CN107492941A - Charging pile device based on airport ground power supply - Google Patents

Abstract

The present invention relates to airport power field, specifically, there is provided a kind of charging pile device based on airport ground power supply, including bus, Power Entry Module, power module, charging pile module and control module.By gathering the power of Power Entry Module output and the bearing power of power module, to judge whether Power Entry Module has idle power or idle power whether sufficient, it is powered so as to which the power of Power Entry Module is delivered into charging pile module.The idle power utilization that charging pile device provided by the invention based on airport ground power supply can supply power network electrical power distribution branch road gets up, on the premise of grid power and distribution facility is not increased, charging pile equipment is equipped with for airport, improves the difficult problem of airport electric car charging.

Description

Charging pile device based on airport ground power supply

Technical field

The present invention relates to airport power supply field, in particular to a kind of charging pile device based on airport ground power supply.

Background technology

At present, ferry bus or mobile power vehicle etc. are all configured in most of airports and the electronic of power source is used as using electric energy Car.Charged during the electric power deficiency of electric car, it is necessary to connect charging pile, at present, in the remote seat in the plane on airport, due to distribution ability Deficiency, build single charging pile and usually require to increase extra supply line, increasing extra supply line needs to power supply Relevant departments carry out application and put on record, and formality is cumbersome, and the supply line built will take remote seat in the plane additional space.

The content of the invention

In view of this, the purpose of the embodiment of the present invention is to provide a kind of charging pile device based on airport ground power supply, To improve the problem of above-mentioned.

In a first aspect, the embodiments of the invention provide a kind of charging pile device based on airport ground power supply, described device Including bus, Power Entry Module, power module, charging pile module and control module, the Power Entry Module passes through described Bus is connected with the power module, and the charging pile module passes through the bus and the power module and Power Entry Module It is all connected with, the Power Entry Module is configured as accessing civil power, and the civil power of access is delivered into the power module, the control Molding block is all connected with the bus, Power Entry Module, power module, charging pile module, and the control module is configured as The power of the Power Entry Module output and the bearing power of the power module are gathered, when the Power Entry Module exports Power and the power module bearing power difference within a preset range when, the control module is configured as controlling institute Power Entry Module is stated to power to the charging pile module.

Further, the Power Entry Module includes input control unit and rectification unit, the input control unit Connected with the rectification unit, the power module includes inversion unit and power supply output control unit, and the inversion unit leads to Cross the bus to be connected with the rectification unit, the power supply output control unit is connected with the inversion unit, the charging Stubs include the first charhing unit and charging output control unit, first charhing unit and the bus or the input The output end connection of control unit, the charging output control unit are connected with first charhing unit；The input control Unit is configured as introducing civil power to the rectification unit, and it is direct current that the rectification unit, which is configured as the commercial power rectification, And feed back on the bus；The inversion unit is configured as the direct current on the bus being converted to alternating current, described Power supply output control unit is configured to respond to the control of the control module to load output or does not export the alternating current；Institute State the first charhing unit and be configured to respond to the control of the control module and control the direct current on the bus or the input The alternating current of unit output processed is converted to the electric energy that device to be charged needs, and the charging output control unit is configured to respond to The control of the control module exports or not exported the electric energy of first charhing unit to the device to be charged.

Further, described device also includes energy-storage module, the energy-storage module and the Power Entry Module and charging Stubs are all connected with, and the energy-storage module is configured as the power in the surplus of the Power Entry Module in threshold range When, the control for responding the control module is charged to the energy-storage module, and is configured as defeated in the Power Entry Module When the power and the difference of the bearing power of the power module gone out is outside preset range, the electric energy of storage is provided to described and filled Electric stubs.

Further, the Power Entry Module also includes ac filter unit, and the ac filter unit is connected on institute State between input control unit and the rectification unit, the ac filter unit is configured as drawing the input control unit The civil power entered is filtered, and the power module also includes output filter unit, and the output filter unit is connected on described inverse Become between unit and the power supply output control unit, the output filter unit is configured as to inversion unit conversion Alternating current is filtered, and the charging pile module also includes the first DC filtering unit, the first DC filtering unit series connection Between first charhing unit and the charging output control unit, the first DC filtering unit is configured as to institute The electric energy for stating the conversion of the first charhing unit is filtered.

Further, the input control unit includes tie point parallel with one another and the second branch road, described first The exchange input switch that road includes being sequentially connected in series includes the exchange being sequentially connected in series with input main contactor, second branch road is exchanged Preliminary filling electric protective circuit breaker, pre-charge contactor and pre-charge resistance, the exchange input switch exchange preliminary filling electric protection with described Switch electrically connects with the city, and second branch road is configured as entering line precharge to the bus；The ac filter list Member includes high frequency filter, isolating transformer, the first electric capacity and the first inductance, the high frequency filter, isolating transformer, first Inductance is sequentially connected in series, and one end of first electric capacity is connected between the isolating transformer and first inductance, the other end Ground connection, first inductance are connected with the rectification unit, and the tie point and second branch circuit parallel connection are in the civil power Between the high frequency filter, the input side of the outlet side of the rectification unit or the input control unit is provided with first Voltage sample point and the first current sample point.

Further, the inversion unit includes two DC/AC single-phase full-bridge inverters, and the output filter unit includes Three-phase exports transformer and three the second electric capacity, two DC/AC single-phase full-bridge inverters and three-phase output transformer Connection, each phase of three-phase output transformer respectively with three second capacitance connections, the power supply output control unit Including output contactor, each second electric capacity is connected with an output contactor, the output contactor with it is described The power output interface connection of power module, the input side of the input side of the inversion unit or the rectification unit are provided with the 2 voltage sample points and the second current sample point.

Further, first charhing unit includes DC/DC voltage transformations module or AC/DC rectification modules, and described One direct current filter unit includes the second inductance, the 3rd inductance and the 3rd electric capacity, and the charging output control unit, which includes output, to be protected Shield switch and output main contactor, first charhing unit, the second inductance, the 3rd inductance, output protection switch, output master connect Tentaculum is sequentially connected in series, and the 3rd capacitance connection is between second inductance and the 3rd inductance.

Further, the energy-storage module includes energy-storage units, energy storage input control unit, the second direct current being sequentially connected in series Filter unit and the second charhing unit, the energy storage input control unit includes input protection switch and energy storage controls main contact Device, the second DC filtering unit include the 4th inductance, the 5th inductance and the 4th electric capacity, the energy-storage units, input protection Switch, energy storage control main contactor, the 4th inductance, the 5th inductance, the second charhing unit are sequentially connected in series, the 4th capacitance connection Between the 4th inductance and the 5th inductance, second charhing unit connects with the rectification unit, the first charhing unit Connect, second charhing unit is configured as when the power of the surplus of the Power Entry Module is in threshold range, by institute The charging voltage that the voltage conversion on bus is the energy-storage units is stated, the energy-storage units are charged, the energy storage list Member is configured as in the power of Power Entry Module output and the difference of the bearing power of the power module not default In the range of when, the electric energy of storage is transmitted to the charging pile module, the input protection switch through second charhing unit It is configured as protecting the circuit of the energy-storage module with energy storage control main contactor, the second DC filtering list Member is configured as being filtered the electric energy of energy-storage units output and the electric energy of second charhing unit input.

