CN109774848A - Power supply in transportation system - Google Patents
Power supply in transportation system Download PDFInfo
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- CN109774848A CN109774848A CN201711117236.3A CN201711117236A CN109774848A CN 109774848 A CN109774848 A CN 109774848A CN 201711117236 A CN201711117236 A CN 201711117236A CN 109774848 A CN109774848 A CN 109774848A
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Abstract
Embodiment of the disclosure is related to a kind of system for powering in transportation system.The system includes generator, power storage device and at least one output.Generator is configured as from plant via energy next life success rate caused by photosynthesis.Power storage device is configured as collecting the power generated by generator and stores the power.At least one output can operate with: be connected with object to be charged, and supply stored power from power storage device to the object that is connected.
Description
Technical field
Embodiment of the disclosure relates generally to ecological field of power supplies, and in particular to one kind is in transportation system
The system of power supply.
Background technique
With the fast development of economic and technical, the demand to the energy constantly increases, and between energy and environment problem
Contradiction become increasingly conspicuous.To solve such problems, in the development and utilization of new energy, biomass energy is since its green is without dirt
The characteristics of dye and attract attention.In general, biomass refers to that is found in the plants such as vegetables, flowers, crops, trees has
Machine substance.Biomass energy is a kind of energy generated via the photosynthesis based on biomass and from solar energy.Mesh
Before, it has been proposed that it is generated using plant with low voltage level (for example, 3.5V) and low current horizontal (for example, 0.5A)
The solution of power or electric power.
On the other hand, for energy saving and protection environment purpose, many governments, which are dedicated to formulating, encourages people with " green
The plan that color " mode is gone on a journey.Nowadays electric bicycle etc. has become as a kind of typical and ideal " green " trip mode
The choosing of the hot topic of the daily commuting of people.Electric bicycle is usually using rechargeable battery, and in such as family or office
Fixed position is charged using the standard power from power grid.However, with the raw cumbrous exacerbation of standard power, it is " green
The mode of color " is also not fully up to expectations.
Therefore, it is desirable to be powered in a manner of facilitating and is ecological to the object to be charged of such as electric bicycle.
Summary of the invention
Embodiment of the disclosure provide a kind of system for powering in transportation system and associated method,
And it is a kind of include the system for power supply transportation system.
In a first aspect, providing a kind of system for powering in transportation system.The system include generator,
Power storage device and at least one output.Generator is configured as coming from plant via energy caused by photosynthesis
Generate power.Power storage device is configured as collecting the power generated by generator and stores the power.This at least one it is defeated
It can be used to: being connected with object to be charged out, and stored from power storage device to the object offer connected
Power.
It should be appreciated that embodiment of the disclosure realizes many advantages.For example, by using as discussed above
Generator and power storage device, power can be generated and be stored from plant, for being supplied to object to be charged.With
This mode, the object being connected with output can be charged in a manner of facilitating and is ecological.
In some embodiments, object to be charged can be slow-moving vehicle, such as electric bicycle, Segway Human Transporter
Deng;Or can be mobile terminal, such as by taking mobile phone, the intelligence that the people of slow-moving vehicle carries in transportation system
Wrist-watch etc.;Or it can be other electronic equipments appropriate to be charged.
In some embodiments, which can also include the first power converter.First power converter can be matched
Be set to the second voltage first voltage of the power generated by generator being converted into for power storage device design.In this way,
The voltage of power generated can be adjusted, to be adapted to the voltage design for power storage device.
In some embodiments, which can also include the second power converter.Second power converter can be matched
It is set to: in response to determining that the second voltage for power storage device design is different from being suitable for the third electricity of connected object
Pressure, is converted to tertiary voltage for second voltage.In this way, the voltage of the power stored can for different objects to be charged and
It is adjusted.
In some embodiments, which can also include controller, which is configured as executing in following extremely
It is one few: by the horizontal control of power in power storage device in predefined scope;The power for controlling generator generates;Control
It exports from power storage device via at least one to the power supply of the object connected;Control the power generated by generator
First voltage to for power storage device design second voltage conversion;And control second voltage is to being suitable for connecting
The conversion of the tertiary voltage of the object connect.In this way, it is possible to by effectively and in a manner of concentration to control, power is generated, power is deposited
Storage, power supply, power conversion etc..
