CN201717637U - Intelligent reactive power automatic compensating cabinet - Google Patents

Abstract

The utility model provides an intelligent reactive power automatic compensating cabinet, which can realize the distribution system phase separation control and the dynamic and rapid reactive power automatic compensation, and ensure safe, high quality and economic running of the power network. The intelligent reactive power automatic compensating cabinet comprises a cabinet body, a display component and a control component, wherein the control component comprises a single chip microcomputer control host and control device, the single chip microcomputer control host and control device comprises a single chip microcomputer control host, a data acquiring input module and a data output control component, the data acquiring input module acquires a current signal and a voltage signal of the distribution system by a data acquiring input port, transmits the current signal and the voltage signal after being calculated and processed to the single chip microcomputer control host, the single chip microcomputer control host outputs the data transmitted by the data acquiring input port of the single chip microcomputer control host after further being calculated, compared and judged to a display module and the data is displayed by the display component, and the single chip microcomputer control host sends the data to a data output control port according to various phases reactive power requirements and various phases power factors of the system.

Description

Intelligent reactive power automatic compensation cabinet

Technical field

The utility model belongs to the power distribution equipment field, relates in particular to a kind of intelligent reactive power automatic compensation cabinet.

Background technology

The quality of power supply is to estimate the index of power system operation performance quality, and wherein the stability of voltage is particularly important.In the power system operation, must guarantee that the busbar voltage of each electric line is stabilized within the deviation range of permission, at present the voltage of most countries regulation allow excursion be generally+5%～-10%.

Whether voltage stablizes reactive power balance in the system of depending primarily on.If the fluctuation of the reactive requirement of power load is bigger,, will cause line voltage distribution to exceed the tolerance limit scope as rectifying device, inverter, converter plant, electronic switch power, arc furnace and high capacity motor and large pumping station etc.Therefore, the reactive power compensation of electric power system and voltage adjustment are the important measures that guarantee power grid security, high-quality, economical operation.

In industrial power distribution systems, the mode of reactive power compensation before, mostly be to adopt the power capacitor group, by the A.C. contactor of routine go to control power capacitor throwing, cut and realize, because A.C. contactor is subjected to the mechanical action time restriction, therefore, response speed is slow, can't satisfy the requirement of the more frequent load or burden without work of fluctuation to reactive power compensation.And, traditional reactive power automatic compensator generally all manufactures and designs at three-phase balancing load, when the three-phase reactive load in the electric power system is obviously uneven, as coming into operation of single-phase arc welding machine etc., just it can't realize effectively having regulated.

Along with science and technology development, require more and more higher to power quality.And most customer charges are inductive load, as: industrial and mining enterprises, factory building, school, office, harbour, family etc.Because the power factor of circuit is by the load decision, the height of power factor will have influence on the utilance of size of current, the loss of voltage, power loss and generating equipment in the electric line.So, for use electricity quality and the voltage that improve modern industry are stablized, and the power factor that improves all terminal power consumption equipments in the low-voltage distribution system supply and distribution network, must carry out idle fast support to power supply-distribution system.Be to adopt the state type reactive power automatic compensation at present mostly, regulating effect is still undesirable.

The utility model content

The purpose of this utility model is to provide a kind of intelligent reactive power automatic compensation cabinet, can realize distribution system phase-splitting control, dynamic reactive power automatic compensation fast, guarantees power grid security, high-quality, economical operation.

The utility model is achieved through the following technical solutions:

Intelligent reactive power automatic compensation cabinet includes: cabinet, display unit and control assembly, and described display unit and control assembly are electrically connected; Wherein, described control assembly includes: controlled by single chip microprocessor main frame and control device, display module and power module; Described controlled by single chip microprocessor main frame and control device include: controlled by single chip microprocessor main frame, data acquisition input module and data output control part spare; Described power module links to each other with described controlled by single chip microprocessor main frame and carries power supply; Described data acquisition input module collects the current signal and the voltage signal of distribution system by the data acquisition input port, through computing, handle the back and carry to described controlled by single chip microprocessor main frame; After the data that described controlled by single chip microprocessor main frame transports the data acquisition input port are further passed through computing, comparison, judgment processing, show to described display module dateout and by display unit; Described data output control part spare includes: electronic type combination switch and power capacitor, described electronic type combination switch, include: thyristor and A.C. contactor that a group or more is in parallel and connects, described power capacitor and described electronic type combination switch are connected in series; Described controlled by single chip microprocessor main frame is according to the power factor of each phase reactive requirement of system and each phase, data are delivered to data output control mouthful, thus by data output control mouth directly control the thyristor of data output control part spare and A.C. contactor control power capacitor throwing, cut action.