Further, described device includes cabinet, and the cabinet includes the power cabinet, exchange input cabinet, storage being sequentially connected Energy cabinet and charging cabinet, the Power Entry Module are built in the exchange input cabinet, and the power module is built in the power supply Cabinet, the charging pile module are built in the charging cabinet, and the energy-storage module is built in the energy storage cabinet, in the control module The cabinet is placed in, the power cabinet includes power board, and the power board is connected with the power module, the friendship Stream input cabinet includes AC control board, and the AC control board is connected with the Power Entry Module, and the energy storage cabinet includes storage Energy control panel, the energy storage control panel are connected with the energy-storage module, and the charging cabinet includes charging panel, the charging control Making sheet is connected with the charging pile module, and the control module includes scheduling controlling plate, the power board, exchange control Plate, energy storage control panel and the charging panel are provided with the first control port, and the scheduling controlling plate is provided with multiple Two control ports, voltage sample port and current sample port, the scheduling controlling plate is by second control port and often Individual first control port connection, with to the power board, AC control board, energy storage control panel and the charge control Plate sends control signal, and the scheduling controlling plate passes through the first voltage sampled point on the voltage sample port and the bus Connected with second voltage sampled point, and pass through the first current sample point on the current sample port and the bus and the 2 current sample points connect.

Second aspect, the embodiments of the invention provide a kind of charging pile device based on airport ground power supply, described device Including cabinet, the cabinet includes control module and the power cabinet being sequentially connected, exchanges and inputs cabinet, energy storage cabinet and charging cabinet, institute State control module and be built in the cabinet, the exchange input cabinet includes Power Entry Module and AC control board, the exchange Control panel is connected with the Power Entry Module, and the power cabinet includes power module and power board, the power supply Plate is connected with the power module, and the charging cabinet includes charging pile module and charging panel, the charging panel and institute Charging pile module connection is stated, the energy storage cabinet includes energy-storage module and energy storage control panel, the energy storage control panel and the energy storage Module is connected, and the Power Entry Module is connected by a bus with the power module, and the charging pile module passes through described Bus is all connected with the power module and Power Entry Module, and the control module includes scheduling controlling plate, the power supply control Making sheet, AC control board, energy storage control panel and the charging panel are provided with the first control port, the scheduling controlling plate Multiple second control ports, voltage sample port and current sample port are provided with, the scheduling controlling plate passes through described second Control port is connected with each first control port, with to the power board, AC control board, energy storage control panel and The charging panel sends control signal；The Power Entry Module includes input control unit, the exchange filter being sequentially connected in series Ripple unit and rectification unit, the power module include the inversion unit, output filter unit and power supply output control being sequentially connected in series Unit processed, the inversion unit are connected by the bus with the rectification unit, and the charging pile module includes being sequentially connected in series The first charhing unit, the first DC filtering unit and charging output control unit, first charhing unit and the bus Or the output end connection of the ac filter unit, the energy-storage module include energy-storage units, the energy storage input control being sequentially connected in series Unit, the second DC filtering unit and the second charhing unit processed, second charhing unit and the rectification unit, the first charging Unit is all connected with, and the input control unit is configured as introducing civil power, and the ac filter unit is configured as to the city Electricity is filtered, and it is direct current and to feed back on the bus that the rectification unit, which is configured as filtered commercial power rectification, The inversion unit is configured as the direct current on the bus being converted to alternating current, and the output filter unit is configured as The alternating current is filtered, the power supply output control unit is configured to respond to the control of the control module to load Whether output the filtered alternating current or not, and second charhing unit is configured as being full of in the Power Entry Module When remaining power is in threshold range, the charging voltage by the voltage conversion on the bus for the energy-storage units, with to institute State energy-storage units to be charged, the energy-storage units are configured as power and the power supply in Power Entry Module output The difference of the bearing power of module not within a preset range when, the electric energy of storage is transmitted to described through second charhing unit First charhing unit, the input protection switch and energy storage control main contactor are configured as the electricity to the energy-storage module Road is protected, and the second DC filtering unit is configured as electric energy and the second charhing unit to energy-storage units output The electric energy of input is filtered, and first charhing unit is configured to respond to the control of the control module by the bus Direct current or it is described input control unit output alternating current or the energy-storage module output electric energy be converted to dress to be charged The electric energy of needs is put, the first DC filtering module is configured as filtering the electric energy of first charhing unit conversion Ripple, the charging output control unit are not configured to respond to the control of the control module to the device output to be charged or not Export the electric energy of first charhing unit；The input control unit includes tie point parallel with one another and the second branch road, The exchange input switch that the tie point includes being sequentially connected in series includes successively with input main contactor, second branch road is exchanged Exchange preliminary filling electric protective circuit breaker, pre-charge contactor and the pre-charge resistance of series connection, the exchange input switch exchange with described Preliminary filling electric protective circuit breaker electrically connects with the city, and second branch road is configured as entering line precharge to the bus, described Ac filter unit includes high frequency filter, isolating transformer, the first electric capacity and the first inductance, the high frequency filter, isolation Transformer, the first inductance are sequentially connected in series, and one end of first electric capacity is connected to the isolating transformer and first inductance Between, other end ground connection, first inductance is connected with the rectification unit, the tie point and second branch circuit parallel connection Between the civil power and the high frequency filter, lightning protection device and lightning protection are additionally provided between the tie point and the civil power Device protection switch, the side of the lightning protection device protection switch are electrically connected with the city, and opposite side is grounded by the lightning protection device, institute State the outlet side of rectification unit or the input side of the input control unit is provided with first voltage sampled point and the first electric current is adopted Sampling point, the first voltage sampled point are connected with the voltage sample port of the scheduling controlling plate, the first current sample point It is connected with the current sample port of the scheduling controlling plate, the inversion unit includes two DC/AC single-phase full-bridge inverters, institute Stating output filter unit includes three-phase output transformer and three the second electric capacity, two DC/AC single-phase full-bridge inverters with Three-phase output transformer connection, each phase of the three-phase output transformer respectively with three second capacitance connections, institute Stating power supply output control unit includes output contactor, and each second electric capacity is connected with an output contactor, institute The power output interface that output contactor is stated with the power module is connected, the input side of the inversion unit or the rectification list The input side of member is provided with second voltage sampled point and the second current sample point, and the second voltage sampled point is controlled with the scheduling The voltage sample port connection of making sheet, the second current sample point are connected with the current sample port of the scheduling controlling plate, First charhing unit includes DC/DC voltage transformations module or AC/DC rectification modules, and the second DC filtering module includes Second inductance, the 3rd inductance and the 3rd electric capacity, the charging output control unit include output protection and switch and export main contact Device, first charhing unit, the second inductance, the 3rd inductance, output protection switch, output main contactor are sequentially connected in series, described For 3rd capacitance connection between second inductance and the 3rd inductance, the energy storage input control unit includes input protection switch Main contactor is controlled with energy storage, the second DC filtering unit includes the 4th inductance, the 5th inductance and the 4th electric capacity, the storage Energy unit, input protection switch, energy storage control main contactor, the 4th inductance, the 5th inductance, the second charhing unit are sequentially connected in series, 4th capacitance connection between the 4th inductance and the 5th inductance, second charhing unit and the rectification unit, First charhing unit is all connected with.

