CN112848950A

CN112848950A - Wind-solar-hydrogen electricity storage riding intelligent charging pile

Info

Publication number: CN112848950A
Application number: CN202011637266.9A
Authority: CN
Inventors: 薛宇; 王文杰; 石家祥
Original assignee: Ocean University of China
Current assignee: Ocean University of China
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-28

Abstract

The invention relates to an intelligent charging pile for wind, light, hydrogen, electricity storage and riding, which comprises: the solar panel assembly and the wind driven generator assembly are arranged on the top of the shed; the storage battery, the hydrogen storage and production device and the intelligent power distribution device are arranged in the charging pile standing surface vertical cabinet; a charging server side of the outer vertical surface of the vertical cabinet is installed; the solar panel assembly and the wind driven generator assembly are connected with the storage battery; the storage battery is connected with the charging server through the inverter; the hydrogen storage and production device comprises an electrolyzed water hydrogen generator, a high-pressure hydrogen storage tank and a fuel cell; the electrolyzed water hydrogen generator is connected with the fuel cell through the high-pressure hydrogen storage tank; the electrolytic water hydrogen generator is connected with the solar panel assembly and the wind driven generator assembly; the fuel cell is connected with the storage battery through the super capacitor bank; the intelligent power distribution device is connected with the solar panel assembly, the wind driven generator assembly, the storage battery and the high-voltage hydrogen storage tank. The invention can solve the problem of electric riding charging and reduce the expenditure for operators.

Description

Wind-solar-hydrogen electricity storage riding intelligent charging pile

Technical Field

The invention belongs to the technical field of charging piles, and particularly relates to a wind, light, hydrogen and electricity storage ride type intelligent charging pile.

Background

With the continuous progress of the human society, the trip mode of human beings is also changed greatly. The automobile holding capacity in China has already reached a very high level, and then the rapid increase is that the carbon emission amount, the non-renewable resources such as petroleum are exhausted increasingly, the environmental pollution is serious increasingly, the environmental crisis is also paid more and more attention by people, on the other hand, the increase of automobiles is faced with the increasing urban traffic pressure, the traffic jam is a very headache problem which each automobile family has to face, while China now advocates green travel, with the popularization of shared bicycles, shared electric riding is also gradually close to the vision of people, the electric riding is powered by vehicle-mounted batteries and driven by a motor to drive wheels to run, the current charging method of the shared electric ride mainly comprises that operation and maintenance personnel pull the battery to each electric ride at regular time and time every day to replace the battery, which increases the cost for operators. And the random placement of the electric rides also brings certain unavoidable urban problems to urban traffic and urban appearance, and also hinders the further development of shared electric rides.

At present, charging piles are arranged on the market through electric automobiles connected with a power grid, and charging piles are arranged through wind and light storage electric automobiles. The method specifically comprises the following technical defects:

firstly, the existing wind-solar energy storage charging pile is only provided with a storage battery for storing energy, the storage battery stores energy for a short time, the energy density is low, and the wind-solar energy is easy to lose.

Secondly, most of the existing shared electric riding charging depends on a shared electric riding operator to pull the charged battery to the shared electric riding every day to replace the battery, and half or forty percent of the electric riding amount is still provided, so that the electric quantity is not completely used up, but the operator also has to replace the battery, and thus, great operation cost is added to the operation.

Third, some commercial operations's electric pile all charges for electric automobile and can not ride the charging for the electricity to these electric automobile fills electric pile and most directly uses the power of electric wire netting to charge for the car, does not accomplish fundamentally and uses new ability.

Fourthly, the random placement of the shared bicycle and the shared electric ride brings about a great trouble to the appearance of the city.

Disclosure of Invention

The invention aims to provide a wind, light and hydrogen electricity storage riding intelligent charging pile, which utilizes renewable resources such as wind, light and the like, utilizes a storage battery and a hydrogen storage hybrid energy storage system, charges the storage battery through wind power and solar energy, stores surplus electric energy better through a hydrogen storage tank, provides convenience for people to go out by better utilizing clean energy, makes due contribution to environmental protection, solves the problem of partial riding charging, reduces certain expenditure for operators, and solves the problem that urban traffic is influenced by random placement of electric riding.