In some embodiments, it if the level of power is more than the upper limit of predefined scope in power storage device, controls
Device processed can discharge to the power in power storage device.Additionally or alternatively, if power in power storage device
Level be lower than predefined scope lower limit, then controller can charge to the power in power storage device.In this way, can
Reliability is maintained with capacity using power storage device.
In some embodiments, controller can use from the calibration power that power grid is supplied to carry out power storage device
Charging.In this way, the power level in power storage device can be made to be maintained above the lower limit of predefined scope, so as to wait fill
Electric object provides enough power.
In some embodiments, which can also include third power converter, and third power converter is configured as
4th voltage of the calibration power from power grid is converted into the second voltage for power storage device design, and by electric current
Direct current is converted into from alternating current.In this way, the calibration power from power grid can be better adapted to the design of present system.
In second aspect, a kind of method for powering in transportation system is provided.This method may include:
At generator, from plant via energy next life success rate caused by photosynthesis;Power is stored in power storage dress
In setting;And the power stored into object to be charged supply power storage device is exported via at least one.
In the third aspect, a kind of transportation system is provided.The transportation system includes the use according to first aspect
In the system of power supply.
It should be appreciated that summary of the invention is not intended to the key or essential characteristic of the implementation of the mark disclosure, it is not intended to
For limiting the scope of the present disclosure.By following description, other features of the disclosure will become can easily be understood that.
Detailed description of the invention
Drawings described herein is provided, to further illustrate the disclosure and be constituted a part of this disclosure.The disclosure
Example embodiment and its explanation for illustrating the disclosure, rather than be unduly limited the disclosure.
Fig. 1 shows the schematic diagram of transportation system;
Fig. 2 shows the schematic diagrames of the system according to an embodiment of the present disclosure for powering in transportation system;
Fig. 3 shows the schematic diagram of generator according to an embodiment of the present disclosure;And
Fig. 4 shows the flow chart of the method according to an embodiment of the present disclosure for powering in transportation system.
Through attached drawing, the same or similar appended drawing reference will always indicate that the same or similar element.
Specific embodiment
Several example embodiments shown in reference to the drawings describe the principle of the disclosure.Although scheming in the accompanying drawings
The example embodiment of the disclosure is shown, but it is to be understood that it is more preferable that description embodiment is merely for convenience of those skilled in the art
Ground understands and thereby realizes the disclosure, rather than limits the scope of the present disclosure in any way.
The term " includes " and its variant used in embodiment of the disclosure should be read as meaning " including but unlimited
In " opening term.Term "based" should be read as " being based at least partially on ".Term " one embodiment " and " realization
Mode " should be read as " at least one embodiment ".Term " another embodiment " should be read as " at least one other reality
Apply example ".
Fig. 1 shows the schematic diagram of urban area 100, and transportation system 110 according to an embodiment of the present disclosure can be with
It is implemented within.In the context of the disclosure, transportation system 110 can also be referred to as " Skyway ".
Transportation system 110 includes one or more path, and various vehicles can travel on these paths.In some realities
It applies in example, transportation system 110 can also include one or more auxiliary equipment (such as protecting one or more path
The shell being independent of outside influences), one or more sensors, one or more controller etc..It should be appreciated that used herein
Phrase " transportation system " does not include the vehicle travelled on one or more path.
Only as an example, the vehicle travelled in transportation system 110 for example may include slow-moving vehicle, but and it is unlimited
In this.Depending on the safety and/or capacity requirement of transportation system 110, slow-moving vehicle can have such as 30-50km/h
Design maximum speed.Slow-moving vehicle can be the vehicle designed specifically for transportation system 110.Alternatively, or additionally
Ground can also support general slow-moving vehicle.
