixed on the external shell and itself and the earth equipotential, automatic Regulation and reactive power compensation unit 2 on three-phase power line and with described three-phase power line equipotential.Described voltage detection unit 1 tackles automatic Regulation mutually according to the variation of line voltage distribution and reactive power compensation unit 2 sends control command, and automatic Regulation and reactive power compensation unit 2 adjust accordingly line voltage distribution according to the control command that receives.
In conjunction with Fig. 4, two ends of the same name of described single-phase voltage regulating transformer first side winding and secondary side winding are x 1End and x 2End joins, and the two is serially connected with a high-voltage switch gear that joins with ON-OFF control circuit 2-1 and controlled by ON-OFF control circuit 2-1.The two ends of described single-phase voltage regulating Circuit Fault on Secondary Transformer winding are x 2And y 2End joins and the two is serially connected with a lightning arrester.The x of described single-phase voltage regulating transformer first side winding 1The different name end y of end and secondary side winding 2Join, and the two is serially connected with a high-voltage switch gear that joins with ON-OFF control circuit 2-1 and controlled by ON-OFF control circuit 2-1.The two ends of described single-phase voltage regulating transformer first side winding are x 1And y 1End joins and the two is serially connected with an electric capacity.
The I/V change-over circuit 2-5 that also comprises current measurement circuit in described automatic Regulation and the reactive power compensation unit 2, joins with described current measurement circuit, the signal amplification circuit 2-6 that joins with I/V change-over circuit 2-5, join with signal amplification circuit 2-6 and the corresponding voltage comparator circuit 2-7 that ON-OFF control circuit 2-1 is controlled, with A/D change-over circuit two 2-9 that signal amplification circuit 2-6 joins multiselect one analog switch 2-8 and joins with multiselect one analog switch 2-8, described A/D change-over circuit two 2-9 meet controller 2-2.Described current measurement circuit comprises that a plurality of current transformer 2-4 and three real-time two ends of the same name to single-phase voltage regulating transformer first side winding and secondary side winding of in real time the electric current on a plurality of gear voltage output lines of described single-phase voltage regulating transformer being detected respectively are x 1End and x 2The x of the electric current between end, single-phase voltage regulating transformer first side winding 1The different name end y of end and secondary side winding 2Between electric current and the two ends of single-phase voltage regulating transformer first side winding be x 1And y 1The current transformer 2-4 that electric current between end detects, described current transformer 2-4 all meets I/V change-over circuit 2-5.
In the present embodiment, described single-phase voltage regulating transformer comprises 5 voltage output gears, particularly: for being serially connected in the single-phase voltage regulating transformer T on the A phase line in the described three-phase power line A1, be serially connected in described single-phase voltage regulating transformer T A1In 5 high-voltage switch gears on 5 gear voltage output lines be respectively S A1, S A2, S A3, S A4And S A5, be serially connected in single-phase voltage regulating transformer T A1Two ends of the same name of first side winding and secondary side winding are x 1End and x 2High-voltage switch gear between end is respectively S A6, be serially connected in single-phase voltage regulating transformer T A1The x of first side winding 1The different name end y of end and secondary side winding 2Between high-voltage switch gear be respectively S A7, described high-voltage switch gear S A1, S A2, S A3, S A4, S A5, S A6And S A7All join and control single-phase voltage regulating transformer T by controller 2-2 with controller 2-2 A1The two ends of first side winding are x 1And y 1The electric capacity that is connected in series between end is capacitor C A2In addition, described single-phase voltage regulating transformer T A1Y 1End and reactive power compensation capacitor C A1An end join.In real time to single-phase voltage regulating transformer T A15 current transformer 2-4 that electric current on 5 gear voltage output lines detects respectively are respectively CT A1, CT A2, CT A3, CT A4And CT A5, three in real time to single-phase voltage regulating transformer T A1The x of first side winding 1The different name end y of end and secondary side winding 2Between two ends of the same name of electric current, first side winding and secondary side winding be x 1End and x 2The electric current between end and the two ends of first side winding are x 1And y 1The current transformer 2-4 that electric current between end detects is respectively CT A6, CT A7And CT A8Above-mentioned 8 current transformer 2-4 are CT A1, CT A2, CT A3, CT A4, CT A5, CT A6, CT A7And CT A8All join with I/V change-over circuit 2-5.Described single-phase voltage regulating transformer T A1The two ends of secondary side winding are x 2And y 2The lightning arrester that is connected in series between end is lightning arrester BL A1