A kind of charging pile device based on airport ground power supply provided in an embodiment of the present invention, by gathering power input mould The power of block output and the bearing power of power module, to judge whether Power Entry Module has idle power or idle Whether power is sufficient, is powered so as to which the power of Power Entry Module is delivered into charging pile module.The embodiment of the present invention carries The idle power utilization that the charging pile device based on airport ground power supply supplied can supply power network electrical power distribution branch road rises Come, on the premise of grid power and distribution facility is not increased, be equipped with charging pile equipment for airport, improve airport electric car and fill Electric difficult problem.

To enable the above objects, features and advantages of the present invention to become apparent, preferred embodiment cited below particularly, and coordinate Appended accompanying drawing, is described in detail below.

Brief description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below by embodiment it is required use it is attached Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, therefore be not construed as pair The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to this A little accompanying drawings obtain other related accompanying drawings.

Fig. 1 is the topological structure schematic diagram of airport ground charging device provided in an embodiment of the present invention.

Fig. 2 is the topological structure signal of the another embodiment of airport ground charging device provided in an embodiment of the present invention Figure.

Fig. 3 is the topological structure signal after airport ground charging device increase energy-storage module provided in an embodiment of the present invention Figure.

Fig. 4 is the circuit diagram of the charging pile device provided in an embodiment of the present invention based on airport ground power supply.

Fig. 5 is the structural representation of the charging pile device provided in an embodiment of the present invention based on airport ground power supply.

Icon：Charging pile devices of the 100- based on airport ground power supply；10- buses；11- first voltage sampled points；12- Current sample point；13- second voltage sampled points；14- the second current sample points；20- Power Entry Modules；21- input controls Unit；211- exchanges input switch；212- exchange input main contactors；213- exchanges preliminary filling electric protective circuit breaker；214- is pre-charged Contactor；215- pre-charge resistances；22- rectification units；23- ac filter units；231- high frequency filters；232- isolates transformation Device；The electric capacity of 233- first；The inductance of 234- first；30- power modules；31- inversion units；311-DC/AC single-phase full-bridge inverters； 32- power supply output control units；321- output contactors；33- exports filter unit；331- three-phases export transformer；332- Two electric capacity；40- charging pile modules；The charhing units of 41- first；411-DC/DC voltage transformation modules；42- charging output control lists Member；421- output protections switch；422- exports main contactor；43- the first DC filtering units；The inductance of 431- second；432- Three inductance；The electric capacity of 433- the 3rd；50- control modules；60- energy-storage modules；61- energy-storage units；62- energy storage inputs control unit； 621- inputs protection switch；622- energy storage controls main contactor；63- the second DC filtering units；The inductance of 631- the 4th；632- Five inductance；The electric capacity of 633- the 4th；The charhing units of 64- second；70- cabinets；71- power cabinets；72- exchange input cabinets；73- energy storage Cabinet；74- charging cabinets；The control ports of 80- first；The control ports of 90- second；91- voltage samples port；92- current samples port.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.The present invention implementation being generally described and illustrated herein in the accompanying drawings The component of example can be configured to arrange and design with a variety of.

Therefore, below the detailed description of the embodiments of the invention to providing in the accompanying drawings be not intended to limit it is claimed The scope of the present invention, but be merely representative of the present invention selected embodiment.It is common based on the embodiment in the present invention, this area The every other embodiment that technical staff is obtained under the premise of creative work is not made, belong to the model that the present invention protects Enclose.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent accompanying drawing in individual accompanying drawing.

At present, charging pile is increased newly on airport, it is necessary to the problem of overcoming distribution capacity deficiency, for the airport built up, Increase distribution capacity, it is necessary to carry out capacity expansion application to electricity grid substation, while need to consider each electrical part work(of existing distribution loop Whether rate grade supports newly-increased power capacity, and so as to judge whether to need to change distribution transformer, controlling switch, cable etc. is matched somebody with somebody Electric equipment.In addition, airport is limited by space (including above and below the ground) and time, it is difficult to carry out large-scale distribution transformation. Because all kinds of optical fiber cables, cable channel, oil pipeline, water supply and sewage conduct etc. are laid in airport underground everywhere.Big rule simultaneously Mould rebuilding construction can influence the normal pass of flight.Therefore, the upgrading of distribution capacity is carried out on existing airport, is had larger Difficulty, the process of the popularization that national civil aviaton changes electricity to oil is have impact on, more fuel vehicle is still had in airport, hinders green The development on clean environment firendly airport.

Inventor by probing into for a long time, it is proposed that the charging pile dress provided in an embodiment of the present invention based on airport ground power supply Put, on the premise of not transforming existing distribution capacity, increase for airport and match somebody with somebody charging pile.Inventor passes through to airport scene Actual power test data (repeatedly carries out the test that ground power supply consumes power under different applying working conditions, and ground power supply The data statistics of longtime running on airport), fully researching and analysing airport airplane ground static variable power source power supply mode, power distribution On the basis of, show that airport bridge carries equipment characteristics of power supply：(1) airplane ground static variable power source is powered for clearance-type, when whole day is powered Between averagely powered 10 times or so with flight number positive correlation, general whole day.(2) according to before boat, miss the stop, navigate after the aviation power supply time Statistics, single power-on time is between 1~1.5 hour, and such whole day power-on time was at 10~15 hours.(3) most aircraft night Between morning 1:00~morning 6:00 is suspending time, and during this period of time aircraft does not use the quiet variable power source in ground and air-conditioning.(4) Airplane ground static variable power source actual consumption mean power is much smaller than power network dispensing power, such as power during A320 aircraft steady-state operations Consumption is within 30KVA, and power network is 90KVA with electrical power.

The conclusion obtained by above-mentioned research and probe, inventors herein propose provided in an embodiment of the present invention based on airport The charging pile device of face power supply, the idle power of ground power unit distribution branch road is used and powered for charging pile.

Fig. 1 is refer to, is the topology knot of the charging pile device 100 provided in an embodiment of the present invention based on airport ground power supply Structure schematic diagram.The charging pile device 100 based on airport ground power supply includes bus 10, Power Entry Module 20, power module 30th, charging pile module 40 and control module 50.

Power Entry Module 20 is connected by bus 10 with power module 30, and charging pile module 40 passes through bus 10 and power supply Module 30 and Power Entry Module 20 are all connected with.The bus 10 can be dc bus, or ac bus, in this implementation In example, it is preferred that bus 10 is dc bus.

Power Entry Module 20 is configured as accessing civil power, and the civil power of access is delivered into power module 30.

Power module 30 is used to provide power supply, such as illumination, the language of aircraft when aircraft rests in airport seat in the plane for aircraft Sound report etc..Power module 30 is supplied using civil power as electric energy, it is necessary to which Power Entry Module 20 is to city before civil power is accessed Electricity is handled, such as when bus 10 is dc bus, because civil power is alternating current, it is necessary to which civil power first is converted into direct current again It is transported on dc bus.In another example the processing such as it is filtered to civil power.

