CN107492945A - Charging station on a kind of self-service solar energy water - Google Patents

Abstract

The present invention relates to charging station on a kind of self-service solar energy water, electric current caused by solar panel inputs energy storage after photovoltaic cable input current control circuit is adjusted, and the electric current of energy-storage battery output is allocated as whole device through current control circuit and provides electric energy；The charging operations software waterborne that crewman is opened on mobile phone carries out user name login, berth information and the user ship type information matches suitable berth of the charge controller waterborne in charging zone waterborne in the area of station, and course line in berth information and station is sent to the charging operations software waterborne on crewman's mobile phone, simultaneously, charge controller waterborne sends power supply command information to current control circuit, electric energy in energy-storage battery is powered by current control circuit by power transmission vehicle controller of the power transmission cable into power transmission car, and power transmission car enters charging work pattern waterborne；Crewman, which drives course line in the station that is provided according to charging operations software waterborne of electric ship and drives to berthing assignment, to berth operation of charging in water-filling of going forward side by side.

Description

Charging station on a kind of self-service solar energy water

Technical field

The present invention relates to charging station on a kind of self-service solar energy water, belong to charging applied technical field waterborne.

Background technology

With the development of science and technology, energy-storage battery performance be improved, also increasingly faster, the electric ship of charging rate Development make rapid progress, still, due to the scarcity of electrically-charging equipment waterborne, electric ship can not carry out charging waterborne in time, waterborne to fill The deficiency of electric facility, the use of electric ship is limited, prevent the popularization and application of electric ship from smoothly implementing；Electric ship because can not and Shi Jinhang charging operations waterborne, and the traveling of long range is difficult to, meanwhile, remote power free location is passed through in some navigation channels, Also the obstacle for building charging pile waterborne is turned into；At present, these problems annoying promoting the use of for electric ship, also have no idea to carry out Solve.

The content of the invention

It is an object of the invention to overcome deficiency of the prior art, there is provided charging station on a kind of self-service solar energy water. Charging station can be established in navigation channel according to the characteristics of the full electric voyage and length for heading of electric ship on a kind of self-service solar energy water The place of bank setting, charging operation waterborne is provided to travel the electric ship in navigation channel, electric ship can carry out waterborne in time Charging, comes into operation, carries out the traveling of long range, thus cleared away the obstacle that electric ship is promoted the use of, be advantageous to electric ship Promote the use of；Meanwhile solar cell power generation is employed as power supply source, also can in navigation channel by remote power free location Build and come into operation.

What the main technical schemes of the present invention were realized in：

By embankment 1, support column 2, crossbeam 3, vertical beam 4, solar bracket 5, solar panel 6, guide rail 7, power transmission car 8, control Cabinet 21 processed, current control circuit 22, charge controller waterborne 23, antenna second 24, energy-storage battery 25, photovoltaic cable 26, conductor wire 27 and power transmission cable 28 collectively constitute, power transmission car 8 is by vehicle body 9, power transmission vehicle controller 10, antenna first 11, traveling controller 12, OK Walking apparatus 13, road wheel 14, charging circuit 15, drum controller 16, terminal box 17, drum 18, charging cable 19 and charging gun 20 collectively constitute；Two parallel embankments 1 are established in the area of station, are established on the water surface between two parallel embankments 1 Charging zone 31 waterborne, the support frame being made up of support column 2, crossbeam 3 and vertical beam 4 is established on two parallel embankments 1, Solar bracket 5 is installed on the crossbeam 3 and vertical beam 4 at the top of support frame, solar-electricity is installed above solar bracket 5 Pond plate 6, guide rail 7 is installed in the lower section of adjacent crossbeam 3, power transmission car 8 is installed above guide rail 7, switch board 21 is arranged on At the levee crown of embankment 1, current control circuit 22, charge controller waterborne 23 and energy-storage battery 25 are arranged on the interior of switch board 21 Portion, antenna second 24 are installed on the water above charge controller 23, and power transmission vehicle controller is provided with the vehicle body 9 of power transmission car 8 10th, traveling controller 12 and charging circuit 15, antenna first 11 is arranged on above power transmission vehicle controller 10, in the car of power transmission car 8 The top of body 9 is provided with running gear 13, and road wheel 14 is provided with running gear 13, is installed in the bottom of vehicle body 9 of power transmission car 8 Wired disk controller 16, terminal box 17 and drum 18 are installed in drum controller 16；Solar panel 6 passes through photovoltaic cable 26 are connected with current control circuit 22, and charge controller 23 waterborne is connected by conductor wire 27 with current control circuit 22, electric current Control circuit 22 is connected by conductor wire 27 with energy-storage battery 25, and current control circuit 22 passes through power transmission cable 28 and power transmission car control Device 10 processed connects, and power transmission vehicle controller 10 passes through conductor wire 27 and traveling controller 12, charging circuit 15 and drum controller 16 Connection, traveling controller 12 are connected by conductor wire 27 with running gear 13, and charging circuit 15 passes through conductor wire 27 and terminal box 17 connections, one end thereto 17, the other end of charging cable 19 of the charging cable 19 that disk is placed in drum 18 are provided with Charging gun 20.