For being serially connected in the single-phase voltage regulating transformer T on the B phase line in the described three-phase power line B1, be serially connected in described single-phase voltage regulating transformer T B1In 5 high-voltage switch gears on 5 gear voltage output lines be respectively S B1, S B2, S 3, S B4And S B5, be serially connected in single-phase voltage regulating transformer T B1Two ends of the same name of first side winding and secondary side winding are x 1End and x 2High-voltage switch gear between end is respectively S B6, be serially connected in single-phase voltage regulating transformer T A1The x of first side winding 1The different name end y of end and secondary side winding 2Between high-voltage switch gear be respectively S B7, described high-voltage switch gear S B1, S B2, S 3, S B4, S B5, S B6And S B7All join and control single-phase voltage regulating transformer T by controller 2-2 with controller 2-2 B1The two ends of first side winding are x 1And y 1The electric capacity that is connected in series between end is capacitor C B2In addition, described single-phase voltage regulating transformer T B1Y 1End and reactive power compensation capacitor C B1An end join.In real time to single-phase voltage regulating transformer T B15 current transformer 2-4 that electric current on 5 gear voltage output lines detects respectively are respectively CT B1, CT B2, CT B3, CT B4And CT B5, three in real time to single-phase voltage regulating transformer T B1The x of first side winding 1The different name end y of end and secondary side winding 2Between two ends of the same name of electric current, first side winding and secondary side winding be x 1End and x 2The electric current between end and the two ends of first side winding are x 1And y 1The current transformer 2-4 that electric current between end detects is respectively CT B6, CT B7And CT B8Above-mentioned 8 current transformer 2-4 are CT B1, CT B2, CT B3, CT B4, CT B5, CT B6, CT B7And CT B8All join with I/V change-over circuit 2-5.Described single-phase voltage regulating transformer T B1The two ends of secondary side winding are x 2And y 2The lightning arrester that is connected in series between end is lightning arrester BL B1
Equally, for being serially connected in the single-phase voltage regulating transformer T on the C phase line in the described three-phase power line C1, be serially connected in described single-phase voltage regulating transformer T C1In 5 high-voltage switch gears on 5 gear voltage output lines be respectively S C1, S C2, S C3, S C4And S C5, be serially connected in single-phase voltage regulating transformer T C1Two ends of the same name of first side winding and secondary side winding are x 1End and x 2High-voltage switch gear between end is respectively S C6, be serially connected in single-phase voltage regulating transformer T C1The x of first side winding 1The different name end y of end and secondary side winding 2Between high-voltage switch gear be respectively S C7, described high-voltage switch gear S C1, S C2, S C3, S C4, S C5, S C6And S C7All join and control single-phase voltage regulating transformer T by controller 2-2 with controller 2-2 C1The two ends of first side winding are x 1And y 1The electric capacity that is connected in series between end is capacitor C C2In addition, described single-phase voltage regulating transformer T C1Y 1End and reactive power compensation capacitor C C1An end join.In real time to single-phase voltage regulating transformer T C15 current transformer 2-4 that electric current on 5 gear voltage output lines detects respectively are respectively CT C1, CT C2, CT C3, CT C4And CT C5, three in real time to single-phase voltage regulating transformer T C1The x of first side winding 1The different name end y of end and secondary side winding 2Between two ends of the same name of electric current, first side winding and secondary side winding be x 1End and x 2The electric current between end and the two ends of first side winding are x 1And y 1The current transformer 2-4 that electric current between end detects is respectively CT C6, CT C7And CT C8Above-mentioned 8 current transformer 2-4 are CT C1, CT C2, CT C3, CT C4, CT C5, CT C6, CT C7And CT C8All join with I/V change-over circuit 2-5.Described single-phase voltage regulating transformer T C1The two ends of secondary side winding are x 2And y 2The lightning arrester that is connected in series between end is lightning arrester BL B1
Simultaneously, described reactive power compensation capacitor C A1, the reactive power compensation capacitor C B1With the reactive power compensation capacitor C C1The other end be connected to 1 O mutually.Controller 2-2 in described three automatic Regulation and the reactive power compensation unit 2 all and between main control unit 1-3 carries out both-way communication with wireless communication mode.