The example of such slow-moving vehicle can include but is not limited to bicycle 120-1, electric bicycle 120-2, motor
Vehicle 120-3 etc..Such vehicle may be collectively termed as or individually referred to as slow-moving vehicle 120.Transportation system 110 can be with
With for highest desin speed the hot-short (car, bus, truck etc.) of such as 50km/h or more road
Or path separates.
Compared with hot-short, slow-moving vehicle 120 generally takes up less space.It therefore, can be in urban area 100
Transportation system 110 is built, in a flexible way to be, for example, that daily commuting provides more convenient and/or mitigation city
The traffic jam in city.
Some slow-moving vehicles 120 are not equipped with overcover or shell to prevent the extreme ring such as rainfall, haze, noise
The influence of border condition.In order to alleviate this problem, for example, can by transportation system 110 side wall and/or traverse side
Roof, at least part of transportation system 110 is configured to semiclosed or totally-enclosed space.Transportation system 110
Side wall and/or roof can be designed to any suitable shape, with provide aesthetic effect or adapt to ground above or below
Different structure.
It will be appreciated that though and reference will also be made to some implementations that slow-moving vehicle 120 describes transportation system 110
Example, but this is merely to illustrate that, and be not intended to propose any restrictions to the scope of the present disclosure.In some embodiments, in addition to
Except slow-moving vehicle or slow-moving vehicle is replaced, transportation system 110 can support the vehicle with any suitable design speed.
In addition, transportation system 110 can support various types of vehicles, including but not limited to: sulky vehicle, three-wheel
Vehicle, bicycle road vehicle, not the vehicle of vehicle body and not the vehicle at seat (such as with steering wheel handle or no direction
The pedal (also referred to as scooter) of disk handle).As an example, transportation system 110 can only to allow sulky vehicle, such as from
Drive a vehicle 120-1 and electric bicycle 120-2.In this case, transportation system 110 can not be to the speed of sulky vehicle
It limits.
Transportation system 110 can be structured in the air, on the ground and/or in subsurface.In some embodiments,
Transportation system 110 can extend through one or more barriers, such as building.It can be along transportation system 110
Multiple entrance 112-1,112-3 and outlet 112-2,112-4 are provided, to allow driver and its vehicle driving midway disengaging friendship
Logical transportation system 110.In some embodiments, transportation system 110 can have one or more lanes.
In some embodiments, transportation system 110 can extend through residential quarter, shopping centre and/or Office Area
Overhead transport transportation system.As an example, transportation system 110 can be passed through building with tunnel form, such as be done shopping
Center, so that driver can order and take away food, beverage and any other cargo of shopping center offer.Communications and transportation system
System 110 can also include the bridge on river or road, so as to compatible with the existing road network in city.
It should be appreciated that the description of construction and layout to urban area 100 and transportation system 110 is used for the purpose of saying
Bright purpose, and be not intended to propose any restrictions to the scope of the present disclosure.The disclosure can be with different construction and/or arrangement come real
It is existing.Alternatively or additionally, transportation system 110 can be implemented in suburb.
In transportation system 110, it is understood that there may be the object to be charged of several types.The object can be slow-moving vehicle
120, electric bicycle, Segway Human Transporter etc..Alternatively, which can be mobile terminal, such as by communications and transportation system
Mobile phone, smartwatch, tablet computer or other electrical equipments that the people that slow-moving vehicle 120 is taken in system 110 carries.It answers
Work as understanding, these examples for describing object to be charged are to discuss rather than propose any restrictions.It should be appreciated that be charged right
As can have other forms and/or type appropriate.
In order to be charged in the way of facilitating and is ecological as object, embodiment of the disclosure provides use as discussed below
In the solution powered in transportation system 110.Fig. 2 shows according to an embodiment of the present disclosure for transporting in traffic
The high level schematic diagram for the system 200 powered in defeated system 110.As shown in Fig. 2, system 200 includes generator 210, power storage
Device 220 and two outputs 231 and 232.
