CN106183879B - Offshore wind power station is by cable to the infrared charging pile electric supply installation on island - Google Patents

Abstract

Charging pile applied technical field is belonged to the infrared charging pile electric supply installation on island by cable the present invention relates to offshore wind power station.The bottom of pyramid wind power station is to provide the floating body of buoyancy, conductor wire is installed in its hollow middle part and top, controller and energy-storage battery, the air inlet that wind-force is blown on the side of power station, pass through middle part and top hollow in wind power station, blown out from top of tower air outlet, impeller above wind blows air outlet quickly rotates, wind-driven generator is driven to produce electric current, electric current passes through conductor wire, controller, energy-storage battery inputs submarine cable third, anti- seawater sealed terminal box second, submarine cable second, anti- seawater sealed terminal box first, submarine cable first, then input shunting power supply tower, it is divided into three strands of electric currents：Wherein first strand of electric current is powered by conductor wire to charging pile, is electric automobile service, and second strand of electric current is powered by conductor wire to thermal infrared imager, and the 3rd strand of electric current is powered by conductor wire to infrared guided ware.

Description

Offshore wind power station is by cable to the infrared charging pile electric supply installation on island

Technical field

Charging is belonged to the infrared charging pile electric supply installation on island by cable the present invention relates to offshore wind power station Stake applied technical field.

Background technology

Electric device overheat, overload, load unbalanced, line joint loosening or contact inside some electric automobile Bad, also there is crackle or fracture in internal mechanical part, and the electric automobile that above potential safety hazard be present is mingled in come to charge The centre of a large amount of electric automobiles of stake charging, if can not find that this part is present from a large amount of electric automobiles before charge The electric automobile of hidden danger, the charging electric vehicle of potential safety hazard to these still be present, it is most likely that cause on fire, short-circuit, burning Ruin, security incident occur.

The content of the invention

It is an object of the invention to overcome deficiency of the prior art, there is provided offshore wind power station is by cable to island On infrared charging pile electric supply installation.

Because part island power supply is difficult, it is necessary to first solve power supply source.There is abundant wind-force money on sea around island Source.The pyramid wind power station of our company's invention can provide enough buoyancy for a long time due to the floating body of its underpart, so Pyramid wind power station can float on the surface for a long time.Pyramid wind power station is combined into by four triangle sides Cone, four triangle sides each look onto east, south, west, north four direction, and the area of four triangle sides is equal , air inlet is opened up in the middle part of each triangle side, no matter how to rotate, has on pyramid wind-power electricity generation forefront surface The suitable wind-force of wind direction enters air inlet, in the top installation horizontal wind hair of the top of tower air outlet of pyramid wind power station Motor, the wind-force into air inlet are blown over the middle part and top of hollow pyramid wind power station, blown from top of tower air outlet Go out.The impeller for the wind blows horizontal wind power generator being blown out from top of tower air outlet quickly rotates, drives wind-power electricity generation Machine produces electric current, and electric current inputs submarine cable third by the inner conductive line, controller, energy-storage battery of pyramid wind power station To externally fed, electric current passes through submarine cable third, anti-seawater sealed terminal box second, submarine cable second, anti-seawater sealed terminal box First, submarine cable first input shunting power supply tower, electric current by shunt power tower after be divided into three strands of electric currents, this three strands of electric currents respectively to Three thermal infrared imager, infrared guided ware, charging pile electrical appliance power supplies.

In order to solve the above-mentioned technical problem, the present invention is achieved by the following technical solutions：

By thermal infrared imager 1, infrared guided ware 2, charging pile 3, display screen 4, output current socket 5, input current socket 6th, conductor wire 7, shunting power supply tower 8, submarine cable first 9, anti-seawater fluid sealant 10, anti-seawater sealed terminal box first 11, seabed electricity Cable second 12, anti-seawater sealed terminal box second 13, submarine cable the third 14, pyramid wind power station 16, power station inner conductive line 17th, energy-storage battery 18, floating body 19, controller 20, air inlet 21, top of tower air outlet 22, common group of horizontal wind power generator 23 Into；

