CN206416866U - Portable charging energy-storing system - Google Patents
Portable charging energy-storing system Download PDFInfo
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- CN206416866U CN206416866U CN201621412043.1U CN201621412043U CN206416866U CN 206416866 U CN206416866 U CN 206416866U CN 201621412043 U CN201621412043 U CN 201621412043U CN 206416866 U CN206416866 U CN 206416866U
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- storage device
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/72—Electric energy management in electromobility
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Abstract
The utility model discloses a kind of portable charging energy-storing system, including charging terminal, charge controller, two-way inverter and energy storage device, charge controller, the corresponding benefit electric control instruction of benefit power mode, direct mode operation and inverter mode generation, straight-through control instruction and inversion control instruction for responding user's input respectively;Two-way inverter is circumscribed with power supply, for performing corresponding operating according to each control instruction;Energy storage device, for carrying out energy storage processing when mending power mode, and carries out in inverter mode discharge process;Charging terminal, for being electric vehicle charging using power supply or energy storage device.The utility model being capable of peak load shifting, raising charge efficiency;It is motor-driven light, can be electric vehicle charging in time;Isolated island power supply is formed, can be as emergency power supply, for the advantage of the scheduling under the state of emergency.
Description
Technical field
The utility model is related to charging energy-storing technical field, more particularly to a kind of portable charging energy-storing system.
Background technology
The high speed development of modern society, electric automobile has quickly come into our life, and new-energy automobile is proposed more
High requirement, the charging equipment of traditional high-voltage great-current is also faced with formidable challenges to the influence that power network is produced.As traditional
Charging equipment is generally disposed at fixed place due to bulky reason, and necessary elder generation is fully charged then when in use for electric automobile
It just can guarantee that reliable rows are sailed, to prevent short of electricity or electric power deficiency from causing the problem of electric automobile can not be travelled.In addition, being used in power network
During the peak period of family electricity consumption, voltage is relatively low, and charge efficiency is low the problem of cause the charging interval long.
In view of this, it is necessary to which above-mentioned charging device is further improved.
Utility model content
To solve an above-mentioned at least technical problem, main purpose of the present utility model is to provide a kind of portable charging energy-storing
System.
To achieve the above object, the technical scheme that the utility model is used for:A kind of portable charging energy-storing is provided
System, including charging terminal, charge controller, two-way inverter and energy storage device,
The two-way inverter is electrically connected with energy storage device and charge controller respectively, and the charge controller is whole with charging
End electrical connection;
The charge controller, benefit power mode, direct mode operation and the inverter mode generation for responding user's input respectively
Corresponding benefit electric control instruction, straight-through control instruction and inversion control instruction, and control two-way inverter to enter corresponding work
State;
The two-way inverter is circumscribed with power supply, for being carried out according to benefit electric control instruction to power supply at rectification
Reason, to carry out mending electricity to charging energy-storing device;Power supply is directly exported according to straight-through control instruction, to enter to electric vehicle
Row charging;Inversion processing is carried out to energy storage device according to inversion control instruction, to be charged to electric vehicle;
The energy storage device, is carried out at electric discharge for carrying out energy storage processing when mending power mode, and in inverter mode
Reason;
The charging terminal, for being electric vehicle charging using power supply or energy storage device.
Preferably, the two-way inverter also includes AC-DC change-over circuits and DC-AC change-over circuits, is mending power mode
When, the alternating current of power supply is converted into direct current by the AC-DC change-over circuits, to be charged to energy storage device;Inverse
During change pattern, the DC-AC change-over circuits are by the converting direct-current power into alternating-current power of energy storage device, to be filled to electric vehicle
Electricity.
Preferably, the portable charging energy-storing system also includes the touch-screen electrically connected with charge controller, described to touch
Screen is touched for inputting what is directly charged for energy storage device progress charging benefit power mode, using power supply using power supply
Direct mode operation and the inverter mode charged using energy storage device to electric vehicle.
Preferably, the energy storage device includes rechargeable battery, electric quantity acquisition circuit and electricity processor, the electric quantity acquisition
Circuit is electrically connected with rechargeable battery, the charge information to gather rechargeable battery;The electricity processor and electric quantity acquisition circuit
Electrical connection, obtains electric quantity data and is delivered to charge controller, and shown by touch-screen to handle charge information progress.
Preferably, the charging terminal includes charging pile and the charging gun electrically connected with charging pile.
