CN101545577A - Method and system for quickly supplying air to compressed air motor vehicle by utilizing natural energy - Google Patents

Abstract

The invention provides a method and a system for quickly supplying air to a compressed air motor vehicle by utilizing natural energy. The system comprises a solar energy photovoltaic subsystem and/or a wind energy generating subsystem, a commercial power network, an accumulator battery and air compressor and network control subsystem, an AC/DC converting subsystem and an air feeding subsystem. The method provides steps of implementing conversion and control of the natural energy, and realizing quick air supply for the compressed air motor vehicle through the system. The method and the system have the advantages that: when the natural energy generates sufficient electricity, excessive electricity can be merged into a commercial power net for use of other loads; and when the electricity is not sufficient, the AC of the commercial power net can be transmitted to an air compressor unit to quickly supply air to the compressed air motor vehicle; therefore, the method and the system realize stably and reliably utilization of the natural energy to quickly supply air to the compressed air motor vehicle, reduce dependency on non-renewable energy resources such as petroleum, coal and the like, relieve energy crisis, solve the problem of lacking water and protect atmospheric environment.

Description

Utilize the method and system of natural energy to the quick air feed of compressed-air power car

Technical field

The present invention relates to the natural energy applied technical field, relate in particular to a kind of system and method that utilizes natural energy to the quick air feed of compressed-air power automobile.

Background technique

At present, general-utility car is many is used as power by fossil fuel.But because fossil fuel is non-renewable energy resources, in case exhaust the crisis that the mankind will face resource exhaustion; A large amount of co of fossil fuel discharging in addition ₂Deng gas, environmental pollution is very big.Therefore, the development and use new energy are trends of the times.Wherein, natural energy is because of it has cleaning, advantage such as pollution-free and renewable forms one of the direction of research of attaching most importance to.

In the prior art, the photovoltaic generation subtense angle is to be electric energy by battery component with solar energy converting, pours battery pack through anti-recoil diode.The wind energy power subtense angle then is by blade wind energy to be converted to the kinetic energy that drives generator for electricity generation, and Ac pours battery pack after rectifying device is handled.

The compressed-air power automobile utilizes the pressure of high pressure air can drive automobile running, and consume fuel is not the environmentally friendly vehicle of real zero-emission.For example, French MDI company air-powered car, pressurized air is stored in the fiber containers, utilizes its pressure to promote the piston of motor.Working procedure does not need burning, air displacement 800c.c, and air tank is fixed on the chassis, horsepower 25hp, speed per hour 110km/h, continuation of the journey 200 kilometers of mileages (air tank), car weight 700kg, 7000 Euros of costs, price 12000-14000 Euro.This car is furnished with the air compressor unit of production and store compressed air and the inflator of air automobile accessories, by the aerating subtense angle of inflator the compressed-air power automobile is inflated.

Yet, utilize natural energy to the quick air feed of compressed-air power car, this guarantee compressed-air power automobile auxiliary facility used in everyday does not also have at present and sees.

Summary of the invention

The invention provides a kind of method and system from natural energy to the quick air feed of compressed-air power car that utilize, it combines wind energy and generates electricity with piezoelectric material to generate electricity, has reached the purpose that improves energy utilization rate, energy saving and protection atmosphere environment.

For achieving the above object, the embodiment of the invention provides a kind of method and system from natural energy to the quick air feed of compressed-air power car that utilize, comprise a kind of method from natural energy to the quick air feed of compressed-air power car that utilize, it is characterized in that: this method adopts electricity network, air compressor unit, the aerating subtense angle, and solar energy power generating subtense angle and/or wind energy power subtense angle, battery pack, ac-dc conversion subtense angle and networking control subtense angle, implement the conversion and the control of natural energy, and realize quick air feed to the compressed-air power automobile, this method is carried out following steps:

(1) utilizes solar energy power generating subtense angle and/or wind energy power subtense angle that solar energy and/or wind energy are transformed into direct current, and be stored in the described battery pack;

(2) the networking control subtense angle detects solar energy power generating subtense angle and/or the working state of wind energy power subtense angle and the storing electricity of battery pack; If solar energy power generating subtense angle and/or wind energy power subtense angle are in the storing electricity of normal working and battery pack when reaching threshold value, execution in step (3); If solar energy power generating subtense angle and/or wind energy power subtense angle are in abnormal operating state, when perhaps the electric weight of battery pack storage is lower than threshold value, execution in step (4);