To sum up, the beneficial effects of the utility model are:

For improving the stable of modern industry, must realize reactive power support fast to power supply-distribution system, to realize the dynamic auto compensation of reactive power of phase-splitting with electricity quality and voltage.Intelligent reactive power automatic compensation cabinet of the present utility model, essence are that the intelligent reactive power of a kind of state type is dynamic, the automatic compensating cabinet of phase-splitting control.What the utility model at first adopted is Control System of Microcomputer, system data is carried out online quick dynamic acquisition, by system controlled by computer electronics AC contact-less switch thyristor and A.C. contactor, directly throw, cut each phase power capacitor fast then, compensate automatically to realize the dynamic reactive phase-splitting.Because the data acquisition input module collects the current signal and the voltage signal of distribution system by the data acquisition input port, through computing, handle the back and carry to described controlled by single chip microprocessor main frame; Data output control part spare includes: electronic type combination switch and power capacitor, and the electronic type combination switch includes: thyristor and A.C. contactor that a group or more is in parallel and connects, power capacitor and described electronic type combination switch are connected in series; The controlled by single chip microprocessor main frame is according to the power factor of each phase reactive requirement of system and each phase, data are delivered to data output control mouthful, thus by data output control mouth directly control the thyristor of data output control part spare and A.C. contactor control power capacitor throwing, cut action.Therefore, can realize distribution system is realized that rapidity is dynamic, split-phase reactive power compensates response time≤2S automatically.The unbalanced three-phase power distribution system of reactive load is realized single-phase independent phase splitting compensation.Thereby a kind of rapidity is dynamic, the glitch-free reactive power automatic compensator of phase-splitting for modern power distribution systems provides.This state type reactive power is dynamic, the automatic compensation energy-saving device of phase-splitting, reactive load balance or unbalanced using electricity system both be applicable to, also be applicable to the frequent power consumption equipment of reactive power fluctuation, control system has realized fast dynamically, phase-splitting does not have disturbance ground and throws, cuts power capacitor.That Here it is is intelligent entirely, oncontacting is revealed, reactive power is dynamic, the new generation product of the automatic compensation energy-saving type of phase-splitting.

Be specially:

1, adopt controlled by single chip microprocessor: the display part of this device, measure portion, control section, protection part realize by single chip computer control system.

2, the direct control capacitor of thyristor combination switch is thrown, cut: this installs all power capacitors and directly controls throwing, cuts by the thyristor combination switch, to realize the Fast Dynamic reactive power automatic compensation.

3, realization is phased, every phase independent compensation: the power capacitor of this device, the employing phase-splitting is provided with, divide congenial, cut, promptly measure the power factor of each phase respectively, the power capacitor of controlling each phase is respectively thrown, is cut, and that the phased system of realizing the phase-splitting imaginary power automatic compensation can be realized is single-phase, two-phase, three-phase switching simultaneously.

4, thyristor adopts zero cross fired, zero passage to throw, cut power capacitor, to overcome power capacitor in the process of throwing, cutting, produces the impact of excessive electric current to electrical network.

Description of drawings

Fig. 1 is the circuit theory schematic diagram of the intelligent reactive power automatic compensation cabinet of the utility model;

Fig. 2 is the control system general diagram of the intelligent reactive power automatic compensation cabinet of the utility model;

Fig. 3 is a circuit control principle schematic diagram of the intelligent reactive power automatic compensation cabinet of the utility model;

Fig. 4 is the panel arrangement structural representation of the intelligent reactive power automatic compensation cabinet of the utility model;

Fig. 5 is the display unit structural representation of the intelligent reactive power automatic compensation cabinet of the utility model;

Fig. 6 is the whole front sectional structure schematic diagram of the intelligent reactive power automatic compensation cabinet of the utility model;

Fig. 7 is the integral left side sectional structure schematic diagram of the intelligent reactive power automatic compensation cabinet of the utility model;

Fig. 8 is the diaphragm structure schematic diagram of the intelligent reactive power automatic compensation cabinet of the utility model.