Horizontal wind power generator 23 is installed in the top of the top of tower air outlet 22 of pyramid wind power station 16, in golden word The middle part of four triangle sides of tower wind power station 16 respectively opens up an air inlet 21, in pyramid wind power station 16 Power station inner conductive line 17, controller 20, energy-storage battery 18, pyramid wind power station are installed in hollow middle part and top 16 bottom is floating body 19, and pyramid wind power station 16 is floated on sea 15, the energy storage out of pyramid wind power station 16 The submarine cable the third 14 that battery 18 stretches out enters seabed, and it is close to install anti-seawater between submarine cable the third 14 and submarine cable second 12 Sealing-in line box second 13, inject anti-seawater fluid sealant 10 in the left end and right-hand member of anti-seawater sealed terminal box second 13 and sealed, Anti- seawater sealed terminal box first 11 is installed, in anti-seawater sealed terminal box first 11 between submarine cable second 12 and submarine cable first 9 Left end and right-hand member inject anti-seawater fluid sealant 10 and sealed, the right-hand member of submarine cable first 9 exposes sea access shunting power supply Tower 8, three conductor wires 7 are picked out from shunting power supply tower 8, shunting power supply tower 8 by three conductor wires 7 respectively to thermal infrared imager 1, Infrared guided ware 2, charging pile 3 are powered；

Pyramid wind power station 16 is connected by submarine cable the third 14 with anti-seawater sealed terminal box second 13, and anti-seawater is close Sealing-in line box second 13 is connected by submarine cable second 12 with anti-seawater sealed terminal box first 11, and anti-seawater sealed terminal box first 11 is logical Cross submarine cable first 9 to be connected with shunting power supply tower 8, shunting power supply tower 8 is connected by conductor wire 7 with infrared guided ware 2, and shunting supplies Electric tower 8 is connected by conductor wire 7 with thermal infrared imager 1, and shunting power supply tower 8 is connected by conductor wire 7 with charging pile 3, in golden word In tower wind power station 16：Horizontal wind power generator 23 is connected by power station inner conductive line 17 with controller 20, controller 20 are connected by power station inner conductive line 17 with energy-storage battery 18, in charging pile 3：Input current socket 6 is led by built-in Electric wire is connected with display screen 4 and other electrical appliances, and display screen 4 and other electrical appliances pass through built-in conductor wire and output current socket 5 connections.

Thermal infrared imager 1 is monitoring with thermal infrared imager or detection thermal infrared imager.

Compared with prior art, the beneficial effects of the invention are as follows：1. providing wind-powered electricity generation clean energy resource, preserve the ecological environment.Fill Point carry out wind-power electricity generation using the wind resource around island, the wind-force using various wind directions day and night, to island on source Source constantly powers.Realize sustainable Green Development.2. being powered to thermal infrared imager and infrared guided ware, supervise in time before charging Potential safety hazard existing for control, detection electric automobile, not to the charging electric vehicle that potential safety hazard be present, effectively controls charging accident Generation.

Brief description of the drawings

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

Embodiment

There is black body radiation in electric automobile, its all parts externally carries out electromagenetic wave radiation, wavelength according to the difference of temperature Claim Thermal Infra-Red for 2.0-1000 microns of parts, thermal infrared imaging by being imaged to thermal infrared sensitivity CCD to object, The temperature field on electric automobile surface can be reflected, electric automobile is exactly the source of infrared radiation, constantly can launch to surrounding and absorb Infra-red radiation.

Thermal infrared imager utilizes the temperature field on electric automobile surface, and peace existing for electric automobile is found by thermal infrared imaging Full hidden danger, charging early warning is sent, prevent the generation of charging accident, significantly improve the peace to charging electric vehicle using charging pile Quan Xing.Electric automobile under the guiding of infrared guided ware, go to receive infrared heat by monitoring and detection zone that first will be to thermal infrared imager As the monitoring and detection of instrument, confirm after there is no potential safety hazard inside electric automobile, by monitoring and detecting qualified electronic vapour The charging pile that car can be just reached near thermal infrared imager and infrared guided ware proceeds by charging operation.Infrared guided ware can draw Conductive electrical automobile, which is come by charging pile, to be charged, moreover it is possible to the electric automobile in traveling is tested the speed and speed limit, it is ensured that charging The traffic safety in area.Thermal infrared imager and infrared guided ware are combined together, and electric automobile is more pacified when receiving charging operation Entirely, reliably.