(3) networking control subtense angle instruction ac-dc conversion subtense angle is transformed into Ac with the direct current of battery pack storage and exports air compressor unit to, and incorporates Ac into utility grid simultaneously, execution in step (5);

(4) networking control subtense angle instruction ac-dc conversion subtense angle exports the Ac of utility grid to air compressor unit, and simultaneously Ac is transformed into direct current and exports battery pack to, execution in step (5);

(5) when remaining inflated compressed air power vehicle stop charge station, the networking control subtense angle starts the aerating subtense angle;

(6) the aerating subtense angle detects the pressure information of air compressor unit output and generates the fast aeration instruction;

(7) air compressor unit is finished the quick air feed to the compressed-air power automobile, and the aerating subtense angle shows inflation information, checks for staff and client.

Method of the present invention, in the described step (1), the wind energy power subtense angle is transformed into Ac with wind energy, and is stored in the described battery pack through rectifying device.

Method of the present invention, in the described step (3), the networking control subtense angle generates first control command, and first control command is sent to the DC/AC transducer of ac-dc conversion subtense angle, and the DC/AC transducer is transformed into Ac with the direct current of battery pack storage.

Method of the present invention, in the described step (4), the networking control subtense angle generates second control command, and second control command is sent to the AC/DC transducer of ac-dc conversion subtense angle, and the AC/DC transducer is transformed into direct current with the Ac of utility grid.

Method of the present invention, in the described step (6), the aerating subtense angle is carried out following steps:

(61) the Pressure testing module of aerating subtense angle detects the pressure information of air compressor unit output;

(62) the Pressure testing module becomes Frame with the pressure information that detects according to set protocol encapsulation, is sent to computer control module;

(63) computer control module generates the ventilating control instruction by the signal transmitting module of aerating subtense angle by this Frame;

(64) instruction sending module of aerating subtense angle becomes Frame with the ventilating control instruction according to set protocol encapsulation, is sent to the inflator module of aerating subtense angle;

(65) inflator module will be instructed and be sent the fast aeration instruction that Frame that mould sends is converted to the air automobile and export air compressor unit to.

For achieving the above object, the embodiment of the invention provides a kind of system that utilizes natural energy to the quick air feed of compressed-air power car, comprise solar energy power generating subtense angle and/or wind energy power subtense angle, electricity network, battery pack and air compressor unit, it is characterized in that: also comprise networking control subtense angle, ac-dc conversion subtense angle and aerating subtense angle, wherein:

Solar energy power generating subtense angle or wind energy power subtense angle are used for luminous energy or wind energy are transformed into direct current;

Battery pack is used to store above-mentioned direct current energy;

Utility grid is used to provide ac power supply;

The networking control subtense angle, be used to detect the working state of current solar energy power generating subtense angle or wind energy power subtense angle and the storing electricity of battery pack, and send first control command or second control command to the ac-dc conversion subtense angle according to testing result;

The ac-dc conversion subtense angle, be used for being transformed into Ac and export air compressor unit to according to the direct current that first control command is stored battery pack, and incorporate Ac into utility grid, or export the Ac that utility grid provides to air compressor unit, and simultaneously Ac is transformed into direct current and exports battery pack to according to second control command;

Air compressor unit is used for making and the store compressed air;

The aerating subtense angle is used for the compressed-air power automobile is carried out fast aeration and shows the inflation information that supplies staff and client to check;

Solar energy power generating subtense angle and/or wind energy power subtense angle link to each other respectively with the networking control subtense angle with battery pack, electricity network links to each other respectively with the ac-dc conversion subtense angle with the networking control subtense angle, the ac-dc conversion subtense angle links to each other respectively with the aerating subtense angle with air compressor unit, and air compressor unit links to each other with the aerating subtense angle.