Description of reference numerals:

11, major loop copper bus-bar; 12, main circuit current instrument transformer; 13, low-voltage circuit breaker; 14, voltage signal instrument transformer; 15, branch road fuse; 16, thyristor; 17, liquid crystal digital shows mouth; 18, controlled by single chip microprocessor main frame; 19, D.C. regulated power supply input port; 110, filtering capacitor; 111, low-tension fuse; 112, pressure-sensitive lightning arrester; 113, measure current transformer; 114, branch's copper bus-bar; 115, A.C. contactor; 116, condenser discharge lamp; 117, power capacitor; 21, data acquisition input port; 22, data output control mouth; 31, vertical main line copper bus-bar; 41, cabinet; 42, compensating cabinet technological guidance window; 43, liquid crystal display glass window; 431, malfunction indicator lamp; 432, first LCDs; 433, second LCDs; 434, cabinet incoming power indicator light; 435, control system simulation drawing; 44, compensating cabinet nameplate; 45, fault alarm; 46, air inlet; 7, capacitor compensation cabinet dividing plate; 71, controlled by single chip microprocessor main frame printed wiring board; 72, data acquisition input module printed wiring board; 73, control power supply printed wiring board.

Embodiment

The utility model discloses a kind of intelligent reactive power automatic compensation cabinet, ask for an interview Fig. 1 to Fig. 4, include: cabinet 41, display unit and control assembly, described display unit and control assembly are electrically connected; Wherein, described control assembly includes: controlled by single chip microprocessor main frame and control device, display module and power module; Described controlled by single chip microprocessor main frame and control device include: controlled by single chip microprocessor main frame 18, data acquisition input module and data output control part spare; Described power module links to each other with described controlled by single chip microprocessor main frame and carries power supply; Described data acquisition input module collects the current signal and the voltage signal of distribution system by data acquisition input port 21, through computing, handle the back and carry to described controlled by single chip microprocessor main frame; After the data that described controlled by single chip microprocessor main frame transports data acquisition input port 21 are further passed through computing, comparison, judgment processing, show to described display module dateout and by display unit; Described data output control part spare includes: electronic type combination switch and power capacitor 117, described electronic type combination switch, include: thyristor 16 and A.C. contactor 115 that a group or more is in parallel and connects, described power capacitor 117 and described electronic type combination switch are connected in series; Described controlled by single chip microprocessor main frame is according to the power factor of each phase reactive requirement of system and each phase, data are delivered to data output control mouthfuls 22, thus by data output control mouthfuls 22 directly control the thyristor 16 of data output control part spare and A.C. contactor 115 control power capacitors throwing, cut action.

Described controlled by single chip microprocessor main frame: comprise host hardware circuit board, system controlling software and system software.

As shown in Figure 1, 2, 3, described controlled by single chip microprocessor main frame and thyristor 16 and A.C. contactor 115 are electrically connected respectively, and described controlled by single chip microprocessor main frame is respectively to thyristor 16 and A.C. contactor 115 output real time control command; Described data acquisition input module includes: main circuit current instrument transformer 12, voltage signal instrument transformer 14 and measurement current transformer 113; Described main circuit current instrument transformer 12, voltage signal instrument transformer 14 and measurement current transformer 113 are electrically connected with described controlled by single chip microprocessor main frame respectively, and carry the current signal and the voltage signal of distribution system to the controlled by single chip microprocessor main frame.

Exchange 380V three-phase incoming power, by major loop busbar 11, have the three-phase branch road to connect each phase circuit of power line respectively, each branch road includes: main circuit current instrument transformer 12, low-voltage circuit breaker 13, voltage signal instrument transformer 14, measure current transformer 113, branch road fuse 15, one group of above electronic type combination switch and power capacitor 117; Described main circuit current instrument transformer 12 is arranged on the major loop, and low-voltage circuit breaker 13, voltage signal instrument transformer 14, measurement current transformer 113, branch road fuse 15 and electronic type combination switch adopt the mode of series connection to connect.

Connect by branch's busbar 114 between described measurement current transformer 113 and the electronic type combination switch.