Generator 210 is from plant via energy next life success rate caused by photosynthesis.In some embodiments,
Generator 210 may include one or more plant generator units.Plant generator unit can from a certain number of plants (such as
Vegetables, flowers, crops, trees etc.) power generation.For example, plant can be in transportation system 110 or surrounding growth.For
Plant generator unit can generate power from plant according to conventional scheme, and and will not be described here in detail.
Generator 210 can be realized in various ways, such as be realized in the form of plant charging array.Plant charging array
Any appropriate side that can be positioned at transportation system 110, for example, being located on the wall of transportation system 110.Fig. 3 shows
The schematic diagram of the generator 210 according to an embodiment of the present disclosure in the form of plant charging array 300 is gone out.In the example of Fig. 3
In, plant charging array 300 includes multiple plant generator units (being referred to as " plant generator unit 310 "), the power generation of these plants
Unit is connected in parallel and in series connection to provide electric power.
It can carry out the total number of predefined plant generator unit 310 in a number of ways.In some embodiments, it can be based on
The output power (W1) of each plant generator unit 310 and the required power (W2) of object to be charged carry out predefined total number.?
In one example, the output voltage and output electric current of each plant generator unit 310 are 3.5V and 0.5A respectively, and if are planted
Object generator unit 310 by 24 hours ceaselessly in a manner of come generate electricity (that is, t=3600 seconds), then can determine output as follows
Power W1:
W1=3.5V × 0.5A × 24 hour × 3600 second/hour=151,200J=151.2kJ (1)
In the case of needing small to electric bicycle charging 4 with 36V and 10A, needed for can determining as follows
Power W2:
W2=36V × 10A × 4 hour × 3600 second/hour=5,184,000J=5184kJ (2)
Due to 5184kJ/151.2kJ=34.29, it is possible to determine and 35 plant generator units 310 is needed to come to electronic
Bicycle charges.Therefore, it charges to generate enough power to electric bicycle, plant charging array 300
At least generated electricity using 35 plant generator units 310.If the area that plant generator unit 310 has is 10cm × 10cm,
Then the area of plant charging array 300 can be 35 × 10cm × 10cm=3500cm2=0.35m2。
It in another example, can as follows really if Segway Human Transporter needs to be charged 5 hours with 48V and 10A
Power W2 needed for fixed:
W2=48V × 10A × 5 hour × 3600 second/hour=8,640,000J=8640kJ (3)
Due to 8640kJ/151.2kJ=57.14, thus may determine that 58 plant generator units 310 is needed to come to electronic
Scooter charges.Therefore, it charges to generate enough power to Segway Human Transporter, plant charging array 300
At least generated electricity using 58 plant generator units 310.In this case, the area of plant charging array 300 can be at least
For 58 × 10cm × 10cm=5800cm2=0.58m2.In one embodiment, plant charging array 300 can use area and be
60 plant generator units 310 of 120cm × 50cm construct.
It should be appreciated that all numerical value discussed in the specification are exemplary rather than limitation.Those skilled in the art will
Understand, any numerical value appropriate can be used in embodiment of the disclosure.
In some embodiments, all or part of plant generator unit 310 can be used in plant charging array 300.For
The number of the plant generator unit 310 of power generation can be predetermined or adjust during operation.
In some embodiments, plant generator unit 310 can be used to generate 24 one-hour ratings in generator 210.As
Alternative, power can generate in time predefined section (for example, from 9 points in the morning at 18 points in afternoon).It can be by a variety of
Mode carrys out time predefined section, is not described in detail herein.
In some embodiments, it can for example be controlled by controller 260 discussed below or other appropriate equipment
Power generate used in the number of plant generator unit, time predefined section and/or consider in power generation other because
Element.
Still referring to Figure 2, in some embodiments, power storage device 220 may be coupled to generator 210 and is matched
It is set to: collecting the power generated by generator 210, and store the power.Power storage device 220 can obtain a period of time
The power of interior generation for example may be implemented as battery or battery for subsequent use.