Control module 50 is all connected with bus 10, Power Entry Module 20, power module 30, charging pile module 40.Control Module 50 is configured as gathering the power of the output of Power Entry Module 20 and the bearing power of power module 30.When power input mould The difference of the bearing power of power and power module 30 that block 20 exports within a preset range when, control module 50 is configured as controlling Power Entry Module 20 processed is powered to charging pile module 40.

Because the power supply mode of electrical power distribution branch road is intermittent power supply, then the power that Power Entry Module 20 introduces is not When being left unused when power supply, such as do not have flight frequency, or when suspend at dead of night, this section of sky can be made full use of By electric energy more than needed to charging pile module 40 between idle, in order to be electric vehicle charging.In embodiments of the present invention, by adopting Collect the power that the power of the output of Power Entry Module 20 and power module 30 load, you can obtain what electrical power distribution branch road left unused Power, the power that power module 30 loads can be the power of aircraft consumption.The power that Power Entry Module 20 exports is subtracted The bearing power of power module 30, you can obtain the idle power of Power Entry Module 20, the idle power is that power supply is matched somebody with somebody The idle power of electric branch road.Because the normal work of charging pile module 40 needs certain power to support, therefore, electricity is being calculated Source input module 20 export power with after the difference of the bearing power of power module 30, it is necessary to analyze whether the difference can expire The normal operation of sufficient charging pile module 40, it is readily appreciated that, the power of the normal operation of charging pile module 40 is default scope, If difference, in default scope, charging pile module 40 can be with normal operation, and now, control module 50 controls power input Module 20 is powered to charging pile module 40, and the charging equipment such as electric automobile can be charged by charging pile module 40.

In embodiments of the present invention, bus 10 uses dc bus, and it is single that Power Entry Module 20 can include input control Member 21 and rectification unit 22, input control unit 21 are connected with rectification unit 22.Power module 30 can include inversion unit 31 With power supply output control unit 32.Inversion unit 31 is connected by bus 10 with rectification unit 22, power supply output control unit 32 It is connected with inversion unit 31.Charging pile module 40 includes the first charhing unit 41 and charging output control unit 42, the first charging Unit 41 is connected with bus 10, and charging output control unit 42 is connected with the first charhing unit 41.

Wherein, input control unit 21 and be used for for introducing civil power to rectification unit 22, rectification unit 22 by commercial power rectification For direct current and feed back on bus 10.Civil power is gone forward into bus 10, in order to ensure safety, it is necessary to first pass through input control Unit 21.

Inversion unit 31 is used to the direct current on bus 10 being converted to alternating current, and power supply output control unit 32 is used to ring The control of control module 50 is answered to load output or does not export alternating current.Because in the present embodiment, bus 10 is dc bus, Power module 30 needs to export alternating current, therefore, it is necessary to the DC inverter on bus 10 be alternating current by inversion unit 31, it is electric Whether source module 30 exports alternating current controls power supply output control unit 32 to realize by control module 50.

First charhing unit 41 is converted to the direct current on bus 10 for the control of response module 50 to be charged The electric energy that device needs, the control that charging output control unit 42 is used for response module 50 export or not to device to be charged Export the electric energy of the first charhing unit.Different devices to be charged, such as electric car, move the charging voltage of power supply car or fill Electric current is different, it is necessary to which the first charhing unit 41 adjusts suitable charging voltage or electric current according to the demand of device to be charged. In the present embodiment, the first charhing unit 41 is connected with dc bus, and the first charhing unit 41 turns the voltage of direct current on bus It is changed to the charging voltage of device to be charged.In addition, if the device to be charged of connection does not meet the charging bar of charging pile module 40 Part, the control charging output control unit 42 of control module 50 do not charge to device to be charged.

Control module 50 can be equipped with the circuit board of processor chips, complete logic by various processor chips and transport Row and computing, for example, processor chips can be that (Complex Programmable Logic Device, complexity can be compiled CPLD Journey logical device) and FPGA (Field-Programmable Gate Array, field programmable gate array).

It is the another embodiment that the present embodiment provides in addition, refer to Fig. 2, in this embodiment, the first charging Unit 41 is connected with inputting the output end of control unit 21, i.e., the first charhing unit 41 is connected to before rectification unit 22, now, The connection of first charhing unit 41 is alternating current, and the control of the response module 50 of the first charhing unit 41 will input control unit The alternating current of 21 outputs is converted to the electric energy that device to be charged needs, for example, device to be charged is DC charging, then the first charging Alternating current is converted to direct current and charged for device to be charged by unit 41.

Fig. 3 is refer to, the charging pile device 100 provided in an embodiment of the present invention based on airport ground power supply also includes energy storage Module 60.The energy-storage module 60 is all connected with Power Entry Module 20 and charging pile module 40.Energy-storage module 60 is used in power supply When the power of the surplus of input module 20 is in threshold range, the control of response module 50 is charged to energy-storage module 60, with And when the power of the output of Power Entry Module 20 and the difference of the bearing power of power module 30 are outside preset range, it will store Electric energy provide to charging pile module 40.The setting of energy-storage module 60, the emergency trouble shooting measures to fortuitous event are added, such as When the power or idle underpower not left unused in Power Entry Module 20 think that charging pile module 40 is powered, Ke Yitong The electric energy for crossing the storage of energy-storage module 60 is powered to charging pile module 40, is had idle in Power Entry Module 20 and is met charging pile During the operating power of module 40, then switch to Power Entry Module 20 and be powered, and the electric energy of energy-storage module 60 is in power supply What the power of input module 20 stored when more than needed, therefore, the power that Power Entry Module 20 exports is fully utilized Get up, carry out reasonably Distribution utilization.

Referring to Fig.1 and 2, Power Entry Module 20 also includes ac filter unit 23.Ac filter unit 23 is connected Between input control unit 21 and rectification unit 22, ac filter unit 23 is used for the civil power introduced to input control unit 21 It is filtered.Power module 30 also includes output filter unit 33, and output filter unit 33 is connected on inversion unit 31 and power supply Between output control unit 32.Output filter unit 33 is used to be filtered the alternating current that inversion unit 31 is changed.Charging pile Module 40 also includes the first DC filtering unit 43, and the first DC filtering unit 43 is connected on the first charhing unit 41 and charged defeated Go out between control unit 42.First DC filtering unit 43 is used to be filtered the electric energy of the first charhing unit 41 conversion.It is logical Crossing filtering can be with the interference of harmonic carcellation.

Fig. 4 is refer to, is that the circuit of the charging pile device 100 provided in an embodiment of the present invention based on airport ground power supply shows It is intended to.Wherein, input control unit 21 includes tie point parallel with one another and the second branch road, and tie point includes being sequentially connected in series Exchange input switch 211 with exchange input main contactor 212.The exchange preliminary filling electric protection that second branch road includes being sequentially connected in series is opened Close 213, pre-charge contactor 214 and pre-charge resistance 215.Exchange input switch 211 with to exchange preliminary filling electric protective circuit breaker 213 equal Electrically connected with city.Second branch road is used to enter line precharge to bus 10, and civil power is introduced after voltage stabilization, then by tie point To exchange filter unit 23.