System of the present invention, described solar energy power generating subtense angle comprises that further solar-energy photo-voltaic cell array and counnter attack fill diode, counnter attack is filled diode and is connected by feeder with the solar-energy photo-voltaic cell array, be used for the direct current that the solar-energy photo-voltaic cell array obtains is charged into battery pack, and prevent that battery pack is to 11 reverse chargings of solar-energy photo-voltaic cell array; The wind energy power subtense angle further comprises wind electricity generating system array and rectifying device, and the Ac that rectifying device is used for that the wind electricity generating system array is sent carries out rectification to be handled, and the direct current after will handling is stored in the battery pack.

System of the present invention, the ac-dc conversion subtense angle further comprises DC/AC transducer and AC/DC transducer, the DC/AC transducer links to each other respectively with first transmitting element, battery pack, electricity network and air compressor unit, and the AC/DC transducer links to each other respectively with second transmitting element, electricity network, battery pack and air compressor unit.

System of the present invention, described networking control subtense angle further comprises detection unit, first transmitting element and second transmitting element, detection unit fills diode with counnter attack and links to each other respectively with battery pack, and detection unit is used to detect the working state of current solar-energy photo-voltaic cell array or wind electricity generating system array and the electric weight of battery pack storage; First transmitting element is used for generating first control command when the storing electricity that solar-energy photo-voltaic cell array or wind electricity generating system array are in normal working and battery pack reaches pre-set threshold; Second transmitting element is used for generating second control command when the electric weight that solar-energy photo-voltaic cell array or wind electricity generating system array are in abnormal operating state or battery pack storage is lower than this threshold value.

System of the present invention, wherein the aerating subtense angle further comprise computer control module and and its Pressure testing module that links to each other respectively, signal transmitting module, instruction sending module, inflator module and terminal display modular, wherein: the Pressure testing module be used to detect air compressor unit pressure information; Signal transmitting module is used for described pressure information is become Frame according to set protocol encapsulation, is sent to computer control module; Computer control module is used for generating the ventilating control instruction according to the Frame of described pressure information; Instruction sending module is used for the ventilating control instruction of described computer control module is become Frame according to set protocol encapsulation, is sent to inflator module; Inflator module is used for the Frame of described ventilating control instruction is converted to operational order, and the air cylinder for the treatment of the inflated compressed air power vehicle carries out fast aeration, and stops inflation according to described operational order; The terminal display modular is used to show current inflation information, checks for staff and client.

System of the present invention, described air compressor unit further comprises centralized control system, air compressor, gas holder, cooling driers and captation, wherein: air compressor is connected with gas holder by air duct; Gas holder is connected with cooling driers by air duct; Cooling driers is used for steam, oil and the dust of purification of compressed air, is connected by air duct with the aerating subtense angle; Captation is connected by aqueduct respectively with air compressor, gas holder, cooling driers and aerating subtense angle, the water that is produced when being used to collect air compressor, gas holder, cooling driers and aerating subsystem work; Centralized control system links to each other by feeder respectively with air compressor, gas holder and cooling driers, is used for air compressor unit, gas holder and cooling driers are monitored and the faut detection warning.

System of the present invention, described captation links to each other with the network of rivers from the beginning, is used for filtering and being delivered to catchmenting from the beginning the network of rivers and uses for the user.

The present invention utilizes the method and system of natural energy to the quick air feed of compressed-air power car, by solar energy power generating or by wind energy power natural energy being converted to power storage in battery pack, is that compressed-air power automobile fast aeration is used for air compressor unit.Because system also links to each other with utility grid, when daytime weather fine, when the solar energy power generating electric weight is sufficient, or wind-force is bigger, when the wind energy power electric weight is sufficient, unnecessary electric weight can be incorporated into utility grid for other loads uses.When night or daytime being rainy weather, or wind-force hour, and the Ac of utility grid can be delivered to air compressor unit is that compressed-air power automobile fast aeration is used, and complements one another.When the work of the air compressor unit of system, also the water of its generation can be filtered and enter the user in the network of rivers from the beginning.These method and system have realized reliablely and stablely utilizing natural energy to the quick air feed of compressed-air power automobile, have reduced the dependence to non-renewable energy resources such as oil, coals, have alleviated energy crisis, have solved water shortage problem, have protected atmosphere environment.

Description of drawings

Fig. 1 is the skeleton diagram that utilizes natural energy to the quick air supply system of compressed-air power car of the present invention;

Fig. 2 is the flow chart that utilizes solar energy and/or wind energy to the quick air supply method of compressed-air power car of the present invention.