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

By thermal infrared imager 1, infrared guided ware 2, charging pile 3, display screen 4, output current socket 5, input current socket 6th, conductor wire 7, shunting power supply tower 8, submarine cable first 9, anti-seawater fluid sealant 10, anti-seawater sealed terminal box first 11, seabed electricity Cable second 12, anti-seawater sealed terminal box second 13, submarine cable the third 14, pyramid wind power station 16, power station inner conductive line 17th, energy-storage battery 18, floating body 19, controller 20, air inlet 21, top of tower air outlet 22, common group of horizontal wind power generator 23 Into；

Horizontal wind power generator 23 is installed in the top of the top of tower air outlet 22 of pyramid wind power station 16, in golden word The middle part of four triangle sides of tower wind power station 16 respectively opens up an air inlet 21, in pyramid wind power station 16 Power station inner conductive line 17, controller 20, energy-storage battery 18, pyramid wind power station are installed in hollow middle part and top 16 bottom is floating body 19, and pyramid wind power station 16 is floated on sea 15, the energy storage out of pyramid wind power station 16 The submarine cable the third 14 that battery 18 stretches out enters seabed, and it is close to install anti-seawater between submarine cable the third 14 and submarine cable second 12 Sealing-in line box second 13, inject anti-seawater fluid sealant 10 in the left end and right-hand member of anti-seawater sealed terminal box second 13 and sealed, Anti- seawater sealed terminal box first 11 is installed, in anti-seawater sealed terminal box first 11 between submarine cable second 12 and submarine cable first 9 Left end and right-hand member inject anti-seawater fluid sealant 10 and sealed, the right-hand member of submarine cable first 9 exposes sea access shunting power supply Tower 8, three conductor wires 7 are picked out from shunting power supply tower 8, shunting power supply tower 8 by three conductor wires 7 respectively to thermal infrared imager 1, Infrared guided ware 2, charging pile 3 are powered；

Pyramid wind power station 16 is connected by submarine cable the third 14 with anti-seawater sealed terminal box second 13, and anti-seawater is close Sealing-in line box second 13 is connected by submarine cable second 12 with anti-seawater sealed terminal box first 11, and anti-seawater sealed terminal box first 11 is logical Cross submarine cable first 9 to be connected with shunting power supply tower 8, shunting power supply tower 8 is connected by conductor wire 7 with infrared guided ware 2, and shunting supplies Electric tower 8 is connected by conductor wire 7 with thermal infrared imager 1, and shunting power supply tower 8 is connected by conductor wire 7 with charging pile 3, in golden word In tower wind power station 16：Horizontal wind power generator 23 is connected by power station inner conductive line 17 with controller 20, controller 20 are connected by power station inner conductive line 17 with energy-storage battery 18, in charging pile 3：Input current socket 6 is led by built-in Electric wire is connected with display screen 4 and other electrical appliances, and display screen 4 and other electrical appliances pass through built-in conductor wire and output current socket 5 connections.

Thermal infrared imager 1 is monitoring with thermal infrared imager or detection thermal infrared imager.

Pyramid wind power station is a floating entirety across the sea, can use its middle part of firm material manufacture with it is upper The shell in portion, the area of air inlet is bigger than top of tower air outlet, and the wind speed of top of tower air outlet is bigger than the wind speed of air inlet, Wind speed can blow greatly impeller and faster rotate, drive wind-driven generator to produce a greater amount of electric currents.From pyramid wind power station Pass through submarine cable third, anti-seawater sealed terminal box second, submarine cable second, anti-seawater sealed terminal box first, submarine cable first pair During the transmission of electricity of outside, to be carried out before seawater is put into special anti-seawater fluid sealant to the both ends of seawater sealed terminal box close Envelope, glue to be sealed solidify, completed after sealing, could be put into submarine cable together with the anti-seawater sealed terminal box being connected completely Seawater.When electric automobile comes to charge, it is desirable to electric automobile must be arrived first in face of thermal infrared imager and infrared guided ware, Receiving monitoring, detection and speed limit, after confirming electric automobile inside without charging hidden danger, the electric current in charging pile can just be passed through Output current socket and charging gun input electric automobile.

It is as follows now to enumerate embodiment：

Embodiment one：

An air inlet, pyramid wind-force hair are respectively opened up at the middle part of four triangle sides of pyramid wind power station The bottom in power station is to provide the floating body of buoyancy, and conductor wire, controller and energy-storage battery, wind are installed in its hollow middle part and top Power blows into air inlet, by middle part and top hollow in wind power station, is blown out from top of tower air outlet, wind blows air-out Impeller above mouthful quickly rotates, drives wind-driven generator to produce electric current, and electric current is defeated by conductor wire, controller, energy-storage battery Enter submarine cable third to power station externally fed, pass through submarine cable third, anti-seawater sealed terminal box second, submarine cable second, Fang Hai Water-stop terminal box first, submarine cable first, then input shunting power supply tower, is divided into three strands of electric currents：Wherein first strand of electric current passes through Conductor wire is powered to charging pile, is electric automobile service, and second strand of electric current is powered by conductor wire to monitoring with thermal infrared imager, 3rd strand of electric current is powered by conductor wire to infrared guided ware.