Ac filter unit 23 includes high frequency filter 231, isolating transformer 232, the first electric capacity 233 and the first inductance 234.High frequency filter 231, isolating transformer 232, the first inductance 234 are sequentially connected in series, one end of the first electric capacity 233 be connected to every From between the inductance 234 of transformer 232 and first, the other end is grounded.First inductance 234 is connected with rectification unit 22, tie point And second branch circuit parallel connection between civil power and high frequency filter 231, the outlet side of rectification unit 22 or input control unit 21 Input side is provided with the current sample point 12 of first voltage sampled point 11 and first, and what it is when the connection of the first charhing unit 41 is bus When, the current sample point 12 of first voltage sampled point 11 and first is arranged on the outlet side of rectification unit 22, when the first charhing unit 41 connections are that the current sample point 12 of first voltage sampled point 11 and first is arranged on defeated when inputting the output end of control unit 21 Enter the input side of control unit 21.High frequency filter 231 is used to filter out the High-frequency Interference in civil power, the first electric capacity 233 and first Inductance 234 forms LC filter circuits, and low frequency filtering is carried out to civil power.Power input mould can be collected in first voltage sampled point The magnitude of voltage that block 20 exports, the current value of the output of Power Entry Module 20 can be collected in the first current sample point, by this The power of the output of Power Entry Module 20 can be calculated in magnitude of voltage and current value.

Inversion unit 31 includes two DC/AC single-phase full-bridge inverters 311, and output filter unit 33 includes three-phase output and become Depressor 331 and three the second electric capacity 332, two DC/AC single-phase full-bridge inverters 311 are connected with three-phase output transformer 331.Three Mutually output 331 each phase of transformer is connected with three the second electric capacity 332 respectively.Power supply output control unit 32 includes output and contacted Device 321, each second electric capacity 332 are connected with an output contactor 321, the power supply of output contactor 321 and power module 30 Output interface connects.

The input side of inversion unit 31 or the input side of rectification unit 22 are provided with the electricity of second voltage sampled point 13 and second Flow sampled point 14, when the first charhing unit 41 connection be bus when, the current sample point 14 of second voltage sampled point 13 and second Be arranged on the input side of inversion unit 31, when the connection of the first charhing unit 41 be to input the output end of control unit 21 when, the 2 voltage sample points 13 and the second current sample point 14 are arranged on the input side of rectification unit 22.

DC/AC single-phase full-bridge inverters 311 can be used for the direct current on bus 10 being converted to alternating current, and three-phase output becomes 331 each phase of depressor forms LC wave filters with three the second electric capacity 332 respectively and is filtered.Output contactor 321 is responding The control of control module 50 disconnects or closure, so as to control whether that the power output interface to power module 30 exports electric energy. The input voltage value of power module 30 can be collected in second voltage sampled point, electricity can be collected in the second current sample point The input current value of source module 30, the load of power module 30 can be calculated by the input voltage value and input current value Power.

The power and the bearing power of power module 30 exported by Power Entry Module 20 can calculate the difference of the two The idle power of value, i.e. Power Entry Module 20.

First charhing unit 41 includes DC/DC voltage transformations module 411, and the first DC filtering unit 43 includes the second inductance 431st, the 3rd inductance 432 and the 3rd electric capacity 433.Charging output control unit 42 includes output protection switch 421 and output master connects Tentaculum 422.First charhing unit 41, the second inductance 431, the 3rd inductance 432, output protection switch 421, output main contactor 422 are sequentially connected in series, and the 3rd electric capacity 433 is connected between the second inductance 431 and the 3rd inductance 432.DC/DC voltage transformation modules 411 voltage output for the direct current on bus 10 to be converted to device to be charged.Second inductance 431, the and of the 3rd inductance 432 3rd electric capacity 433 forms LC wave filters and is filtered.

If it should be noted that the first charhing unit 41 connection be input control unit 21 output end, first Charhing unit 41 includes AC/DC rectification modules, and it is to be charged that the alternating current that input control unit 21 exports is converted into direct current Device charges.In addition, if device to be charged uses alternating current charging, then the first charhing unit 41 can include transformer module The voltage for inputting the alternating current that control unit 21 exports is adjusted to the charging voltage with charging device.

Referred to incorporated by reference to Fig. 3 and Fig. 4, energy-storage module 60 includes energy-storage units 61, the energy storage input control list being sequentially connected in series First 62, second DC filtering unit 63 and the second charhing unit 64.Energy storage input control unit 62 includes input protection switch 621 Main contactor 622 is controlled with energy storage.Second DC filtering unit 63 includes the 4th inductance 631, the 5th inductance 632 and the 4th electric capacity 633.Energy-storage units 61, input protection switch 621, energy storage control main contactor 622, the 4th inductance 631, the 5th inductance 632, the Two charhing units 64 are sequentially connected in series.4th electric capacity 633 is connected between the 4th inductance 631 and the 5th inductance 632.Second charging is single Member 64 is all connected with rectification unit 22, the first charhing unit 41.

Second charhing unit 64 is used for when the power of the surplus of Power Entry Module 20 is in threshold range, by bus 10 On voltage conversion be energy-storage units 61 charging voltage, energy-storage units 61 are charged.Energy-storage units 61 are used in power supply The difference of the bearing power of power and power module 30 that input module 20 exports not within a preset range when, by the electric energy of storage Transmitted through the second charhing unit 64 to charging pile module 40.Input protection switch 621 and energy storage control main contactor 622 be used for pair The circuit of energy-storage module 60 is protected, and the second DC filtering unit 63 is used to fill the electric energy and second that energy-storage units 61 export The electric energy that electric unit 64 inputs is filtered.Energy-storage units 61 can use various rechargeable batteries,.Such as can be that density is higher Ferric phosphate lithium cell.

Fig. 5 is refer to, the charging pile device 100 provided in an embodiment of the present invention based on airport ground power supply also includes cabinet 70, cabinet 70 includes power cabinet 71, exchange input cabinet 72, energy storage cabinet 73 and the charging cabinet 74 being sequentially connected.Power Entry Module 20 are built in exchange input cabinet 72, and power module 30 is built in power cabinet 71, and charging pile module 40 is built in charging cabinet 74, energy storage Module 60 is built in energy storage cabinet 73, and control module 50 is built in cabinet 70, and control module 50 is contained in position in cabinet 70 not It is construed as limiting, such as in any one that can be arranged in power cabinet 71, exchange input cabinet 72, energy storage cabinet 73 and charging cabinet 74.

Power cabinet 71 includes power board, and power board is connected with power module 30.Exchange input cabinet 72 includes handing over Flow control plate, AC control board are connected with Power Entry Module 20.Energy storage cabinet 73 includes energy storage control panel, energy storage control panel and storage Energy module 60 connects.Charging cabinet 74 includes charging panel, and charging panel is connected with charging pile module 40.Control module 50 is wrapped Scheduling controlling plate is included, power board, AC control board, energy storage control panel and charging panel are provided with the first control port 80, scheduling controlling plate is provided with multiple second control ports 90, voltage sample port 91 and current sample port 92, scheduling controlling Plate is connected by the second control port 90 with each first control port 80, with to power board, AC control board, energy storage control Making sheet and the charging panel send control signal, and scheduling controlling plate passes through the first electricity on voltage sample port 91 and bus Pressure sampled point 11 and second voltage sampled point 13 connect, and are adopted by current sample port 92 and the first electric current on bus 10 The current sample point 14 of sampling point 12 and second connects.Above-mentioned power board, AC control board, energy storage control panel, charge control Plate, scheduling controlling plate can be carried out integrating using general circuit board and build to obtain, such as build processor, to receive, Send, processing data, and complete corresponding control or perform operation.