Embodiment

Below in conjunction with accompanying drawing the natural energy that utilizes of the present invention is described in detail to the embodiment of the method and system of the quick air feed of compressed-air power car.

With reference to figure 1, the present invention utilizes the system of natural energy to the quick air feed of compressed-air power car, comprising:

Solar energy power generating subtense angle 1 is used for luminous energy is transformed into direct current;

Battery pack 5 is used to store above-mentioned direct current energy;

Utility grid 7 is used to provide ac power supply;

Networking control subtense angle 2 is used to detect the working state of current solar energy power generating subtense angle 1 and the storing electricity of battery pack 5, and sends first control command or second control command according to testing result to ac-dc conversion subtense angle 3;

Ac-dc conversion subtense angle 3, be used for being transformed into Ac and export air compressor unit to according to the direct current that first control command is stored battery pack, and incorporate Ac into utility grid, or export the Ac that utility grid provides to air compressor unit, and simultaneously Ac is transformed into direct current and exports battery pack to according to second control command;

Air compressor unit 6 is used for making and store compressed air and catchmenting;

Aerating subtense angle 4 is used for the compressed-air power automobile is carried out fast aeration and shows the inflation information that supplies staff and client to check;

Solar energy power generating subtense angle 1 links to each other respectively with networking control subtense angle 2 with battery pack 5, electricity network 7 links to each other respectively with ac-dc conversion subtense angle 3 with networking control subtense angle 2, ac-dc conversion subtense angle 3 links to each other respectively with the aerating subtense angle with air compressor unit 6, and air compressor unit 6 links to each other with aerating subtense angle 4.

Solar energy power generating subtense angle 1 comprises that solar-energy photo-voltaic cell array 11 and counnter attack fill diode 12, counnter attack is filled diode 12 and solar-energy photo-voltaic cell array 11 and is connected by feeder, be used for the direct current that solar-energy photo-voltaic cell array 11 obtains is charged into battery pack 5, and prevent that battery pack 5 is to 11 reverse chargings of solar-energy photo-voltaic cell array.

Ac-dc conversion subtense angle 3 comprises DC/AC transducer 31 and AC/DC transducer, DC/AC transducer 31 links to each other respectively with first transmitting element 22, battery pack 5, electricity network 7 and air compressor unit 6, and the AC/DC transducer links to each other respectively with second transmitting element 23, electricity network 7, battery pack 5 and air compressor unit 6.

Networking control subtense angle 2 comprises detection unit 21, first transmitting element 22 and second transmitting element 23, detection unit 21 fills diode 12 with counnter attack and links to each other respectively with battery pack 5, and detection unit 21 is used to detect the working state of current solar-energy photo-voltaic cell array 11 and the electric weight of battery pack 5 storages; First transmitting element 22 is used for generating first control command when the storing electricity that solar-energy photo-voltaic cell array 11 is in normal working and battery pack 5 reaches pre-set threshold; Second transmitting element 23 is used for generating second control command when the electric weight that solar-energy photo-voltaic cell array 11 is in 5 storages of abnormal operating state or battery pack is lower than this threshold value.

Aerating subtense angle 4 comprises that computer control module 43 reaches and its Pressure testing module 45 that links to each other respectively, signal transmitting module 44, instruction sending module 42, inflator module 41 and terminal display modular 46, and wherein: Pressure testing module 45 is used to detect the pressure information of air compressor unit 6; Signal transmitting module 44 is used for described pressure information is become Frame according to set protocol encapsulation, is sent to computer control module 43; Computer control module 43 is used for generating the ventilating control instruction according to the Frame of pressure information; Instruction sending module 42 is used for the ventilating control instruction of described computer control module 43 is become Frame according to set protocol encapsulation, is sent to inflator module 41; Inflator module 41 is used for the Frame of ventilating control instruction is converted to operational order, and the air cylinder for the treatment of the inflated compressed air power vehicle carries out fast aeration, and stops inflation according to operational order; Terminal display modular 46 is used to show current inflation information, checks for staff and client.