The course of work of the present utility model is: described voltage detection unit 1 in real time to the A in the described three-phase power line mutually with C mutually phase voltage detect in real time, and synchronously the voltage signal that is detected is carried out analyzing and processing by main control unit 1-3, the magnitude of voltage that is soon detected and the reference voltage of setting compare, when drawing the magnitude of voltage that is detected, main control unit 1-3 analysis is greater than or less than reference voltage, and when the difference between magnitude of voltage that is detected and the reference voltage (for example 10kV) reaches predefined certain numerical value (can make amendment), respectively the controller 2-2 in described three automatic Regulation and the reactive power compensation unit 2 is sent control command by wireless communication module one 1-4; Controller 2-2 in described three automatic Regulation and the reactive power compensation unit 2 receives the control command that main control unit 1-3 sends by wireless communication module two 2-3 and analyzes the back line voltage distribution of described three-phase power line is adjusted accordingly, simultaneously to the certain reactive power of three-phase power line compensation, particularly: controller 2-2 sends corresponding control command to ON-OFF control circuit 2-1 earlier, and the multichannel high-voltage switch gear is carried out corresponding deciliter control by ON-OFF control circuit 2-1, realize to adjust the purpose of three-phase power line circuit output voltage, simultaneously by with three automatic Regulation and reactive power compensation unit 2 in three reactive power compensation electric capacity being connected in series mutually of single-phase voltage regulating transformer be the reactive power compensation capacitor C A1, the reactive power compensation capacitor C B1With the reactive power compensation capacitor C C1Described three-phase power line is carried out reactive power compensation.Simultaneously, be provided with the current measurement circuit that joins with controller 2-2 in three automatic Regulation and the reactive power compensation unit 2, be uploaded to controller 2-2 after carrying out current detecting and synchronously institute's sensed current signal is chosen current maxima by multiselect one analog switch 2-8 by current measurement circuit; And current measurement circuit is delivered to voltage comparator circuit 2-7 simultaneously with the multichannel current signal that is detected; by voltage comparator circuit 2-7 multichannel current value and the predefined load current value that is detected compared; when current measurement circuit measures that arbitrary road current value exceeds default load current value in the detected multichannel current value; voltage comparator circuit 2-7 sends a control signal to ON-OFF control circuit 2-1; make ON-OFF control circuit 2-1 quit work, so that automatic Regulation and reactive power compensation unit 2 are protected.
In sum, when the line voltage distribution of described three-phase power line is greater than or less than difference between reference voltage and magnitude of voltage that is detected and the reference voltage (for example 10kV) when reaching predefined certain numerical value (can make amendment) or current value that current measurement circuit detects when surpassing load current value, voltage detection unit 1 does not all send control command.
The above; it only is preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; everyly any simple modification that above embodiment did, change and equivalent structure are changed, all still belong in the protection range of technical solutions of the utility model according to the utility model technical spirit.

Claims (5)

1. reactive compensation type intelligent voltage regulator, it is characterized in that: comprising that supply power voltage to three-phase power line detects in real time with the voltage detection unit (1) of analyzing and processing and according to the supply power voltage that the check and analysis result of voltage detection unit (1) tackles described three-phase power line mutually controls three automatic Regulation and reactive power compensation unit (2) of adjusting and simultaneously described three-phase power line being carried out reactive power compensation, and described three automatic Regulation and reactive power compensation unit (2) are serially connected in respectively on A, the B and C triple line of described three-phase power line; Described automatic Regulation and reactive power compensation unit (2) comprise and are serially connected in A, single-phase voltage regulating transformer in B or the C phase line, the reactive power compensation electric capacity that is connected in series mutually with the single-phase voltage regulating transformer, the a plurality of high-voltage switch gears that are serially connected in respectively on a plurality of gear voltage output lines of described single-phase voltage regulating transformer are carried out the ON-OFF control circuit (2-1) of deciliter control and the controller (2-2) that joins and ON-OFF control circuit (2-1) is carried out corresponding control with voltage detection unit (1), described ON-OFF control circuit (2-1) is joined with described a plurality of high-voltage switch gears respectively, and ON-OFF control circuit (2-1) is joined with controller (2-2); Three single-phase voltage regulating transformers in described three automatic Regulation and reactive power compensation unit (2) connect to form a three-phase regulating transformer, and be Y-connection, the x of described three single-phase voltage regulating transformer first side winding between the first side winding of described three single-phase voltage regulating transformers 1The end correspondence is connected on A, B or the C phase line and its other end is y 1End is connected to a bit behind reactive power compensation electric capacity respectively mutually.