Preferably, the charging terminal also includes card reader and IC-card, and the card reader is installed on charging pile, described to read
Card device can start after effective IC-card is sensed to charge to electric vehicle.
Preferably, the portable charging energy-storing system also includes overvoltage/under-voltage protecting circuit, the overvoltage/under-voltage guarantor
Protection circuit is electrically connected with charge controller.
Preferably, the portable charging energy-storing system also includes overload/current foldback circuit, and the overload/excessively stream is protected
Protection circuit is electrically connected with charge controller.
Preferably, the portable charging energy-storing system also bag short-circuit protection circuit and leakage protection circuit, the short circuit
Protection circuit and leakage protection circuit are electrically connected with charge controller respectively.
The technical solution of the utility model includes charging terminal, charge controller, two-way inverter and energy storage device, and this fills
Direct mode operation, supplement mode and the inverter mode that electric controller can be inputted according to user generate corresponding control instruction;It is two-way inverse
Become device and corresponding working condition is carried out according to each control instruction, to be that energy storage device and electric vehicle are charged, in this way, can
Electric vehicle is filled to carry out directly charging to electric vehicle, to energy storage device progress benefit electricity and using energy storage device
Electricity, can solve the problem that worry of the electric automobile caused by not having electricity, while selling electricity using electricity price Gao Shike, can be stored up when electricity price is low
Energy.There is electricity to utilize direct mode operation normal power supply electric automobile, emergency power supply during natural calamity can be made and dispatched, isolated island power supply is special
Determine environment power supply application.To sum up, the utility model at least has the following technical effect that:
1st, peak load shifting, in the peak period of power network electricity consumption, when electricity price is high, energy-storage battery can be mended to electric automobile
Electricity, can also generate electricity by way of merging two or more grid systems the electric energy feedback compensation power network of storage, realization, such as daytime 11::00---14:00 evening 18:00—
22:00, embody the saving of the real meaning energy;
2nd, motor-driven light and flexible, can be economized on resources with limited by the field, pollution not resulted in power network, real green ring
Protect, civil power passes through provided with independent direct mode operation, safe and reliable;
3rd, energy storage Bidirectional variable-flow part uses high-efficiency inversion power module, and efficiency, can fast ripe speed switching up to 98%;
4th, facilitate user's quick supplement power supply in the case where electric automobile does not have electricity, save the plenty of time, it is to avoid because not having electricity
Cause the worry of trailer and traffic jam.
Brief description of the drawings
, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are only
It is some embodiments of the present utility model, for those of ordinary skill in the art, is not paying the premise of creative work
Under, other accompanying drawings can also be obtained according to the structure shown in these accompanying drawings.
Fig. 1 is the block diagram of the portable charging energy-storing system of the embodiment of the utility model one;
Fig. 2 is the block diagram of the portable charging energy-storing system of another embodiment of the utility model;
Fig. 3 is the flow chart of the control method of the portable charging energy-storing system of the embodiment of the utility model one.
Realization, functional characteristics and the advantage of the utility model purpose will be described further referring to the drawings in conjunction with the embodiments.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out
Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than all
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise
Lower obtained every other embodiment, belongs to the scope of the utility model protection.
It is to be appreciated that the description for being related to " first ", " second " etc. in the utility model is only used for describing purpose, and it can not manage
Solve to indicate or imply its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " the
One ", at least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the skill between each embodiment
Art scheme can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when technical scheme
With reference to occur it is conflicting or when can not realize it will be understood that the combination of this technical scheme is not present, also not in the utility model
It is required that protection domain within.
Fig. 1 is refer to, in the utility model embodiment, the portable charging energy-storing system, including charging terminal 40, fill
Electric controller 10, two-way inverter 20 and energy storage device 30,
The two-way inverter 20 is electrically connected with energy storage device 30 and charge controller 10 respectively, the charge controller 10
Electrically connected with charging terminal 40;
The charge controller 10, benefit power mode, direct mode operation and the inverter mode life for responding user's input respectively
Into corresponding benefit electric control instruction, straight-through control instruction and inversion control instruction, and it is corresponding to control two-way inverter 20 to enter
Working condition;
The two-way inverter 20 is circumscribed with power supply, for carrying out rectification to power supply according to benefit electric control instruction
Processing, to carry out mending electricity to charging energy-storing device 30;Power supply is directly exported according to straight-through control instruction, with to electric car
Charged;Inversion processing is carried out to energy storage device 30 according to inversion control instruction, to be charged to electric vehicle;
The energy storage device 30, for carrying out energy storage processing when mending power mode, and is discharged in inverter mode
Processing;
The charging terminal 40, for being electric vehicle charging using power supply or energy storage device 30.