Air compressor unit 6 comprises centralized control system 64, air compressor 61, gas holder 62, cooling driers 65 and captation 63, and wherein: air compressor 61 is connected with gas holder 62 by air duct; Gas holder 62 is connected with cooling driers 65 by air duct; Cooling driers 65 is used for steam, oil and the dust of purification of compressed air, is connected by air duct with aerating subtense angle 4; Captation 63 is connected by aqueduct respectively with air compressor 61, gas holder 62, cooling driers 65 and aerating subtense angle 4, is used to collect the water that is produced when air compressor 61, gas holder 62, cooling driers 65 and aerating subtense angle 4 are worked; Centralized control system 64 links to each other by feeder respectively with air compressor 61, gas holder 62 and cooling driers 65, is used for air compressor unit 6, gas holder 62 and cooling driers 65 are monitored and the faut detection warning.Captation 63 links to each other with the network of rivers from the beginning, is used for filtering and being delivered to catchmenting from the beginning the network of rivers and uses for the user.

Utilize wind energy in the system of compressed-air power automobile air feed, solar energy power generating subtense angle 1 to be replaced with wind energy power subtense angle 1 ' at the above-mentioned solar energy that utilizes to the system of the quick air feed of compressed-air power automobile, solar-energy photo-voltaic cell array 11 is replaced with wind electricity generating system array 11 ', diode 12 is filled in counnter attack replace with rectifying device 12 ', wind electricity generating system array 11 ' is used for wind energy is transformed into Ac; The Ac that rectifying device 12 ' is used for that wind electricity generating system array 11 ' is sent carries out rectification to be handled, and the direct current after will handling is stored in the battery pack 5.This just can constitute a kind of system that utilizes wind energy to the quick air feed of compressed-air power automobile, can realize same goal of the invention, does not repeat them here, and solar energy power generating subtense angle 1 also can be worked simultaneously with wind energy power subtense angle 1 '.

With reference to figure 2, the present invention utilizes the method for natural energy to the quick air feed of compressed-air power car, this method adopts electricity network 7, air compressor unit 6, aerating subtense angle 4, and solar energy power generating subtense angle 1, battery pack 5, ac-dc conversion subtense angle 3 and networking control subtense angle 2, implement the conversion and the control of natural energy, and realize quick air feed to the compressed-air power automobile, the step that this method is carried out is:

(1) utilizes solar energy power generating subtense angle 1 that solar energy and/or wind energy are transformed into direct current, and be stored in the described battery pack 5.(with reference to T301 among the figure 2)

(2) networking control subtense angle 2 detects solar energy power generating subtense angle 1 and/or the working state of wind energy power subtense angle 1 ' and the storing electricity of battery pack 5; If solar energy power generating subtense angle 1 and/or wind energy power subtense angle 1 ' are in the storing electricity of normal working and battery pack 5 when reaching threshold value, execution in step (3); If solar energy power generating subtense angle 1 and/or wind energy power subtense angle 1 ' are in abnormal operating state, when perhaps the electric weight of battery pack 5 storages is lower than threshold value, execution in step (4).(with reference among the figure 2 302)

(3) networking control subtense angle 2 generates first control command, and first control command is sent to the DC/AC transducer of ac-dc conversion subtense angle 3, the direct current that the DC/AC transducer is stored battery pack 5 is transformed into Ac and exports air compressor unit 6 to, and incorporate Ac into utility grid simultaneously, execution in step (5).(with reference among the figure 2 303,304,305)

(4) networking control subtense angle 2 generates second control command, and second control command is sent to the AC/DC transducer of ac-dc conversion subtense angle 3, the AC/DC transducer is transformed into direct current with the Ac of utility grid and exports battery pack 5 to, and export the Ac of utility grid to air compressor unit 6, execution in step (5) simultaneously.(with reference among the figure 2 303 ', 304 ', 305 ')

(5) when remaining inflated compressed air power vehicle stop charge station, networking control subtense angle 2 starts aerating subtense angles 4; (with reference among the figure 2 306)

(6) aerating subtense angle 4 detects the pressure information of air compressor unit 6 outputs and generates the fast aeration instruction, and aerating subtense angle 4 is carried out following steps:

(61) the Pressure testing module 45 of aerating subtense angle 4 detects the pressure information of air compressor unit 6 outputs; (with reference among the figure 2 306)

(62) Pressure testing module 45 becomes Frame with the pressure information that detects according to set protocol encapsulation, is sent to computer control module; (with reference among the figure 2 307)