In view of reliability, the level of power can for example pass through control discussed below in power storage device 220
Device 260 or other appropriate equipment and be controlled in predefined scope.Predefined scope can have lower limit (for example, power is deposited
The 20% of the capacity of storage device 220) and the upper limit (for example, 80% of the capacity of power storage device 220).It should be appreciated that description
The above-mentioned example of the lower and upper limit of predefined scope be in order to illustrate rather than limit.In the other embodiments of the disclosure,
Lower and upper limit can be any other value appropriate.
In some embodiments, if the power level in power storage device 220 is more than the upper limit of predefined scope,
Power in power storage device 220 can be discharged, so as in predefined scope.In one embodiment, power can
To be discharged via the luminous facility for decorating, illuminating etc..
Alternately, or additionally, if the level of power is lower than the lower limit of predefined scope in power storage device 220,
Power in power storage device 220 can be for example electrically charged using the calibration power for being supplied from power grid.In this way, it is possible to
The capacity of regulation power storage device keeps reliability.
Optionally, in some embodiments, the first power converter 240 can be disposed in generator 210 and deposit with power
Between storage device 220.First power converter 240 can be configured as: by the first voltage of the power generated by generator 210
V1 is converted into the second voltage V2 designed for power storage device 220.For example, if V1 is 3.5V, V2 is 36V, first
V1 can be converted into 36V from 3.5V by power converter, to meet the requirement of power storage device.In this way, it is possible to adjust
The voltage of power generated, to be adapted to the design for power storage device.
Output 231 and 232 is connected with object to be charged, and supplies from power storage device 220 to the object connected
Answer stored power.In some embodiments, it is electric bicycle respectively and electronic for being connected to the object of output 231 and 232
Scooter, thus the voltage of 36V via output 231 and be supplied to electric bicycle, and the voltage of 48V via output 232 and
It is supplied to Segway Human Transporter.In this way, being connected to the object of output can be electrically charged in a manner of facilitating and is ecological.
In some embodiments, output 231 and 232 is waterproof.For example, output 231 and 232 can be by waterproof material system
At.In this way, even if for regular job to plant watering, output 231 and 232 also be can work normally.
Optionally, in some embodiments, the second power converter 250 can be disposed in power storage device 220 with
Between output end 231 and 232.Second power converter 250 can be configured as: be directed to power storage device in response to determining
The second voltage V2 of 220 designs is different from being suitable for the tertiary voltage V3 of institute's connecting object, and second voltage V2 is converted into third
Voltage V3.For example, if V2 is 36V, V3 is 48V, and V2 can be converted into 48V from 36V by the second power converter, so as to
Power appropriate is provided to object.In this way, the voltage of the power stored can be adjusted in a more appropriate manner take
It is engaged in different objects.
First and/or second power converter may be implemented as direct current (DC)-DC converter.Known DC-DC converter
It is the electronic circuit or electromechanical equipment that DC power supply is converted into another voltage level from a voltage level.DC-DC converter
Power level can change to relatively high voltage from low-voltage.
Optionally, in some embodiments, the conversion of V1 to V2, the conversion of V2 to V3, and/or via output 231 and 232
It can be controlled to the power supply of institute's connecting object by controller 260 as discussed below or other appropriate equipment.
As discussed above, by system 200 component execute operation can by controller centralized control, for example, by
260 centralized control of controller shown in Fig. 2.In some embodiments, controller 260 can will be in power storage device 220
The horizontal control of power is in predefined scope.Additionally or alternatively, the power that controller 260 can control generator generates
And/or via output end 231 and 232 to the power supply of institute's connecting object.Additionally or alternatively, controller 260 can be controlled
The conversion of V1 to V2 processed and/or the conversion of V2 to V3.
In some embodiments, in controlling power storage device 220 when the level of power, if power storage device
The level of power is more than the upper limit of predefined scope in 220, then controller can carry out the power in power storage device 220
Electric discharge.On the other hand, if the level of power is lower than the lower limit of predefined scope in power storage device 220, controller can
For example by guiding calibration power (for example, 60V) into power storage device 220 from power grid 270 (such as, national grid), to come
It charges to the power in power storage device 220.In this way, the level of power can keep big in power storage device 220
In the lower limit of predefined scope, to ensure that enough power comes for object charging.