Guide rail 7 installed in the lower section of crossbeam 3 with establishing two parallel embankments 1 in area of standing is in parallel between each other Row；Solar panel 6 is single-crystalline-silicon solar-cell panel or polycrystalline silicon solar panels.

Compared with prior art, the beneficial effects of the invention are as follows：Charging station can be established on a kind of self-service solar energy water In the location of navigation channel bank setting, charging operation waterborne is provided to travel electric ship in navigation channel, having electric ship can be with The facility of charging waterborne is carried out, charging waterborne can be carried out in time, come into operation, be advantageous to promoting the use of for electric ship；Meanwhile Solar cell power generation is employed as power supply source, passes through remote power free place in course line, can also establish and come into operation, The self-service charging modes waterborne of unmanned control used, can also save operation cost, and the popularization for being advantageous to charging station waterborne is real Apply.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the implementation view of the present invention.

Fig. 3 is the power transmission bassinet structure schematic diagram of the present invention.

Embodiment

The present invention by embankment, support column, crossbeam, vertical beam, solar bracket, solar panel, guide rail, power transmission car, Switch board, current control circuit, charge controller waterborne, antenna second, energy-storage battery, photovoltaic cable, conductor wire and power transmission cable Collectively constitute, power transmission car is by vehicle body, power transmission vehicle controller, antenna first, traveling controller, running gear, road wheel, charging electricity Road, drum controller, terminal box, drum, charging cable and charging gun collectively constitute；Electric current is through light caused by solar panel Luff cable input current control circuit inputs energy storage after being adjusted, the electric current of energy-storage battery output is through current control Circuit is allocated as whole device and provides electric energy；Crewman opens the charging operations software waterborne on mobile phone, carries out user name login, water Berth information and the user ship type information matches of the upper charge controller in charging zone waterborne in the area of station go out suitable berth, And course line in berth information and station is sent to the charging operations software waterborne on crewman's mobile phone, meanwhile, charge controller waterborne Power supply command information is sent to current control circuit, current control circuit is by the electric energy in energy-storage battery by power transmission cable to sending Power transmission vehicle controller in electric car is powered, and power transmission car enters charging work pattern waterborne, and then, charge controller waterborne will Berth information is sent to the power transmission vehicle controller for the power transmission car that the berth is matched, and power transmission vehicle controller is by conductor wire to walking The electric current of controller conveying setting flow direction, makes power transmission car be driven on guide rail above the berth；The electric ship root that crewman drives Course line drives to berthing assignment and berthed in the station provided according to charging operations software waterborne, and then, charging operations are soft on the water by crewman Operate charging gun on part to be declined, dropping to charging gun can be carried out on the position of charging waterborne, and at this moment, crewman will charge Rifle is inserted into the charge port of electric ship, then, crewman's information that the input of charging operations software starts to charge up on the water, power transmission car Controller conveys electric current according to command information to charging circuit, and charging circuit is adjusted by the program of setting to electric current, then Electric current is transferred into charging cable by conductor wire through terminal box, the charging gun on charging cable passes through filling on electric ship Power port charges to boat-carrying energy-storage battery.Charging station can be established in the setting of navigation channel bank on a kind of self-service solar energy water Place, charging operation waterborne is provided to travel the electric ship in navigation channel, setting for charging waterborne can be carried out by having electric ship Apply, charging waterborne can be carried out in time, come into operation, be advantageous to promoting the use of for electric ship；Meanwhile employ solar cell Generating is used as power supply source, passes through remote power free location in course line, can also establish and come into operation, and the unmanned control of use is certainly Formula charging modes waterborne are helped, operation cost can also be saved, the popularization for being advantageous to charging station waterborne is implemented.