(63) computer control module 43 generates the ventilating control instruction by the signal transmitting module of aerating subtense angle 4 by this Frame; (with reference among the figure 2 308)

(64) instruction sending module 42 of aerating subtense angle 4 becomes Frame with the ventilating control instruction according to set protocol encapsulation, is sent to the inflator module 41 of aerating subtense angle 4; (with reference among the figure 2 309)

(65) inflator module 41 will be instructed and be sent the fast aeration instruction that Frame that mould sends is converted to the air automobile and export air compressor unit 6 to.(with reference among the figure 2 310)

(7) air compressor unit 6 is finished the quick air feed to the compressed-air power automobile, and aerating subtense angle 4 shows inflation information, checks for staff and client.(with reference among the figure 2 311)

The present invention utilizes the method for wind energy to the quick air feed of compressed-air power car, this method adopts electricity network 7, air compressor unit 6, aerating subtense angle 4, and wind energy power subtense angle 1 ', battery pack 5, ac-dc conversion subtense angle 3 and networking control subtense angle 2, implement the conversion and the control of natural energy, and realization is to the quick air feed of compressed-air power automobile, the step that this method is carried out be at the above-mentioned solar energy that utilizes in the step of the quick air feed of compressed-air power car, with reference to the F311 among the figure 2, solar energy power generating subtense angle 1 is replaced with wind energy power subtense angle 1 ', promptly wind energy is transformed into Ac by wind energy power subtense angle 1 ', and be stored in the described battery pack 5 through rectifying device, other steps are identical.

Embodiments of the invention are converted to power storage by solar energy power generating or by wind energy power with natural energy, for air compressor unit is that compressed-air power automobile fast aeration is used, when the work of the air compressor unit of system, also the water of its generation can be filtered and enter the user in the network of rivers from the beginning.Because system also links to each other with utility grid, when daytime weather fine, when the solar energy power generating electric weight is sufficient, or wind-force is bigger, when the wind energy power electric weight is sufficient, unnecessary electric weight can be incorporated into utility grid and use for other loads, when night or daytime being rainy weather, or wind-force hour, and the Ac of utility grid can be delivered to air compressor unit is that compressed-air power automobile fast aeration is used, and complements one another.This system also can combine with traditional gas station or charging station form have inflation, the charge station of oiling, the multi-functional unification of charging.Therefore realized reliablely and stablely utilizing natural energy to the quick air feed of compressed-air power automobile, reduced dependence, alleviated energy crisis, solved water shortage problem, protected atmosphere environment non-renewable energy resources such as oil, coals.

Above embodiment is described preferred implementation of the present invention; be not that scope of the present invention is limited; design under the prerequisite of spirit not breaking away from the present invention; various distortion and improvement that the common engineers and technicians in related domain make technological scheme of the present invention all should fall in the definite protection domain of claims of the present invention.

Claims (12)

1, a kind of method from natural energy to the quick air feed of compressed-air power car that utilize, this method adopts electricity network (7), air compressor unit (6), aerating subtense angle (4), and solar energy power generating subtense angle (1) and/or wind energy power subtense angle (1 '), battery pack (5), ac-dc conversion subtense angle (3) and networking control subtense angle (2), implement the conversion and the control of natural energy, and realization is characterized in that to the quick air feed of compressed-air power automobile: this method is carried out following steps:

(1) utilizes described solar energy power generating subtense angle (1) and/or wind energy power subtense angle (1 ') that solar energy and/or wind energy are transformed into direct current, and be stored in the described battery pack (5);

(2) described networking control subtense angle (2) detects described solar energy power generating subtense angle (1) and/or the working state of wind energy power subtense angle (1 ') and the storing electricity of described battery pack (5); If described solar energy power generating subtense angle (1) and/or wind energy power subtense angle (1 ') are in the storing electricity of normal working and described battery pack (5) when reaching threshold value, execution in step (3); If described solar energy power generating subtense angle (1) and/or wind energy power subtense angle (1 ') are in abnormal operating state, when the electric weight of perhaps described battery pack (5) storage is lower than threshold value, execution in step (4);