Described controlled by single chip microprocessor main frame and control device also comprise low-tension fuse 111, and an end of described low-tension fuse 111 is divided into two-way: the first via back ground connection of connecting with filtering capacitor 110, the second tunnel ground connection afterwards of connecting with pressure-sensitive lightning arrester 112.

As shown in Figure 1, 2, described display module includes liquid crystal digital and shows mouth 17, and described power module includes D.C. regulated power supply input port 19.

Shown in Fig. 4,5, the air inlet 46 that the front of the cabinet 41 of described intelligent reactive power automatic compensation cabinet is provided with display floater and is positioned at the bottom, on the described display floater display unit is installed, described display unit includes: one or more liquid crystal indicator.

Described display unit includes: be positioned at display floater top compensating cabinet technological guidance window 42, be positioned at the liquid crystal display glass window 43 of described compensating cabinet technological guidance window 42 belows; Described liquid crystal display glass window 43 belows are provided with a plurality of condenser discharge lamp 116 and fault alarm 45.

Described liquid crystal display glass window 43 includes a plurality of malfunction indicator lamp 431, first LCDs 432, second LCDs 433, a plurality of cabinet incoming power indicator light 434 and control system simulation drawing 435; Described malfunction indicator lamp 431, first LCDs 432, second LCDs 433 are arranged by the orientation, upper, middle and lower, control system simulation drawing 435 is positioned at the right side of first LCDs 432, second LCDs 433, and cabinet incoming power indicator light 434 is positioned at the top of control system simulation drawing 435.

Shown in Fig. 4,6,7,8, described cabinet 41 adopts forward and backward framework to add central dividing plate and is assembled into enclosed complete set of equipments by steel plate.The rear frame of cabinet 41 is mainly installed low-voltage circuit breaker 13, low-tension fuse 111, thyristor 16, A.C. contactor 115, power capacitor 117, copper bus-bar mains system and input and output terminal row.The forward frame of cabinet mainly is equipped with capacitor compensation cabinet dividing plate 7 and operating system.Described capacitor compensation cabinet dividing plate 7: comprise superposed controlled by single chip microprocessor main frame printed wiring board 71, be positioned at the middle part data acquisition input module printed wiring board 72, be positioned at bottom control power supply printed wiring board 73.

The concrete operation principle of each several part of the present utility model is as follows:

1, control loop part

Operation principle, detail drawing 1 electronic ac switch reactive power automatic compensation cabinet system block diagram and Fig. 2 reactive power automatic compensation cabinet Control System of Microcomputer block diagram of control loop part.Its course of work, it at first is sampling, described sampling: be by main circuit current instrument transformer 12, voltage signal instrument transformer 14, measure the data acquisition input port 21 that current transformer 113 is directly delivered to Control System of Microcomputer with the current signal and the voltage signal of system, controlled by single chip microprocessor main frame 18 is directly delivered to after the data of sending here are passed through computing, processing in the data acquisition input port.The data that the controlled by single chip microprocessor main frame is sent the data acquisition input port here, after further passing through computing, comparison, judgment processing again, deliver to liquid crystal digital respectively and show mouth 17, all will send the current data of each phase, the voltage data of each phase, the temperature data of each phase, the power factor data of each phase here by first LCDs 432 and second LCDs 433, realize that by liquid crystal display screen numeral shows with digital form.The data that next controlled by single chip microprocessor main frame is sent the data acquisition input port here, after passing through computing, comparison, judgment processing simultaneously, power factor according to each phase reactive requirement of system and each phase, data are delivered to data output control mouthfuls 22, directly control throwing that thyristor 16 and A.C. contactor 115 remove to control power capacitor 117, cut by data output control mouth.Because system adopts microcomputer to gather the electric current and the voltage of each phase, so sample rate is fast, the time of the high data collection of precision is Millisecond, the throwing by the control thyristor again, cut, realize that control time of quick control thyristor reaches 10 milliseconds the soonest.Thereby this control system, can realize fully best fast dynamically, the reactive power automatic compensation requirement of phase-splitting control.