Since the calibration power from power grid 270 usually has the alternating current of the high voltage with such as 60V, third
Power converter 280 can be disposed between power grid 270 and controller 260.Third power converter 280 can be configured
Are as follows: the 4th voltage V4 of the calibration power from power grid 270 is converted into the second voltage designed for power storage device 220
V2, and electric current is converted into direct current (DC) from alternating current (AC).By this method, the calibration power from power grid can be more preferable
Ground is adapted to the design of present system.
Fig. 4 shows side according to the embodiment of theme described herein, for powering in transportation system 110
The flow chart of method 400.In accordance with an embodiment of the present disclosure, method 400 can system 200 or for power supply any other is appropriate
It is realized in system.
At frame 410, at generator 210, from plant via energy next life success rate caused by photosynthesis.
At frame 420, power generated is stored in power storage device 220.
At frame 430, the power being stored in power storage device 220 is supplied via output end 231 and/or 232
To object to be charged.
In some embodiments, method 400 can also include: the first voltage V1 for the power that will be generated by generator 210
It is converted into the second voltage V2 designed for power storage device 220.
In some embodiments, method 400 can also include: to design in response to determining for power storage devices 220
Second voltage V2 is different from being suitable for the tertiary voltage V3 of connected object, and second voltage V2 is converted into tertiary voltage V3.
In some embodiments, method 400 can also include at least one of the following: will be in power storage device 220
The horizontal control of power is in predefined scope;The power for controlling generator 210 generates;Control is passed through from power storage device 220
By the power supply of at least one described output 231 and 232 to institute's connecting object;The power that control is generated by generator 210
Conversion of the first voltage V1 to the second voltage V2 designed for power storage device 220;And control second voltage V2 to fit
Together in the conversion of the tertiary voltage V3 of the object connected.
In some embodiments, the level of power in power storage device can be controlled in many ways.In a reality
It applies in example, the level in response to power in power storage device 220 is more than the upper limit of predefined scope, to power storage device
Power in 220 discharges;And in response to the level of power in power storage device 220 lower than under predefined scope
Limit, charges to the power in power storage device 220.
In some embodiments, the power in power storage device 220 can be electrically charged in the following manner, that is, be utilized
The calibration power supplied from power grid 270 charges to power storage device 220.
In some embodiments, method 400 can also include: by the 4th voltage V4 of the calibration power from power grid 270
It is converted into the second voltage V2 designed for power storage device 220.Method 400 can also include: to turn electric current from alternating current
Change direct current into.
It should be appreciated that the movement and/or operation of method 400 are discussed referring to the embodiment of Fig. 2 to Fig. 3, therefore
This is no longer discussed in detail.
It should be appreciated that the above-mentioned specific embodiment of the disclosure is merely to illustrate or illustrate the principle of the disclosure, rather than
Limit the disclosure.Therefore, any modification, equivalent substitute and improvement without departing from the spirit and scope of the disclosure
Deng should all include in the protection scope of the disclosure.Meanwhile disclosure the attached claims are intended to cover and fall into right and want
All changes and modification in the equivalent of the range and boundary or range and boundary asked.
Claims (20)
1. system (200) of the one kind for powering in transportation system (110), comprising:
Generator (210) is configured as from plant via energy next life success rate caused by photosynthesis;
Power storage device (220) is configured as collecting described in the power generated as the generator (210) and storage
Power;And
At least one output (231,232), can operate with: be connected with object to be charged, and from the power store fill
Set the described power of (220) to the object supply storage connected.
2. system according to claim 1 (200), further includes:
First power converter (240), is configured as: the first voltage for the power that will be generated by the generator (210)
It is converted into the second voltage for the power storage device (220) design.
3. system according to claim 1 (200), further includes:
Second power converter (250), is configured as: in response to determining for the power storage device (220) design
Two voltages are different from being suitable for the tertiary voltage of connected object, and the second voltage is converted into the tertiary voltage.