(3) the described ac-dc conversion subtense angle of described networking control subtense angle (2) instruction (3) is transformed into Ac with the direct current of described battery pack (5) storage and exports described air compressor unit (6) to, and simultaneously Ac is incorporated into described utility grid, execution in step (5);

(4) described networking control subtense angle (2) the described ac-dc conversion subtense angle of instruction (3) exports the Ac of described utility grid to described air compressor unit (6), and simultaneously Ac is transformed into direct current and exports described battery pack (5) to, execution in step (5);

(5) when remaining inflated compressed air power vehicle stop charge station, described networking control subtense angle (2) starts described aerating subtense angle (4);

(6) described aerating subtense angle (4) detects the pressure information of described air compressor unit (6) output and generates the fast aeration instruction;

(7) described air compressor unit (6) is finished the quick air feed to the compressed-air power automobile, and described aerating subtense angle (4) shows inflation information, checks for staff and client.

2, method according to claim 1 is characterized in that, in the described step (1), described wind energy power subtense angle (1 ') is transformed into Ac with wind energy, and is stored in the described battery pack (5) through rectifying device.

3, method according to claim 2, it is characterized in that, in the described step (3), described networking control subtense angle (2) generates first control command, and described first control command is sent to the DC/AC transducer (31) of described ac-dc conversion subtense angle (3), described DC/AC transducer (31) is transformed into Ac with the direct current of described battery pack (5) storage.

4, method according to claim 3, it is characterized in that, in the described step (4), described networking control subtense angle (2) generates second control command, and described second control command is sent to the AC/DC transducer of described ac-dc conversion subtense angle (3), described AC/DC transducer (32) is transformed into direct current with the Ac of described utility grid.

5, method according to claim 4 is characterized in that, in the described step (6), described aerating subtense angle (4) is carried out following steps:

(61) the Pressure testing module of described aerating subtense angle (4) detects the pressure information of described air compressor unit (6) output;

(62) described Pressure testing module becomes Frame with the pressure information that detects according to set protocol encapsulation, is sent to computer control module;

(63) described computer control module generates the ventilating control instruction by the signal transmitting module of described aerating subtense angle (4) by this Frame;

(64) instruction sending module of described aerating subtense angle (4) becomes Frame with described ventilating control instruction according to set protocol encapsulation, is sent to the inflator module of described aerating subtense angle (4);

(65) described inflator module will be instructed and be sent the fast aeration instruction that Frame that mould sends is converted to the air automobile and export described air compressor unit (6) to.

6, a kind of system that utilizes natural energy to the quick air feed of compressed-air power car, comprise solar energy power generating subtense angle (1) and/or wind energy power subtense angle (1 '), electricity network (7), battery pack (5) and air compressor unit (6), it is characterized in that: also comprise networking control subtense angle (2), ac-dc conversion subtense angle (3) and aerating subtense angle (4), wherein:

Described solar energy power generating subtense angle (1) or wind energy power subtense angle (1 ') are used for luminous energy or wind energy are transformed into direct current;

Described battery pack (5) is used to store above-mentioned direct current energy;

Described utility grid is used to provide ac power supply;

Described networking control subtense angle (2), be used to detect the working state of described solar energy power generating subtense angle (1) or wind energy power subtense angle (1 ') and the storing electricity of described battery pack (5), and send first control command or second control command to described ac-dc conversion subtense angle (3) according to testing result;

Described ac-dc conversion subtense angle (3), be used for being transformed into Ac and export described air compressor unit (6) to according to the direct current that described first control command is stored described battery pack (5), and incorporate Ac into described utility grid, or export described air compressor unit (6) to, and simultaneously Ac is transformed into direct current and exports described battery pack (5) to according to the Ac that described second control command provides described utility grid;

Described air compressor unit (6) is used for making and the store compressed air;

Described aerating subtense angle (4) is used for the compressed-air power automobile is carried out fast aeration and shows the inflation information that supplies staff and client to check;

Described solar energy power generating subtense angle (1) and/or wind energy power subtense angle (1 ') link to each other respectively with networking control subtense angle (2) with described battery pack (5), described electricity network (7) links to each other respectively with described ac-dc conversion subtense angle (3) with networking control subtense angle (2), described ac-dc conversion subtense angle (3) links to each other respectively with aerating subtense angle (4) with described air compressor unit (6), and described air compressor unit (6) links to each other with described aerating subtense angle (4).