2, protection part

The utlity model has overcurrent, short-circuit protection, defencive functions such as superpressure, the automatic warning of overtemperature." electronic type combination switch " of the present utility model:

Described electronic type combination switch, it is by thyristor 16 and A.C. contactor 115 parallel with one another combining.Its operation principle is as follows:

Thyristor 16 is a semi-conductor electronic device, by the gate pole control signal, takes zero cross fired, powers to power capacitor with complete sine wave, thereby has replaced the contact switch of traditional type.Adopting thyristor here mainly is in order to improve the electricity quality of using of electrical network, and suppression capacitor makes the electrical network power supply-distribution system safer, more reliable in the impulse current and the overvoltage of throwing, cutting in the process to be produced.As everyone knows, the harmonic pollution of electrical network, major part is to cause from opening, stopping or throwing, cutting of user power utilization equipment.

After adopting thyristor control, " taking voltage zero-cross to trigger then passing zero trigger " and zero-crossing switching have fundamentally been stopped capacitor and have been produced big electric current to the pollution to electrical network of the impact of electrical network and overvoltage in the process of throwing, cutting.Because when power capacitor was opened in no-voltage, this moment, electric current also was zero beginning, did not have the impact of big electric current.

Because the electric current that thyristor device stream passes through is an internal electron stream, does not have contact problems, more do not have arcing and spark and occur, and switching speed is fast, but frequent operation.Because it is a controllable devices, does not have problems such as rush of current and overvoltage interference in the process of open and close fully.But thyristor also exists weak point: certain device pressure drop is then arranged when the thyristor conducting, thereby when work thyristor easily generate heat, have certain energy consumption.

Yet A.C. contactor is the electric current of bimetallic head contact, easily produces melting welding and spark even arcing between two contacts, and the easier phase fault that causes when arcing is serious causes accident of power supply.And its advantage is: between the bimetallic contact, contact impedance is very low.Therefore, it is low to consume energy during work, and is difficult for heating.

Just because of this, the utility model is parallel with one another with thyristor and A.C. contactor, be combined into " electronic type combination switch " after, so just can give full play to the two advantage, overcome the two defective.

The course of work of " electronic type combination switch " is such:

" electronic type combination switch " after the combination, when conducting, pilot thyristor is logical, connects behind the A.C. contactor.During disconnection, A.C. contactor disconnects earlier, disconnects behind the thyristor.During connecting at ordinary times, both equal conductings, but in fact are because the impedance of the impedance of A.C. contactor when connecting during much smaller than the thyristor conducting.So, moving both's conduction period at ordinary times, most load currents carry by contactor.Therefore, thyristor is in the process of work, and the electric current that flows through is also just quite few, not needs to add special heat abstractor.By above-mentioned combination, when conducting, both can pass through big electric current, and have the low-power consumption advantage of traditional type.When turn-offing, neither there be of the impact of big electric current simultaneously, also do not have the pollution of high voltage, more contact melted and arcing can not occur, then have the contactless advantage of contemporary electronic type electrical network to electrical network.Here it is contemporary and traditional " the electronic type combination switch " that combines of our so-called a new generation.

Above-mentioned listed specific implementation is nonrestrictive, and to one skilled in the art, in not departing from the utility model scope, various improvement and the variation carried out all belong to protection range of the present utility model.

Claims (10)

1. intelligent reactive power automatic compensation cabinet includes: cabinet (41), display unit and control assembly, and described display unit and control assembly are electrically connected; It is characterized in that: described control assembly includes: controlled by single chip microprocessor main frame and control device, display module and power module; Described controlled by single chip microprocessor main frame and control device include: controlled by single chip microprocessor main frame (18), data acquisition input module and data output control part spare; Described power module links to each other with described controlled by single chip microprocessor main frame and carries power supply; Described data acquisition input module collects the current signal and the voltage signal of distribution system by data acquisition input port (21), through computing, handle the back and carry to described controlled by single chip microprocessor main frame; After the data that described controlled by single chip microprocessor main frame transports data acquisition input port (21) are further passed through computing, comparison, judgment processing, show to described display module dateout and by display unit; Described data output control part spare includes: electronic type combination switch and power capacitor (117), described electronic type combination switch, include: thyristor (16) and A.C. contactor (115) that a group or more is in parallel and connects, described power capacitor (117) and described electronic type combination switch are connected in series; Described controlled by single chip microprocessor main frame is according to the power factor of each phase reactive requirement of system and each phase, data are delivered to data output control mouthful (22), by data output control mouthful (22) directly control the thyristor (16) of data output control part spare and A.C. contactor (115) thus control power capacitor throwing, cut action.