In the present embodiment, the charging terminal 40 can be charging pile etc., and electric energy is exported by charging pile.Energy storage device 30 is
Rechargeable battery or battery, energy storage device 30 can store electric energy in convenient access power supply, and can when out of doors
Exported as power supply.Charge controller 10, is specifically as follows charging panel, what the charging panel can be inputted according to user
Mend power mode generation and mend electric control instruction, electricity condition is mended to control two-way inverter 20 and energy storage device 30 to be in, it is now, two-way
Inverter 20 can carry out rectification processing to power supply;The direct mode operation life that the charging panel can also be inputted according to user
Into straight-through control instruction, to control two-way inverter 20 and charging terminal 40 to be in charged state, now, at two-way inverter 20
In bypass state, it is possible to use power supply electric energy directly charges to charging terminal 40;The charging panel can also according to
The inverter mode generation inversion control instruction of family input, to control two-way inverter 20 and energy storage device 30 to be in inverter mode,
Now, two-way inverter 20 is in inverter mode, it is possible to use energy storage device 30 directly charges to charging terminal 40.It is two-way
When inverter 20 is in inverter mode, the electric energy feedback compensation power network that can also export energy storage device 30, realization is generated electricity by way of merging two or more grid systems,
In this way, in the peak period in power network electricity consumption, energy storage device 30 being utilized when electricity price is high, plays a part of peak load shifting.
The technical solution of the utility model includes charging terminal 40, charge controller 10, two-way inverter 20 and energy storage dress
30 are put, direct mode operation, supplement mode and the inverter mode that the charge controller 10 can be inputted according to user generate corresponding control
Instruction;Two-way inverter 20 carries out corresponding working condition according to each control instruction, to for energy storage device 30 and electric vehicle
Charged, in this way, directly charging can be carried out to electric vehicle, energy storage device 30 is carried out mending electricity and energy storage dress is utilized
Put 30 pairs of electric vehicles to charge, can solve the problem that worry of the electric automobile caused by not having electricity, while being sold using electricity price Gao Shike
Electricity, can carry out energy storage when electricity price is low.There is electricity to utilize direct mode operation normal power supply electric automobile, can make emergent during natural calamity
Power supply is dispatched, isolated island power supply, specific environment power supply application.
Refer to Fig. 2, in a specific embodiment, the two-way inverter 20 also include AC-DC change-over circuits 21 with
And DC-AC change-over circuits 22, when mending power mode, the alternating current of power supply is converted into directly by the AC-DC change-over circuits 21
Stream electricity, to be charged to energy storage device 30;In inverter mode, the DC-AC change-over circuits 22 are by the straight of energy storage device 30
Stream electricity is converted into alternating current, to be charged to electric vehicle.
In the present embodiment, 30 pairs of energy storage device can be facilitated by AC-DC change-over circuits 21 and DC-AC change-over circuits 22
The storage and electric discharge of electric energy.AC-DC change-over circuits 21 are used for the charging of energy storage device 30, facilitate power storage, DC-AC conversion electricity
Road 22 is used for the electric discharge of energy storage device 30, facilitates supplying power for outside.
Fig. 2 is refer to, in a specific embodiment, the portable charging energy-storing system also includes and charge controller
The touch-screen 50 of 10 electrical connections, it is that electric mould is mended in the progress charging of energy storage device 30 that the touch-screen 50, which is used to input using power supply,
Formula, the direct mode operation directly charged using power supply and electric vehicle is charged using energy storage device 30
Inverter mode.
User and charge controller 10 are interacted for convenience, and in the present embodiment, the charge controller 10 is also associated with touching
Touch screen 50, various charge modes can be inputted by touch-screen 50, can also show charging voltage, charging current, battery current,
The battery electric quantity percentages show of charged state and expected residual charging interval etc., it might even be possible to show disbursement and sattlement etc..
Fig. 2 is refer to, in a specific embodiment, the energy storage device 30 includes rechargeable battery 31, electric quantity acquisition electricity
Road 32 and electricity processor 33, the electric quantity acquisition circuit 32 are electrically connected with rechargeable battery 31, to gather rechargeable battery 31
Charge information;The electricity processor 33 is electrically connected with electric quantity acquisition circuit 32, and electricity is obtained to handle charge information progress
Amount data are simultaneously delivered to charge controller 10, and show by touch-screen 50.