Embodiment two：

An air inlet, pyramid wind-force hair are respectively opened up at the middle part of four triangle sides of pyramid wind power station The bottom in power station is to provide the floating body of buoyancy, and conductor wire, controller and energy-storage battery, wind are installed in its hollow middle part and top Power blows into air inlet, by middle part and top hollow in wind power station, is blown out from top of tower air outlet, wind blows air-out Impeller above mouthful quickly rotates, drives wind-driven generator to produce electric current, and electric current is defeated by conductor wire, controller, energy-storage battery Enter submarine cable third to power station externally fed, pass through submarine cable third, anti-seawater sealed terminal box second, submarine cable second, Fang Hai Water-stop terminal box first, submarine cable first, then input shunting power supply tower, is divided into three strands of electric currents：Wherein first strand of electric current passes through Conductor wire is powered to charging pile, is electric automobile service, and second strand of electric current is powered by conductor wire to detection with thermal infrared imager, 3rd strand of electric current is powered by conductor wire to infrared guided ware.

Claims (2)

1. offshore wind power station by cable to the infrared charging pile electric supply installation on island, it is characterized in that, by infrared thermal imagery Instrument（1）, infrared guided ware（2）, charging pile（3）, display screen（4）, output current socket（5）, input current socket（6）, it is conductive Line（7）, shunting power supply tower（8）, submarine cable first（9）, anti-seawater fluid sealant（10）, anti-seawater sealed terminal box first（11）, sea Bottom cable second（12）, anti-seawater sealed terminal box second（13）, submarine cable third（14）, pyramid wind power station（16）, generate electricity Inner conductive of standing line（17）, energy-storage battery（18）, floating body（19）, controller（20）, air inlet（21）, top of tower air outlet （22）, horizontal wind power generator（23）Collectively constitute；

In pyramid wind power station（16）Top of tower air outlet（22）Top installation horizontal wind power generator（23）, in gold Word tower wind power station（16）The middle parts of four triangle sides respectively open up an air inlet（21）, in pyramid wind-power electricity generation Stand（16）Hollow middle part and top in install power station inner conductive line（17）, controller（20）, energy-storage battery（18）, gold Word tower wind power station（16）Bottom be floating body（19）, pyramid wind power station（16）Float over sea（15）On, from golden word Tower wind power station（16）Interior energy-storage battery（18）The submarine cable third of stretching（14）Into seabed, in submarine cable third（14） With submarine cable second（12）Between anti-seawater sealed terminal box second is installed（13）, in anti-seawater sealed terminal box second（13）Left end Anti- seawater fluid sealant is injected with right-hand member（10）Sealed, in submarine cable second（12）With submarine cable first（9）Between install it is anti- Seawater sealed terminal box first（11）, in anti-seawater sealed terminal box first（11）Left end and right-hand member inject anti-seawater fluid sealant（10） Sealed, submarine cable first（9）Right-hand member expose sea access shunting power supply tower（8）, from shunting power supply tower（8）Pick out three Conductor wire（7）, shunting power supply tower（8）Pass through three conductor wires（7）Respectively to thermal infrared imager（1）, infrared guided ware（2）, fill Electric stake（3）Power supply；

Pyramid wind power station（16）Pass through submarine cable third（14）With anti-seawater sealed terminal box second（13）Connection, anti-seawater Sealed terminal box second（13）Pass through submarine cable second（12）With anti-seawater sealed terminal box first（11）Connection, anti-seawater sealed wiring Box first（11）Pass through submarine cable first（9）With shunting power supply tower（8）Connection, shunting power supply tower（8）Pass through conductor wire（7）With it is infrared Guided ware（2）Connection, shunting power supply tower（8）Pass through conductor wire（7）With thermal infrared imager（1）Connection, shunting power supply tower（8）Pass through Conductor wire（7）With charging pile（3）Connection, in pyramid wind power station（16）It is interior：Horizontal wind power generator（23）Pass through generating Inner conductive of standing line（17）With controller（20）Connection, controller（20）Pass through power station inner conductive line（17）With energy-storage battery （18）Connection, in charging pile（3）It is interior：Input current socket（6）Pass through built-in conductor wire and display screen（4）And other electrical appliances connect Connect, display screen（4）And other electrical appliances pass through built-in conductor wire and output current socket（5）Connection.

2. offshore wind power station according to claim 1 by cable to the infrared charging pile electric supply installation on island, It is characterized in that described thermal infrared imager（1）It is monitoring with thermal infrared imager or detection thermal infrared imager.