4. system according to claim 1 (200), further includes:
Controller (260), is configured as:
By the horizontal control of power described in the power storage device (220) in predefined scope;
The power for controlling the generator (210) generates;
Control is from the power storage device (220) via at least one described output (231,232) to the object connected
Power supply;
The first voltage for the power that control is generated by the generator (210) is to for the power storage device (220)
The conversion of the second voltage of design;And/or
Control the conversion of the second voltage to the tertiary voltage for being suitable for connected object.
5. system (200) according to claim 4, wherein by the level of power described in the power storage device
It controls and includes: in the predefined scope
The level in response to power described in the power storage device (220) is more than the upper limit of the predefined scope,
It discharges the power in the power storage device (220);And
It is lower than the lower limit of the predefined scope in response to the level of power described in the power storage device (220),
It charges to the power in the power storage device (220).
6. system (200) according to claim 5, wherein to the power in the power storage device (220) into
Row charges
Using the calibration power supplied from power grid (270), charge to the power storage device (220).
7. system (200) according to claim 6, further includes:
Third power converter (280), is configured as: will be from the 4th voltage of the calibration power of the power grid (270)
It is converted into the second voltage for the power storage device (220) design, and electric current is converted into direct current from alternating current.
8. system according to claim 1 (200), wherein the object connected includes at least one of the following:
Electric bicycle,
Segway Human Transporter, and
Mobile terminal.
9. system according to claim 1 (200), wherein at least one described output (231,232) is waterproof.
10. a kind of method for powering in transportation system, comprising:
At generator (210), from plant via energy next life success rate caused by photosynthesis;
The power is stored in power storage device (220);And
(231,232) are exported via at least one, supply storage in the power storage device (220) to object to be charged
The power.
11. according to the method described in claim 10, further include:
The first voltage of the power generated by the generator (210) is converted into for the power storage device
(220) second voltage designed.
12. according to the method described in claim 10, further include:
In response to determining that the second voltage for the power storage device (220) design is different from being suitable for connected object
Tertiary voltage, the second voltage is converted into the tertiary voltage.
13. according to the method described in claim 10, further including at least one of the following:
By the horizontal control of power described in the power storage device (220) in predefined scope;
The power for controlling the generator (210) generates;
Control is from the power storage device (220) via at least one described output (231,232) to the object connected
Power supply;
The first voltage for the power that control is generated by the generator (210) is to for the power storage device (220)
The conversion of the second voltage of design;And
Control the conversion of the second voltage to the tertiary voltage for being suitable for connected object.
14. according to the method for claim 13, wherein by the horizontal control of power described in the power storage device
It makes and includes: in the predefined scope
The level in response to power described in the power storage device (220) is more than the upper limit of the predefined scope,
It discharges the power in the power storage device (220);And
It is lower than the lower limit of the predefined scope in response to the level of power described in the power storage device (220),
It charges to the power in the power storage device (220).
15. according to the method for claim 14, wherein being filled to the power in the power storage device (220)
Electricity includes:
Using the calibration power supplied from power grid (270), charge to the power storage device (220).
16. according to the method for claim 15, further includes:
4th voltage of the calibration power from the power grid (270) is converted into for the power storage device
(220) second voltage designed, and electric current is converted into direct current from alternating current.
17. according to the method described in claim 10, the object wherein connected includes at least one of the following:
Electric bicycle,
Segway Human Transporter, and
Mobile terminal.
18. according to the method described in claim 10, wherein at least one described output (231,232) is waterproof.
19. a kind of transportation system (110), including according to claim 1 to system described in any one of 9 (200).
20. a kind of computer readable storage medium for being stored thereon with instruction, described instruction makes described when being executed by equipment
Equipment executes method described in any one of 0 to 18 according to claim 1.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201711117236.3A CN109774848A (en) | 2017-11-13 | 2017-11-13 | Power supply in transportation system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201711117236.3A CN109774848A (en) | 2017-11-13 | 2017-11-13 | Power supply in transportation system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN109774848A true CN109774848A (en) | 2019-05-21 |
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