2. according to the described reactive compensation type intelligent voltage regulator of claim 1, it is characterized in that: described voltage detection unit (1) comprises voltage transformer (1-1) that the phase voltage to three-phase power line detects in real time, join with voltage transformer (1-1) and to voltage transformer (1-1) institute detection signal carry out analog-to-digital A/D change-over circuit one (1-2), the main control unit (1-3) that joins with A/D change-over circuit one (1-2) and the wireless communication module one (1-4) that joins with main control unit (1-3); Be connected to wireless communication module two (2-3) on the described controller (2-2), be connected with wireless communication mode between wireless communication module two (2-3) and wireless communication module one (1-4).
3. according to claim 1 or 2 described reactive compensation type intelligent voltage regulators, it is characterized in that: two ends of the same name of described single-phase voltage regulating transformer first side winding and secondary side winding are x 1End and x 2End joins, and the two is serially connected with a high-voltage switch gear that joins and controlled by ON-OFF control circuit (2-1) with ON-OFF control circuit (2-1); The two ends of described single-phase voltage regulating Circuit Fault on Secondary Transformer winding are x 2And y 2End joins and the two is serially connected with a lightning arrester; The x of described single-phase voltage regulating transformer first side winding 1The different name end y of end and secondary side winding 2Join, and the two is serially connected with a high-voltage switch gear that joins and controlled by ON-OFF control circuit (2-1) with ON-OFF control circuit (2-1); The two ends of described single-phase voltage regulating transformer first side winding are x 1And y 1End joins and the two is serially connected with an electric capacity.
4. according to the described reactive compensation type intelligent voltage regulator of claim 3, it is characterized in that: also comprise current measurement circuit in described automatic Regulation and reactive power compensation unit (2), the I/V change-over circuit (2-5) that joins with described current measurement circuit, the signal amplification circuit (2-6) that joins with I/V change-over circuit (2-5), join and the corresponding voltage comparator circuit (2-7) that ON-OFF control circuit (2-1) is controlled with signal amplification circuit (2-6), multiselect one analog switch (2-8) that joins with signal amplification circuit (2-6) and the A/D change-over circuit two (2-9) that joins with multiselect one analog switch (2-8), described A/D change-over circuit two (2-9) connects controller (2-2);
Described current measurement circuit comprises that a plurality of current transformers (2-4) that in real time electric current on a plurality of gear voltage output lines of described single-phase voltage regulating transformer detected respectively are x with three real-time two ends of the same name to single-phase voltage regulating transformer first side winding and secondary side winding 1End and x 2The x of the electric current between end, single-phase voltage regulating transformer first side winding 1The different name end y of end and secondary side winding 2Between electric current and the two ends of single-phase voltage regulating transformer first side winding be x 1And y 1The current transformer that electric current between end detects (2-4), described current transformer (2-4) all connects I/V change-over circuit (2-5).
5. according to the described reactive compensation type intelligent voltage regulator of claim 2, it is characterized in that: described voltage transformer (1-1) comprise two respectively to A in the described three-phase power line mutually with the C voltage transformer that detects in real time of phase voltage mutually.
CN2009200344850U 2009-09-09 2009-09-09 Reactive power compensation-type intelligent voltage regulator Expired - Lifetime CN201450337U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101656420B (en) * 2009-09-09 2011-07-20 西安兴汇电力科技有限公司 Reactive compensation type intelligent voltage regulator
CN108011374A (en) * 2017-12-13 2018-05-08 国网上海市电力公司 A kind of abatement equipment for being used to solve the high/low voltage problem of power distribution network
CN112803787A (en) * 2019-10-28 2021-05-14 株洲中车机电科技有限公司 Locomotive traction transformer and application thereof

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101656420B (en) * 2009-09-09 2011-07-20 西安兴汇电力科技有限公司 Reactive compensation type intelligent voltage regulator
CN108011374A (en) * 2017-12-13 2018-05-08 国网上海市电力公司 A kind of abatement equipment for being used to solve the high/low voltage problem of power distribution network
CN112803787A (en) * 2019-10-28 2021-05-14 株洲中车机电科技有限公司 Locomotive traction transformer and application thereof

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