The embodiment of the present invention additionally provides a kind of charging pile device based on airport ground power supply, and the device includes cabinet, The cabinet includes control module and the power cabinet being sequentially connected, exchanges and inputs cabinet, energy storage cabinet and charging cabinet.Built in control module In the cabinet, the exchange input cabinet includes Power Entry Module and AC control board, the AC control board and the electricity Source input module connection.The power cabinet includes power module and power board, the power board and the power supply mould Block connects.The charging cabinet includes charging pile module and charging panel, and the charging panel connects with the charging pile module Connect.The energy storage cabinet includes energy-storage module and energy storage control panel, and the energy storage control panel is connected with the energy-storage module.The electricity Source input module is connected by a bus with the power module, and the charging pile module passes through the bus and the power supply mould Block and Power Entry Module are all connected with.The control module includes scheduling controlling plate, the power board, AC control board, Energy storage control panel and the charging panel are provided with the first control port.The scheduling controlling plate is provided with multiple second controls Port, voltage sample port and current sample port processed.The scheduling controlling plate passes through second control port and each institute The connection of the first control port is stated, to be sent out to the power board, AC control board, energy storage control panel and the charging panel Send control signal.

The Power Entry Module includes input control unit, ac filter unit and the rectification unit being sequentially connected in series.Institute State inversion unit, output filter unit and power supply output control unit that power module includes being sequentially connected in series, the inversion unit It is connected by the bus with the rectification unit.The charging pile module include be sequentially connected in series the first charhing unit, first DC filtering unit and charging output control unit.First charhing unit and the bus or the ac filter unit Output end connects.The energy-storage module includes energy-storage units, energy storage input control unit, the second DC filtering list being sequentially connected in series Member and the second charhing unit.Second charhing unit is all connected with the rectification unit, the first charhing unit.The input control Unit processed is configured as introducing civil power.The ac filter unit is configured as being filtered the civil power.The rectification list It is direct current and to feed back on the bus that member, which is configured as filtered commercial power rectification,.The inversion unit be configured as by Direct current on the bus is converted to alternating current.The output filter unit is configured as being filtered the alternating current. The power supply output control unit is configured to respond to the control of the control module to load output or does not export the filtering Alternating current afterwards.Second charhing unit is configured as the power in the surplus of the Power Entry Module in threshold range When, the charging voltage by the voltage conversion on the bus for the energy-storage units, to be charged to the energy-storage units.Institute State the difference that energy-storage units are configured as the bearing power of the power and power module exported in the Power Entry Module When not within a preset range, the electric energy of storage is transmitted to first charhing unit through second charhing unit.It is described defeated Enter protection switch and energy storage control main contactor is configured as protecting the circuit of the energy-storage module.Described second DC filtering unit is configured as being filtered the electric energy of energy-storage units output and the electric energy of the second charhing unit input. First charhing unit is configured to respond to the control of the control module by the direct current on the bus or the input The alternating current of control unit output or the electric energy of energy-storage module output are converted to the electric energy that device to be charged needs.Described One direct current filtration module is configured as being filtered the electric energy of first charhing unit conversion.The charging output control list The control that member is configured to respond to the control module exports or not exported first charhing unit to the device to be charged Electric energy.

The input control unit includes tie point parallel with one another and the second branch road, and the tie point is included successively The exchange input switch of series connection with exchange input main contactor.Second branch road includes the exchange preliminary filling electric protection being sequentially connected in series Switch, pre-charge contactor and pre-charge resistance.The exchange input switch and the exchange preliminary filling electric protective circuit breaker are and institute State city's electrical connection.Second branch road is configured as entering the bus line precharge, and the ac filter unit includes high frequency Wave filter, isolating transformer, the first electric capacity and the first inductance, the high frequency filter, isolating transformer, the first inductance are gone here and there successively Connection, one end of first electric capacity are connected between the isolating transformer and first inductance, other end ground connection.Described One inductance is connected with the rectification unit, and the tie point and second branch circuit parallel connection are filtered in the civil power and the high frequency Between ripple device.Lightning protection device and lightning protection device protection switch, the lightning protection device are additionally provided between the tie point and the civil power The side of protection switch is electrically connected with the city, and opposite side is grounded by the lightning protection device.The outlet side of the rectification unit or The input side of the input control unit is provided with first voltage sampled point and the first current sample point.The first voltage sampling Point is connected with the voltage sample port of the scheduling controlling plate.The electric current of the first current sample point and the scheduling controlling plate Sample port connects.The inversion unit includes two DC/AC single-phase full-bridge inverters, and the output filter unit includes three-phase Transformer and three the second electric capacity are exported, two DC/AC single-phase full-bridge inverters are connected with three-phase output transformer, The each phase of the three-phase output transformer includes defeated with three second capacitance connections, the power supply output control unit respectively Go out contactor, each second electric capacity is connected with an output contactor.The output contactor and the power supply mould The input side of the power output interface connection of block, the input side of the inversion unit or the rectification unit is provided with second voltage Sampled point and the second current sample point.The second voltage sampled point is connected with the voltage sample port of the scheduling controlling plate. The second current sample point is connected with the current sample port of the scheduling controlling plate.First charhing unit includes DC/ D/C voltage conversion module or AC/DC rectification modules, the second DC filtering module include the second inductance, the 3rd inductance and the 3rd Electric capacity, the charging output control unit include output protection and switch and export main contactor.First charhing unit, second Inductance, the 3rd inductance, output protection switch, output main contactor are sequentially connected in series, and the 3rd capacitance connection is in the described second electricity Between sense and the 3rd inductance.The energy storage input control unit includes input protection switch and energy storage control main contactor.It is described Second DC filtering unit includes the 4th inductance, the 5th inductance and the 4th electric capacity.The energy-storage units, input protection switch, storage Main contactor, the 4th inductance, the 5th inductance, the second charhing unit can be controlled to be sequentially connected in series.4th capacitance connection is described Between 4th inductance and the 5th inductance, second charhing unit is all connected with the rectification unit, the first charhing unit.

In summary, the embodiments of the invention provide a kind of charging pile device based on airport ground power supply, collection is passed through The power of Power Entry Module output and the bearing power of power module, to judge whether Power Entry Module has idle work( Whether rate or idle power are sufficient, are powered so as to which the power of Power Entry Module is delivered into charging pile module.This hair Power network can be supplied the idle of electrical power distribution branch road by the charging pile device based on airport ground power supply that bright embodiment provides Power utilization gets up, and on the premise of grid power and distribution facility is not increased, is equipped with charging pile equipment for airport, improves machine The difficult problem of field electric car charging.