The present invention will be further described with reference to the embodiment in accompanying drawing below：

Two parallel embankments 1 are established in the area of station, two parallel embankments 1 have the distance of setting, parallel at two Embankment 1 between the water surface on establish charging zone 31 waterborne, as shown in figure 1, on two parallel embankments 1 establish by propping up The support frame that dagger 2, crossbeam 3 and vertical beam 4 are formed, crossbeam 3 traverse the top with charging zone 31 waterborne；At the top of support frame Crossbeam 3 and vertical beam 4 on install solar bracket 5, solar panel 6, solar energy are installed above solar bracket 5 The array that cell panel 6 forms is connected by photovoltaic cable 26 with current control circuit 22；In the lower section of adjacent crossbeam 3, installation is led Rail 7, guide rail 7 are in arranged in parallel, sending on guide rail 7 between each other with establishing two parallel embankments 1 in the area of station Electric car 8 can move on guide rail 7；As shown in Fig. 2 switch board 21 is arranged at the levee crown of embankment 1, current control circuit 22nd, charge controller 23 and energy-storage battery 25 waterborne are arranged on the inside of switch board 21, and electric current caused by solar panel 6 passes through Photovoltaic cable 26 transfers to current control circuit 22, and current control circuit 22 is adjusted to electric current by the program of setting, then led to Conductor wire 27 is crossed to store electric current input energy-storage battery 25；Antenna second 24 is installed on the water above charge controller 23, waterborne Charge controller 23 is received or sent wireless instructions information by antenna second 24, and the command information to receiving is handled. As shown in figure 3, power transmission vehicle controller 10, traveling controller 12 and charging circuit 15, day are installed in the vehicle body 9 of power transmission car 8 Line first 11 is arranged on above power transmission vehicle controller 10, and power transmission vehicle controller 10 receives wireless instructions information by antenna first 11, Power transmission vehicle controller 10 is connected by conductor wire 27 with traveling controller 12, charging circuit 15 and drum controller 16；Power transmission car Controller 10 can convey the electric current of setting flow direction, the can control of traveling controller 12 by conductor wire 27 to traveling controller 12 The rotation direction of system road wheel 14 in the running gear 13 at the top of vehicle body 9 of power transmission car 8, the can band of running gear 13 Motor-car body 9 moves on guide rail 7 forward or backward；Drum controller 16, drum control are installed in the bottom of vehicle body 9 of power transmission car 8 Terminal box 17 and drum 18 are installed, drum controller 16 can be by the rotation side of the programme-control drum 18 of setting in device 16 processed To the charging cable 19 for allowing disk to be placed in drum 18 can downwards be discharged or entered by upward disk, to installed in charging cable 19 On charging gun 20 carry out the adjustment in height orientation；Wire fixer 29 can be installed on the shaft of support column 2, make photovoltaic cable 26 Positioning arrangement is carried out along shaft with power transmission cable 28, band wire fixer 30 is installed on guide rail 7, makes the power transmission cable of this section 28 can successfully followed by the preceding of power transmission car 8 and then extend or be bent downwardly with the retrogressing of power transmission car 8, in power transmission car 8 Also power supply is can guarantee that when being moved forward and backward along guide rail 7.When electric ship 32 needs to be charged, crewman opens waterborne on mobile phone Charging operations software, carries out user name login, and charge controller 23 waterborne receives radio signal by antenna second 24 and carried out Processing, after user name is verified, charge controller 23 waterborne according to the berth information in the area of station in charging zone 31 waterborne and User's ship type information matches go out suitable berth, and course line in berth information and station is sent to crewman by charge controller 23 waterborne Charging operations software waterborne on mobile phone, meanwhile, charge controller 23 waterborne sends power supply instruction letter to current control circuit 22 Breath, current control circuit 22 is by power transmission vehicle controller of the electric energy in energy-storage battery 25 by power transmission cable 28 into power transmission car 8 10 are powered, and power transmission car 8 enters charging work pattern waterborne, and then, berth information is sent to by charge controller 23 waterborne The power transmission vehicle controller 10 for the power transmission car 8 that the berth is matched, power transmission vehicle controller 10 receive aerogram by antenna first 11 Breath, and the RI radio intelligence to receiving is handled, power transmission vehicle controller 10 is defeated to traveling controller 12 by conductor wire 27 The electric current for sending setting to flow to, traveling controller 12 control road wheel 14 in running gear 13 to be rotated by the direction of setting, make power transmission Car 8 is driven on guide rail 7 above the berth；In the station that the electric ship 32 that crewman drives is provided according to charging operations software waterborne Course line drives to berthing assignment and berthed, and then, crewman operates charging gun 20 on the water and declined on charging operations software, power transmission Vehicle controller 10 conveys the electric current of setting according to command information to drum controller 16, and drum controller 16 controls drum 18 by setting Fixed direction is rotated, and the charging cable 19 for allowing disk to be placed in drum 18 is discharged downwards, makes to be arranged on filling on charging cable 19 Electric rifle 20, which drops to, to be carried out on the position of charging waterborne, and at this moment, charging gun 20 is inserted into the charging of electric ship 32 by crewman In mouth 33, then, crewman's information that the input of charging operations software starts to charge up on the water, power transmission vehicle controller 10 is believed according to instruction Cease to charging circuit 15 and convey electric current, charging circuit 15 is adjusted by the program of setting to electric current, then by electric current by leading Electric wire 27 transfers to charging cable 19 through terminal box 17, and the charging gun 20 for alloing to be arranged on charging cable 19 carries out charging work Industry, charging gun 20 are charged by the charge port 33 on electric ship 32 to boat-carrying energy-storage battery；After charging, crewman is filling Charging gun 20 is extracted at power port 33, then, crewman's information that charging operations software input charging finishes on the water, charging control waterborne Device 23 processed sends the instruction for charging and finishing and being resetted to power transmission vehicle controller 10 after the information that charging finishes is received Information, power transmission vehicle controller 10 finish the command information resetted according to charging, charging gun 20 are returned into operation to be charged Position after, control traveling controller 12 power transmission car 8 is sailed back on the position of operation to be charged, meanwhile, charge controller waterborne 23 information material in database, the account of the user send outbound course line and information of deducting fees after calculating is deducted fees In charging operations software waterborne on to crewman's mobile phone, crewman drives electric ship 32 and sails out of a kind of self-service sun by outbound course line The station area of energy charging station waterborne.