In the present embodiment, electric quantity acquisition circuit 32 is specially BMU modules, can gather the state parameter of energy storage device 30,
Electricity processor 33 can be handled the parameter of collection, obtain corresponding electric quantity data, and this lights data can be by touching
Screen 50 is touched to show.
Fig. 2 is refer to, in a specific embodiment, the charging terminal 40 includes charging pile 41 and electric with charging pile 41
The charging gun 42 of connection.
In the present embodiment, charging terminal 40 can be charging pile 41 or battery charger cradle, and the charging pile 41 or battery charger cradle also connect
Charging gun 42 is connected to, to facilitate electric energy to export.
Fig. 2 is refer to, in a specific embodiment, the charging terminal 40 also includes card reader and IC-card, the reading
Card device is installed on charging pile 41, and the card reader can start after effective IC-card is sensed to charge to electric vehicle.
In the present embodiment, IC-card and card reader can be used, to open charging operations.When swiping the card, read by card reader
Information in IC-card is taken, when meeting sets requirement, can outwards be powered;When swiping the card again, charging can be stopped, to meet jerk
Demand.
Fig. 2 is refer to, in a specific embodiment, the portable charging energy-storing system also includes overvoltage/under-voltage guarantor
Protection circuit, the overvoltage/under-voltage protecting circuit is electrically connected with charge controller 10.
In the present embodiment, this portable charging energy-storing system also has overvoltage/under-voltage protection function, electric when detecting output
Pressure opens overvoltage protection when being more than normal voltage value (120%), cut-out charging gun 42 is exported, and is alerted;It is electric when detecting output
Force down and open under-voltage protection when normal value (80%), cut-out output, and alerting at once.
Fig. 2 is refer to, in a specific embodiment, the portable charging energy-storing system also includes overload/excessively stream and protected
Protection circuit, the overload/current foldback circuit is electrically connected with charge controller 10.
In the present embodiment, this portable charging energy-storing system also there is overload/excessively stream to carry out defencive function, when detecting
Carry and overload/overcurrent protection is opened when being more than setting value, cut-out output, and alerting at once.
When above-mentioned alarm can be by indicator lamp or alarm, alarmed.The indicator lamp includes, and is filled to electric automobile
Electricity/electric indicator lamp (relay indicating light) is mended to battery modules;Warning light, jerk, the voltage of energy storage device 30 are low, two way convertor
Warning light is lighted during bypass state (charged state) failure, specific alarm failure point is exported by touch-screen 50.Energy storage device
30 status lamps, when energy storage device 30 is fully charged, are lighted, green, and other states are extinguished.It should be understood that the charge controller 10
It is also associated with electric energy meter.
Refer to Fig. 2, in a specific embodiment, the portable charging energy-storing system also bag short-circuit protection circuit and
Leakage protection circuit, the short-circuit protection circuit and leakage protection circuit are electrically connected with charge controller 10 respectively.The present embodiment
In, this portable charging energy-storing system also has short-circuit protection and creepage protection function, opens short when detecting output short-circuit
Road is protected, cut-out output, and alert display at once, and response speed is not less than 200ms;When detecting leakage current more than 30mA
Earth leakage protective is opened, at once cut-out output, response speed is not less than 200ms.It is noted that in addition to above-mentioned function, the charging
Controller 10 can also connect lightning-protection module, therefore, and the portable charging energy-storing system also has input lightning protection function, works as thunder and lightning
Defencive function can be opened during strike in 200ns, degree of protection is C grades.
In another embodiment, the two way convertor has incoming call self-starting function, two way convertor directly defeated after starting
Go out 50HZ alternating currents, insert and master control borad and BMS (BATTERY MANAGEMENT SYSTEM, battery management system are completed after bore brush card
System) CC (charging connection confirmations), CP (charge control confirmations) confirm after immediately start charging, after swiping the card again stopping charge.