In the description of the invention, it is necessary to which explanation, the orientation or position relationship of the instruction such as term " interior ", " outer " are base In orientation shown in the drawings or position relationship, or the invention product using when the orientation usually put or position relationship, only It is to be described for the ease of description is of the invention with simplified, rather than the device or element of instruction or hint meaning must be with specifically Orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.In addition, term " first ", " the Two ", " 3rd " etc. is only used for distinguishing description, and it is not intended that instruction or hint relative importance.

In the description of the invention, it is also necessary to explanation, unless otherwise clearly defined and limited, term " setting ", " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or one Connect body；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirect by intermediary It is connected, can is the connection of two element internals.For the ordinary skill in the art, on being understood with concrete condition State the concrete meaning of term in the present invention.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.It should be noted that：Similar label and letter exists Similar terms is represented in following accompanying drawing, therefore, once being defined in a certain Xiang Yi accompanying drawing, is then not required in subsequent accompanying drawing It is further defined and explained.

Claims (10)

1. a kind of charging pile device based on airport ground power supply, it is characterised in that described device includes bus, power input mould Block, power module, charging pile module and control module, the Power Entry Module are connected by the bus and the power module Connect, the charging pile module is all connected with by the bus and the power module and Power Entry Module, the power input Module is configured as accessing civil power, and the civil power of access is delivered into the power module, the control module and the bus, electricity Source input module, power module, charging pile module are all connected with, and the control module is configured as gathering the Power Entry Module The bearing power of the power of output and the power module, power and the power module when Power Entry Module output Bearing power difference within a preset range when, the control module is configured as controlling the Power Entry Module to described Charging pile module is powered.

2. the charging pile device according to claim 1 based on airport ground power supply, it is characterised in that the power input Module includes input control unit and rectification unit, and the input control unit is connected with the rectification unit, the power supply mould Block includes inversion unit and power supply output control unit, and the inversion unit is connected by the bus with the rectification unit, The power supply output control unit is connected with the inversion unit, and the charging pile module includes the first charhing unit and charged defeated Go out control unit, first charhing unit is connected with the output end of the bus or the input control unit, the charging Output control unit is connected with first charhing unit；

The input control unit is configured as introducing civil power to the rectification unit, and the rectification unit is configured as will be described Commercial power rectification is direct current and fed back on the bus；

The inversion unit is configured as the direct current on the bus being converted to alternating current, the power supply output control unit The control of the control module is configured to respond to load output or does not export the alternating current；

First charhing unit is configured to respond to the control of the control module by the direct current on the bus or described The alternating current of input control unit output is converted to the electric energy that device to be charged needs, and the charging output control unit is configured The electric energy of first charhing unit is exported or not exported to respond the control of the control module to the device to be charged.

3. the charging pile device according to claim 2 based on airport ground power supply, it is characterised in that described device is also wrapped Include energy-storage module, the energy-storage module is all connected with the Power Entry Module and charging pile module, the energy-storage module by with It is set to and when the power of the surplus of the Power Entry Module is in threshold range, responds the control of the control module to described Energy-storage module charges, and is configured as the bearing power in the power and the power module of Power Entry Module output Difference outside preset range when, the electric energy of storage is provided to the charging pile module.

4. the charging pile device according to claim 3 based on airport ground power supply, it is characterised in that the power input Module also includes ac filter unit, the ac filter unit be connected on the input control unit and the rectification unit it Between, the ac filter unit is configured as being filtered the civil power that the input control unit introduces, the power module Also include output filter unit, the output filter unit be connected on the inversion unit and the power supply output control unit it Between, the output filter unit is configured as being filtered the alternating current of inversion unit conversion, the charging pile module Also include the first DC filtering unit, the first DC filtering unit is connected on first charhing unit and the charging is defeated Go out between control unit, the first DC filtering unit is configured as filtering the electric energy of first charhing unit conversion Ripple.

5. the charging pile device according to claim 4 based on airport ground power supply, it is characterised in that the input control Unit includes tie point parallel with one another and the second branch road, the tie point include the exchange input switch being sequentially connected in series and Exchange input main contactor, second branch road include be sequentially connected in series exchange preliminary filling electric protective circuit breaker, pre-charge contactor and Pre-charge resistance, the exchange input switch and the exchange preliminary filling electric protective circuit breaker electrically connect with the city, and described second Branch road is configured as entering line precharge to the bus；The ac filter unit includes high frequency filter, isolating transformer, the One electric capacity and the first inductance, the high frequency filter, isolating transformer, the first inductance are sequentially connected in series, and the one of first electric capacity End is connected between the isolating transformer and first inductance, other end ground connection, first inductance and the rectification list Member connection, the tie point and second branch circuit parallel connection are between the civil power and the high frequency filter, the rectification The outlet side of unit or the input side of the input control unit are provided with first voltage sampled point and the first current sample point.

6. the charging pile device according to claim 5 based on airport ground power supply, it is characterised in that the inversion unit Including two DC/AC single-phase full-bridge inverters, the output filter unit includes three-phase output transformer and three the second electric capacity, Two DC/AC single-phase full-bridge inverters are connected with three-phase output transformer, and the three-phase exports each phase of transformer Include output contactor with three second capacitance connections, the power supply output control unit respectively, each second electricity Appearance is connected with an output contactor, and the output contactor is connected with the power output interface of the power module, institute The input side of the input side or the rectification unit of stating inversion unit is provided with second voltage sampled point and the second current sample point.

7. the charging pile device according to claim 6 based on airport ground power supply, it is characterised in that first charging Unit includes DC/DC voltage transformations module or AC/DC rectification modules, and the first DC filtering unit includes the second inductance, the Three inductance and the 3rd electric capacity, the charging output control unit include output protection switch and export main contactor, and described first Charhing unit, the second inductance, the 3rd inductance, output protection switch, output main contactor are sequentially connected in series, the 3rd capacitance connection Between second inductance and the 3rd inductance.

8. the charging pile device according to claim 7 based on airport ground power supply, it is characterised in that the energy-storage module Including energy-storage units, energy storage input control unit, the second DC filtering unit and the second charhing unit being sequentially connected in series, the storage Control unit, which can be inputted, includes input protection switch and energy storage control main contactor, and the second DC filtering unit includes the 4th Inductance, the 5th inductance and the 4th electric capacity, the energy-storage units, input protection switch, energy storage control main contactor, the 4th inductance, 5th inductance, the second charhing unit are sequentially connected in series, and the 4th capacitance connection is between the 4th inductance and the 5th inductance, institute State the second charhing unit to be all connected with the rectification unit, the first charhing unit, second charhing unit is configured as in institute It is the energy-storage units by the voltage conversion on the bus when stating the power of the surplus of Power Entry Module in threshold range Charging voltage, the energy-storage units are charged, the energy-storage units be configured as the Power Entry Module export Power and the power module bearing power difference not within a preset range when, the electric energy of storage is filled through described second Electric unit is transmitted to the charging pile module, the input protection switch and energy storage control main contactor and is configured as to institute The circuit for stating energy-storage module is protected, and the second DC filtering unit is configured as the electric energy to energy-storage units output It is filtered with the electric energy of second charhing unit input.