It is as follows now to enumerate embodiment：

Embodiment one：

Electric current caused by single-crystalline-silicon solar-cell panel inputs energy storage after photovoltaic cable input current control circuit is adjusted Battery storage, the electric current of energy-storage battery output are allocated as whole device through current control circuit and provide electric energy；Crewman opens mobile phone On charging operations software waterborne, carry out user name login, charge controller waterborne is according to the pool in the area of station in charging zone waterborne Position information and user's ship type information matches go out suitable berth, and course line in berth information and station is sent on crewman's mobile phone Charging operations software waterborne, meanwhile, charge controller waterborne to current control circuit send power supply command information, current control Electric energy in energy-storage battery is powered by circuit by power transmission vehicle controller of the power transmission cable into power transmission car, and power transmission car enters Charging work pattern waterborne；Course line drives to specified in the station that the electric ship that crewman drives provides according to charging operations software waterborne Berth is berthed, and then, crewman operates charging gun on the water and declined on charging operations software, charging gun is inserted into electricity by crewman In the charge port of dynamic ship, then, crewman's information that the input of charging operations software starts to charge up on the water, power transmission vehicle controller according to Command information conveys electric current to charging circuit, and charging circuit is adjusted to electric current by the program of setting, then passes through electric current Conductor wire transfers to charging cable through terminal box, and the charging gun on charging cable is by the charge port on electric ship to boat-carrying Energy-storage battery is charged.