Two-way inverter 20 is operated under inverter mode, when charge controller 10 is low by obtaining the voltage of energy storage device 30 with BCU communications
Warning information when, actively can stop charging and the low alarm prompt of output voltage is to touch-screen 50.Incoming call self-starting (or connect
The two-way end of inverter 20 inputs civil power) after, in the situation choosing without charge requirement, system default mends electricity to energy storage device 30, when
Battery modules are full of and during without charging electric vehicle demand, and two-way inverter 20 is in holding state.During charging, energy storage device 30
Equipped with dc circuit breaker, ON/OFF buttons are manually pressed by when being charged and discharged, then charge controller 10 is according to the need of triggering
Control dc circuit breaker ON/OFF is sought, so as to control conducting/pass of energy storage device 30 and the DC output end of two-way inverter 20
It is disconnected, discharge and recharge can be carried out.Battery control has Preservation tactics in charge and discharge process, prevents super-charge super-discharge.Energy storage device 30 passes through
BCU (battery control unit) is communicated with charge controller 10 by 485 or 232.Upper electric self-starting function, charge controller 10 is adopted
When the voltage at sample battery modules input/output end is less than setting value, the control input/output end dc circuit breaker of energy storage device 30 is led
Logical, simultaneously direct output of DC current pressure mends electricity to energy storage device 30 for the two-way device self-starting of inverter 20, fills after electricity, charge controller
The dc circuit breaker shut-off at 10 control energy storage device 30 input/output ends, when charge controller 10 monitors civil power power down, can stand
That is the input/output end dc circuit breaker conducting of control energy storage device 30, and take from the output end of energy storage device 30 48V direct current
Electricity, is allowed to normal work.In the case of without civil power, ON/OFF buttons are pressed, two-way inverter 20 is triggered and is in inverter mode,
50HZ alternating currents are exported after startup.In the two-way course of work of inverter 20, battery stagnation pressure is acquired in real time, voltage protection is done
Function, prevents over-charging of battery is crossed from putting.
It refer in Fig. 3, embodiment of the present utility model, the control method of the portable charging energy-storing system, including such as
Lower step:
Step S10, respectively the benefit power mode of response user input, direct mode operation and the corresponding benefit of inverter mode generation are automatically controlled
System instruction, straight-through control instruction and inversion control instruction;
Step S20, energy storage processing is carried out when mending power mode, and carry out in inverter mode discharge process;
Step S30, according to mend electric control instruction to power supply carry out rectification processing, to be mended to charging energy-storing device
Electricity;Power supply is directly exported according to straight-through control instruction, to be charged to electric vehicle;According to inversion control instruction pair
Energy storage device carries out inversion processing, to be charged to electric vehicle.
In the present embodiment, charge mode can be inputted by user, one kind of power mode and direct mode operation, charge control is mended
Device can respond corresponding pattern, generate control instruction, two-way inverter is controlled, specifically, can be defeated according to user
Electric control instruction is mended in the benefit power mode generation entered, and electricity condition is mended to control two-way inverter and energy storage device to be in, now, two-way
Inverter can carry out rectification processing to power supply;Electric control instruction is mended in the benefit power mode generation that can be inputted according to user,
Electricity condition is mended to control two-way inverter and energy storage device to be in, now, two-way inverter can carry out rectification to power supply
Processing;The straight-through control instruction of direct mode operation generation that can also be inputted according to user, to control two-way inverter and charging terminal
In charged state, now, two-way inverter is in bypass state, it is possible to use power supply electric energy directly fills to charging terminal
Electricity;The inverter mode generation inversion control instruction that can also be inputted according to user, to control at two-way inverter and energy storage device
In inverter mode, now, two-way inverter is in inverter mode, it is possible to use energy storage device directly fills to charging terminal
Electricity, preferably to meet the requirement of mobile charging.
To sum up, the utility model at least has the following technical effect that:
1st, peak load shifting, in the peak period of power network electricity consumption, when electricity price is high, energy-storage battery can be mended to electric automobile
Electricity, can also generate electricity by way of merging two or more grid systems the electric energy feedback compensation power network of storage, realization, such as daytime 11::00---14:00 evening 18:00—
22:00, embody the saving of the real meaning energy;
2nd, motor-driven light and flexible, can be economized on resources with limited by the field, pollution not resulted in power network, real green ring
Protect, civil power passes through provided with independent direct mode operation, safe and reliable;
3rd, energy storage Bidirectional variable-flow part uses high-efficiency inversion power module, and efficiency, can fast ripe speed switching up to 98%;
4th, facilitate user's quick supplement power supply in the case where electric automobile does not have electricity, save the plenty of time, it is to avoid because not having electricity
Cause the worry of trailer and traffic jam.
Preferred embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited,
It is every utility model of the present utility model design under, the equivalent structure made using the utility model specification and accompanying drawing content
Conversion, or directly/be used in other related technical fields indirectly and be included in scope of patent protection of the present utility model.