9. the charging pile device according to claim 8 based on airport ground power supply, it is characterised in that described device includes Cabinet, the cabinet include power cabinet, exchange input cabinet, energy storage cabinet and the charging cabinet being sequentially connected, the Power Entry Module The exchange input cabinet is built in, the power module is built in the power cabinet, and the charging pile module is built in described fill Electric cabinet, the energy-storage module are built in the energy storage cabinet, and the control module is built in the cabinet, and the power cabinet includes electricity Source control panel, the power board are connected with the power module, and the exchange input cabinet includes AC control board, the friendship Flow control plate is connected with the Power Entry Module, and the energy storage cabinet includes energy storage control panel, the energy storage control panel with it is described Energy-storage module connects, and the charging cabinet includes charging panel, and the charging panel is connected with the charging pile module, described Control module includes scheduling controlling plate, and the power board, AC control board, energy storage control panel and the charging panel are equal The first control port is provided with, the scheduling controlling plate is provided with multiple second control ports, voltage sample port and electric current and adopted Sample port, the scheduling controlling plate are connected by second control port with each first control port, with to described Power board, AC control board, energy storage control panel and the charging panel send control signal, and the scheduling controlling plate leads to Cross the voltage sample port to be connected with the first voltage sampled point on the bus and second voltage sampled point, and pass through institute Current sample port is stated to be connected with the first current sample point on the bus and the second current sample point.

10. a kind of charging pile device based on airport ground power supply, it is characterised in that described device includes cabinet, the cabinet Including control module and the power cabinet being sequentially connected, exchange input cabinet, energy storage cabinet and charging cabinet, the control module and be built in institute Cabinet is stated, the exchange input cabinet includes Power Entry Module and AC control board, and the AC control board and the power supply are defeated Enter module connection, the power cabinet includes power module and power board, and the power board connects with the power module Connect, the charging cabinet includes charging pile module and charging panel, and the charging panel is connected with the charging pile module, institute Stating energy storage cabinet includes energy-storage module and energy storage control panel, and the energy storage control panel is connected with the energy-storage module, and the power supply is defeated Enter module to be connected with the power module by a bus, the charging pile module by the bus and the power module and Power Entry Module is all connected with, and the control module includes scheduling controlling plate, the power board, AC control board, energy storage Control panel and the charging panel are provided with the first control port, and the scheduling controlling plate is provided with multiple second control terminals Mouthful, voltage sample port and current sample port, the scheduling controlling plate passes through second control port and each described the One control port connects, and is controlled with being sent to the power board, AC control board, energy storage control panel and the charging panel Signal processed；

The Power Entry Module includes input control unit, ac filter unit and the rectification unit being sequentially connected in series, the electricity Inversion unit, output filter unit and power supply output control unit, the inversion unit that source module includes being sequentially connected in series pass through The bus is connected with the rectification unit, and the charging pile module includes the first charhing unit, the first direct current being sequentially connected in series Filter unit and charging output control unit, the output of first charhing unit and the bus or the ac filter unit End connection, the energy-storage module include be sequentially connected in series energy-storage units, energy storage input control unit, the second DC filtering unit and Second charhing unit, second charhing unit are all connected with the rectification unit, the first charhing unit, and the input control is single Member is configured as introducing civil power, and the ac filter unit is configured as being filtered the civil power, the rectification unit quilt It is direct current and to feed back on the bus to be configured to filtered commercial power rectification, and the inversion unit is configured as will be described Direct current on bus is converted to alternating current, and the output filter unit is configured as being filtered the alternating current, described The control that power supply output control unit is configured to respond to the control module is exported or not exported described filtered to load Alternating current, second charhing unit are configured as when the power of the surplus of the Power Entry Module is in threshold range, It is described to be charged to the energy-storage units by the charging voltage that the voltage conversion on the bus is the energy-storage units Energy-storage units are configured as the difference of the bearing power of the power and power module exported in the Power Entry Module not When within a preset range, the electric energy of storage is transmitted to first charhing unit, the input through second charhing unit Protection switch and energy storage control main contactor are configured as protecting the circuit of the energy-storage module, and described second is straight Stream filter unit is configured as being filtered the electric energy of energy-storage units output and the electric energy of the second charhing unit input, institute State the first charhing unit and be configured to respond to the control of the control module and control the direct current on the bus or the input The alternating current of unit processed output or the electric energy of energy-storage module output are converted to the electric energy that device to be charged needs, and described first DC filtering module is configured as being filtered the electric energy of first charhing unit conversion, the charging output control unit The control for being configured to respond to the control module exports or not exported first charhing unit to the device to be charged Electric energy；

The input control unit includes tie point parallel with one another and the second branch road, and the tie point includes being sequentially connected in series Exchange input switch include the exchange preliminary filling electric protection that is sequentially connected in series with input main contactor, second branch road is exchanged and open Close, pre-charge contactor and pre-charge resistance, the exchange input switch and the exchange preliminary filling electric protective circuit breaker with it is described City is electrically connected, and second branch road is configured as entering the bus line precharge, and the ac filter unit is filtered including high frequency Ripple device, isolating transformer, the first electric capacity and the first inductance, the high frequency filter, isolating transformer, the first inductance are gone here and there successively Connection, one end of first electric capacity is connected between the isolating transformer and first inductance, other end ground connection, and described the One inductance is connected with the rectification unit, and the tie point and second branch circuit parallel connection are filtered in the civil power and the high frequency Between ripple device, lightning protection device and lightning protection device protection switch, the lightning protection device are additionally provided between the tie point and the civil power The side of protection switch is electrically connected with the city, and opposite side is grounded by the lightning protection device, the outlet side of the rectification unit or The input side of the input control unit is provided with first voltage sampled point and the first current sample point, the first voltage sampling Point is connected with the voltage sample port of the scheduling controlling plate, the electric current of the first current sample point and the scheduling controlling plate Sample port connects, and the inversion unit includes two DC/AC single-phase full-bridge inverters, and the output filter unit includes three-phase Transformer and three the second electric capacity are exported, two DC/AC single-phase full-bridge inverters are connected with three-phase output transformer, The each phase of the three-phase output transformer includes defeated with three second capacitance connections, the power supply output control unit respectively Go out contactor, each second electric capacity is connected with an output contactor, the output contactor and the power supply mould The input side of the power output interface connection of block, the input side of the inversion unit or the rectification unit is provided with second voltage Sampled point and the second current sample point, the second voltage sampled point are connected with the voltage sample port of the scheduling controlling plate, The second current sample point is connected with the current sample port of the scheduling controlling plate, and first charhing unit includes DC/ D/C voltage conversion module or AC/DC rectification modules, the second DC filtering module include the second inductance, the 3rd inductance and the 3rd Electric capacity, the charging output control unit include output protection and switch and export main contactor, first charhing unit, second Inductance, the 3rd inductance, output protection switch, output main contactor are sequentially connected in series, and the 3rd capacitance connection is in the described second electricity Between sense and the 3rd inductance, the energy storage input control unit includes input protection switch and energy storage control main contactor, described Second DC filtering unit includes the 4th inductance, the 5th inductance and the 4th electric capacity, the energy-storage units, input protection switch, storage Main contactor, the 4th inductance, the 5th inductance, the second charhing unit can be controlled to be sequentially connected in series, the 4th capacitance connection is described Between 4th inductance and the 5th inductance, second charhing unit is all connected with the rectification unit, the first charhing unit.