Embodiment two：

Electric current caused by polycrystalline silicon solar panels inputs energy storage after photovoltaic cable input current control circuit is adjusted Battery storage, the electric current of energy-storage battery output are allocated as whole device through current control circuit and provide electric energy；Crewman opens mobile phone On charging operations software waterborne, carry out user name login, charge controller waterborne is according to the pool in the area of station in charging zone waterborne Position information and user's ship type information matches go out suitable berth, and course line in berth information and station is sent on crewman's mobile phone Charging operations software waterborne, meanwhile, charge controller waterborne to current control circuit send power supply command information, current control Electric energy in energy-storage battery is powered by circuit by power transmission vehicle controller of the power transmission cable into power transmission car, and power transmission car enters Charging work pattern waterborne；Course line drives to specified in the station that the electric ship that crewman drives provides according to charging operations software waterborne Berth is berthed, and then, crewman operates charging gun on the water and declined on charging operations software, charging gun is inserted into electricity by crewman In the charge port of dynamic ship, then, crewman's information that the input of charging operations software starts to charge up on the water, power transmission vehicle controller according to Command information conveys electric current to charging circuit, and charging circuit is adjusted to electric current by the program of setting, then passes through electric current Conductor wire transfers to charging cable through terminal box, and the charging gun on charging cable is by the charge port on electric ship to boat-carrying Energy-storage battery is charged.

Claims (2)

1. charging station on a kind of self-service solar energy water, it is characterized in that, by embankment（1）, support column（2）, crossbeam（3）, vertical beam （4）, solar bracket（5）, solar panel（6）, guide rail（7）, power transmission car（8）, switch board（21）, current control circuit （22）, charge controller waterborne（23）, antenna second（24）, energy-storage battery（25）, photovoltaic cable（26）, conductor wire（27）And transmission of electricity Cable（28）Collectively constitute, power transmission car（8）By vehicle body（9）, power transmission vehicle controller（10）, antenna first（11）, traveling controller （12）, running gear（13）, road wheel（14）, charging circuit（15）, drum controller（16）, terminal box（17）, drum（18）、 Charging cable（19）And charging gun（20）Collectively constitute；Two parallel embankments are established in the area of station（1）, it is parallel at two Embankment（1）Between the water surface on establish charging zone waterborne（31）, in two parallel embankments（1）Upper foundation is by support column （2）, crossbeam（3）And vertical beam（4）The support frame of composition, the crossbeam at the top of support frame（3）And vertical beam（4）The upper installation sun Can support（5）, in solar bracket（5）Above solar panel is installed（6）, in adjacent crossbeam（3）Lower section peace Fill guide rail（7）, in guide rail（7）Above power transmission car is installed（8）, switch board（21）Installed in embankment（1）Levee crown at, electricity Flow control circuit（22）, charge controller waterborne（23）And energy-storage battery（25）Installed in switch board（21）Inside, antenna second （24）Charge controller on the water is installed（23）Above, in power transmission car（8）Vehicle body（9）In power transmission vehicle controller is installed （10）, traveling controller（12）And charging circuit（15）, antenna first（11）Installed in power transmission vehicle controller（10）Above, sending Electric car（8）Vehicle body（9）Top is provided with running gear（13）, in running gear（13）In road wheel is installed（14）, sending Electric car（8）Vehicle body（9）Bottom is provided with drum controller（16）, drum controller（16）In terminal box is installed（17）And line Disk（18）；Solar panel（6）Pass through photovoltaic cable（26）With current control circuit（22）Connection, charge controller waterborne （23）Pass through conductor wire（27）With current control circuit（22）Connection, current control circuit（22）Pass through conductor wire（27）With energy storage Battery（25）Connection, current control circuit（22）Pass through power transmission cable（28）With power transmission vehicle controller（10）Connection, power transmission car control Device processed（10）Pass through conductor wire（27）With traveling controller（12）, charging circuit（15）With drum controller（16）Connection, walking Controller（12）Pass through conductor wire（27）With running gear（13）Connection, charging circuit（15）Pass through conductor wire（27）With terminal box （17）Connection, disk are placed on drum（18）In charging cable（19）One end thereto（17）, charging cable（19）It is another One end is provided with charging gun（20）；Described is arranged on crossbeam（3）The guide rail of lower section（7）Parallel with establishing two in the area of station Embankment（1）Between each other in arranged in parallel.

2. charging station on a kind of self-service solar energy water according to claim 1, it is characterized in that, described solar cell Plate（6）It is single-crystalline-silicon solar-cell panel or polycrystalline silicon solar panels.