2. intelligent reactive power automatic compensation cabinet as claimed in claim 1, it is characterized in that: described controlled by single chip microprocessor main frame and thyristor (16) and A.C. contactor (115) are electrically connected respectively, and described controlled by single chip microprocessor main frame is respectively to thyristor (16) and A.C. contactor (115) output real time control command; Described data acquisition input module includes: main circuit current instrument transformer (12), voltage signal instrument transformer (14) and measurement current transformer (113); Described main circuit current instrument transformer (12), voltage signal instrument transformer (14) and measurement current transformer (113) are electrically connected with described controlled by single chip microprocessor main frame respectively, and carry the current signal and the voltage signal of distribution system to the controlled by single chip microprocessor main frame.

3. intelligent reactive power automatic compensation cabinet as claimed in claim 2, it is characterized in that: exchange 380V three-phase incoming power, by major loop busbar (11), have the three-phase branch road to connect each phase circuit of power line respectively, each branch road includes: main circuit current instrument transformer (12), low-voltage circuit breaker (13), voltage signal instrument transformer (14), measurement current transformer (113), branch road fuse (15), one group of above electronic type combination switch and power capacitor (117); Described main circuit current instrument transformer (12) is arranged on the major loop, and low-voltage circuit breaker (13), voltage signal instrument transformer (14), measurement current transformer (113), branch road fuse (15) and electronic type combination switch adopt the mode of series connection to connect.

4. intelligent reactive power automatic compensation cabinet as claimed in claim 3 is characterized in that: connect by branch's busbar (114) between described measurement current transformer (113) and the electronic type combination switch.

5. intelligent reactive power automatic compensation cabinet as claimed in claim 4, it is characterized in that: described controlled by single chip microprocessor main frame and control device also comprise low-tension fuse (111), one end of described low-tension fuse (111) is divided into two-way: the first via back ground connection of connecting with filtering capacitor (110), the second tunnel ground connection afterwards of connecting with pressure-sensitive lightning arrester (112).

6. as claim 1 or 5 described intelligent reactive power automatic compensation cabinets, it is characterized in that: described display module includes liquid crystal digital and shows mouthful (17), and described power module includes D.C. regulated power supply input port (19).

7. as any one described intelligent reactive power automatic compensation cabinet in the claim 1 to 5, it is characterized in that: the air inlet (46) that the front of the cabinet of described intelligent reactive power automatic compensation cabinet (41) is provided with display floater and is positioned at the bottom, on the described display floater display unit is installed, described display unit includes: one or more liquid crystal indicator.

8. intelligent reactive power automatic compensation cabinet as claimed in claim 7, it is characterized in that: described display unit includes: be positioned at display floater top compensating cabinet technological guidance window (42), be positioned at the liquid crystal display glass window (43) of described compensating cabinet technological guidance window (42) below; Described liquid crystal display glass window (43) below is provided with a plurality of condenser discharge lamp (116) and fault alarm (45).

9. intelligent reactive power automatic compensation cabinet as claimed in claim 8 is characterized in that: described liquid crystal display glass window (43) includes a plurality of malfunction indicator lamp (431), first LCDs (432), second LCDs (433), a plurality of cabinet incoming power indicator lights (434) and control system simulation drawing (435); Described malfunction indicator lamp (431), first LCDs (432), second LCDs (433) are arranged by the orientation, upper, middle and lower, control system simulation drawing (435) is positioned at the right side of first LCDs (432), second LCDs (433), and cabinet incoming power indicator light (434) is positioned at the top of control system simulation drawing (435).

10. as any one described intelligent reactive power automatic compensation cabinet in the claim 1 to 5, it is characterized in that: described cabinet (41) includes forward and backward framework and central dividing plate; The forward frame of cabinet is equipped with capacitor compensation cabinet dividing plate (7); Described capacitor compensation cabinet dividing plate (7) comprises superposed controlled by single chip microprocessor main frame printed wiring board (71), is positioned at the data acquisition input module printed wiring board (72) at middle part, is positioned at bottom control power supply printed wiring board (73).

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