7, system according to claim 6, it is characterized in that, described solar energy power generating subtense angle (1) comprises that further solar-energy photo-voltaic cell array (11) and counnter attack fill diode (12 '), described counnter attack is filled diode (12 ') and is connected by feeder with described solar-energy photo-voltaic cell array (11), be used for the direct current that described solar-energy photo-voltaic cell array (11) obtains is charged into described battery pack (5), and prevent that described battery pack (5) is to described solar-energy photo-voltaic cell array (11) reverse charging; Described wind energy power subtense angle (1 ') further comprises wind electricity generating system array (11 ') and rectifying device (12 '), the Ac that described rectifying device (12 ') is used for that described wind electricity generating system array (11 ') is sent carries out rectification to be handled, and the direct current after will handling is stored in the described battery pack (5).

8, system according to claim 7, it is characterized in that, described ac-dc conversion subtense angle (3) further comprises DC/AC transducer (31) and AC/DC transducer (32), described DC/AC transducer (31) links to each other respectively with described first transmitting element (22), battery pack (5), electricity network (7) and air compressor unit (6), and described AC/DC transducer (32) links to each other respectively with described second transmitting element (23), electricity network (7), battery pack (5) and air compressor unit (6).

9, system according to claim 8, it is characterized in that, described networking control subtense angle (2) further comprises detection unit (21), first transmitting element (22) and second transmitting element (32), described detection unit (21) fills diode (12 ') with described counnter attack and links to each other respectively with battery pack (5), is used to detect the working state of described solar-energy photo-voltaic cell array (11) or wind electricity generating system array (11 ') and the electric weight of described battery pack (5) storage; Described first transmitting element (22) is used for generating first control command when the storing electricity that described solar-energy photo-voltaic cell array (11) or wind electricity generating system array (11 ') are in normal working and described battery pack (5) reaches pre-set threshold; Described second transmitting element (32) is used for generating second control command when the electric weight that described solar-energy photo-voltaic cell array (11) or wind electricity generating system array (11 ') are in abnormal operating state or described battery pack (5) storage is lower than this threshold value.

10, system according to claim 9, it is characterized in that, wherein aerating subtense angle (4) comprises that further computer control module (43) reaches and its Pressure testing module (45) that links to each other respectively, signal transmitting module (44), instruction sending module (42), inflator module (41) and terminal display modular (46), and wherein: described Pressure testing module (45) is used to detect the pressure information of described air compressor unit (6); Described signal transmitting module (44) is used for described pressure information is become Frame according to set protocol encapsulation, is sent to described computer control module (43); Described computer control module (43) is used for generating the ventilating control instruction according to the Frame of described pressure information; Described instruction sending module (42) is used for the ventilating control instruction of described computer control module (43) is become Frame according to set protocol encapsulation, is sent to described inflator module (41); Described inflator module (41) is used for the Frame of described ventilating control instruction is converted to operational order, and the air cylinder for the treatment of the inflated compressed air power vehicle carries out fast aeration, and stops inflation according to described operational order; Described terminal display modular (46) is used to show current inflation information, checks for staff and client.

11, system according to claim 10, it is characterized in that, described air compressor unit (6) further comprises centralized control system (64), air compressor (61), gas holder (62), cooling driers (65) and captation (63), and wherein: described air compressor (61) is connected with described gas holder (62) by air duct; Described gas holder (62) is connected with described cooling driers (65) by air duct; Described cooling driers (65) is used for steam, oil and the dust of purification of compressed air, is connected by air duct with described aerating subtense angle (4); Described captation (63) is connected by aqueduct respectively with described air compressor (61), gas holder (62), cooling driers (65) and aerating subtense angle (4), is used to collect the water that is produced when described air compressor (61), gas holder (62), cooling driers (65) and aerating subtense angle (4) are worked; Described centralized control system (64) links to each other by feeder respectively with described air compressor (61), gas holder (62) and cooling driers (65), is used for described air compressor unit (6), gas holder (62) and cooling driers (65) monitored with faut detection reporting to the police.

12, system according to claim 11 is characterized in that, described captation (63) links to each other with the network of rivers from the beginning, is used for filtering and being delivered to the described network of rivers from the beginning catchmenting using for the user.

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