Claims (9)
1. a kind of portable charging energy-storing system, it is characterised in that the portable charging energy-storing system includes charging terminal, filled
Electric controller, two-way inverter and energy storage device,
The two-way inverter is electrically connected with energy storage device and charge controller respectively, the charge controller and charging terminal electricity
Connection;
The charge controller, benefit power mode, direct mode operation and inverter mode the generation correspondence for responding user's input respectively
Benefit electric control instruction, straight-through control instruction and inversion control instruction, and control two-way inverter to enter corresponding working condition;
The two-way inverter is circumscribed with power supply, for carrying out rectification processing to power supply according to benefit electric control instruction,
To carry out mending electricity to charging energy-storing device;Power supply is directly exported according to straight-through control instruction, to be carried out to electric vehicle
Charging;Inversion processing is carried out to energy storage device according to inversion control instruction, to be charged to electric vehicle;
The energy storage device, for carrying out energy storage processing when mending power mode, and carries out in inverter mode discharge process;
The charging terminal, for being electric vehicle charging using power supply or energy storage device.
2. movable type charging energy-storing system as claimed in claim 1, it is characterised in that the two-way inverter also includes AC-
DC change-over circuits and DC-AC change-over circuits, when mending power mode, the AC-DC change-over circuits are by the alternating current of power supply
Direct current is converted into, to be charged to energy storage device;In inverter mode, the DC-AC change-over circuits are by energy storage device
Converting direct-current power into alternating-current power, to be charged to electric vehicle.
3. movable type charging energy-storing system as claimed in claim 1, it is characterised in that the portable charging energy-storing system is also
Including the touch-screen electrically connected with charge controller, it is that energy storage device is filled that the touch-screen, which is used to input using power supply,
Electricity is mended power mode, the direct mode operation directly charged using power supply and electric vehicle is carried out using energy storage device
The inverter mode of charging.
4. movable type charging energy-storing system as claimed in claim 3, it is characterised in that the energy storage device includes charging electricity
Pond, electric quantity acquisition circuit and electricity processor, the electric quantity acquisition circuit are electrically connected with rechargeable battery, to gather rechargeable battery
Charge information;The electricity processor is electrically connected with electric quantity acquisition circuit, and electricity is obtained to handle charge information progress
Data are simultaneously delivered to charge controller, and show by touch-screen.
5. movable type charging energy-storing system as claimed in claim 1, it is characterised in that the charging terminal include charging pile and
The charging gun electrically connected with charging pile.
6. movable type charging energy-storing system as claimed in claim 5, it is characterised in that the charging terminal also includes card reader
And IC-card, the card reader is installed on charging pile, and the card reader can start to electric car after effective IC-card is sensed
Charged.
7. movable type charging energy-storing system as claimed in claim 1, it is characterised in that the portable charging energy-storing system is also
Including overvoltage/under-voltage protecting circuit, the overvoltage/under-voltage protecting circuit is electrically connected with charge controller.
8. movable type charging energy-storing system as claimed in claim 1, it is characterised in that the portable charging energy-storing system is also
Including overload/current foldback circuit, the overload/current foldback circuit is electrically connected with charge controller.
9. movable type charging energy-storing system as claimed in claim 1, it is characterised in that the portable charging energy-storing system is also
Bag short-circuit protection circuit and leakage protection circuit, the short-circuit protection circuit and leakage protection circuit are electric with charge controller respectively
Connection.
Priority Applications (1)
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CN201621412043.1U CN206416866U (en) | 2016-12-20 | 2016-12-20 | Portable charging energy-storing system |
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CN201621412043.1U CN206416866U (en) | 2016-12-20 | 2016-12-20 | Portable charging energy-storing system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106476650A (en) * | 2016-12-20 | 2017-03-08 | 深圳市列那狐科技有限公司 | Portable charging energy-storing system and its control method |
CN110504721A (en) * | 2019-07-03 | 2019-11-26 | 国网冀北电力有限公司经济技术研究院 | Moving charging power station |
-
2016
- 2016-12-20 CN CN201621412043.1U patent/CN206416866U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106476650A (en) * | 2016-12-20 | 2017-03-08 | 深圳市列那狐科技有限公司 | Portable charging energy-storing system and its control method |
CN110504721A (en) * | 2019-07-03 | 2019-11-26 | 国网冀北电力有限公司经济技术研究院 | Moving charging power station |
CN110504721B (en) * | 2019-07-03 | 2024-06-11 | 国网冀北电力有限公司经济技术研究院 | Mobile charging station |
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