The invention provides a wind, light, hydrogen, electricity storage and riding intelligent charging pile, which comprises:

the solar panel assembly and the wind driven generator assembly are arranged on the top of the shed;

the storage battery, the hydrogen storage and production device and the intelligent power distribution device are arranged in the charging pile standing surface vertical cabinet;

a charging server side of the outer vertical surface of the vertical cabinet is installed;

the solar panel assembly and the wind driven generator assembly are connected with the storage battery and are used for storing photovoltaic and wind power generation in the storage battery; the storage battery is connected with the charging service end through the inverter and provides charging service for the electric bicycle through the charging service end;

the hydrogen storage and production device comprises an electrolyzed water hydrogen generator, a high-pressure hydrogen storage tank and a fuel cell; the electrolyzed water hydrogen generator is connected with the fuel cell through the high-pressure hydrogen storage tank; the electrolytic water hydrogen generator is connected with the solar panel assembly and the wind driven generator assembly; the fuel cell is connected with the storage battery through a super capacitor bank;

the intelligent power distribution device is connected with the solar panel assembly, the wind driven generator assembly, the storage battery and the high-voltage hydrogen storage tank, and is used for:

when the storage battery is fully charged, the surplus electricity of the solar panel assembly and the wind driven generator assembly is used for preparing hydrogen through the electrolyzed water hydrogen generator and is stored by the high-pressure hydrogen storage tank;

when the wind and light resources are insufficient to cause the electric quantity of the storage battery to be insufficient, the stored hydrogen is used for generating power to the storage battery through the fuel cell to supply power for riding and charging.

Further, this fill electric pile still including install in the clothes closet top and be used for supplying the operation and maintenance personnel to carry out remote monitoring's remote monitering system to filling electric pile.

Furthermore, the charging server comprises a charging controller, an operation terminal and a charging system.

Furthermore, the number of the wind driven generator components is two, and the two wind driven generator components are respectively arranged at two ends of the top of the shed.

Furthermore, the charging service terminal is used for providing charging service for one or more electric rides.

Furthermore, the vertical cabinet adopts a back door opening mode.

Further, the electric pile that fills arranges in the seaside.

Borrow by above-mentioned scheme, ride intelligent charging stake through scene hydrogen power storage, have following technological effect:

1. the electric bicycle can provide instant electric energy for the electric bicycle more conveniently, solves the problem that batteries are replaced by partial electric bicycles, realizes more efficient energy short-term energy storage and long-term storage, and provides stable power supply for the storage battery.

2. Compared with the existing charging pile, the novel energy resource is fully utilized, no carbon is discharged, the clean energy resource is better utilized to provide convenience for people's traveling, and due contribution is made to better environmental protection.

3. The electric energy demand in different places can be expanded to the adaptation, can be according to the installation place parking quantity according to this charging pile length of demand extension and top solar light panel and fan quantity realization hold more electricity and ride simultaneously and charge.

4. Not permanently installed, and can be moved or relocated.

5. The energy storage battery, the hydrogen storage tank and the related power distribution device are arranged in the vertical cabinet, so that the space is saved, and the land resource for urban road installation is saved.

The foregoing is a summary of the present invention, and in order to provide a clear understanding of the technical means of the present invention and to be implemented in accordance with the present specification, the following is a detailed description of the preferred embodiments of the present invention.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent wind, light, hydrogen, electricity storage and riding charging pile;

fig. 2 is a schematic sectional structure view of the intelligent charging pile for wind, light, hydrogen, electricity storage and riding.

Reference numbers in the figures:

1-a solar panel assembly; 2-a wind generator assembly; 3-an inverter; 4-operating the terminal; 5-a charging system; 6-a charge controller; 7-a fuel cell; 8-a supercapacitor bank; 9-a storage battery; 10-an electrolytic water hydrogen generator; 11-a high-pressure hydrogen storage tank; 12-remote monitoring system.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1 and 2, in this embodiment, a wind, light, hydrogen, electricity storage and ride intelligent charging pile includes:

the solar panel assembly 1 and the wind driven generator assembly 2 are arranged on the top of the shed;

the storage battery 9, the hydrogen storage and production device and the intelligent power distribution device are arranged in the vertical cabinet of the support surface of the charging pile;

the solar panel assembly 1 and the wind driven generator assembly 2 are connected with the storage battery 9 and used for storing photovoltaic and wind power generation in the storage battery 9; the storage battery 9 is connected with the charging service end through the inverter 3, and provides charging service for the electric bicycle through the charging service end;

the hydrogen storage and production device comprises an electrolyzed water hydrogen generator 10, a high-pressure hydrogen storage tank 11 and a fuel cell 7; the electrolyzed water hydrogen generator 10 is connected with the fuel cell 7 through a high-pressure hydrogen storage tank 11; the electrolytic water hydrogen generator 10 is connected with the solar panel assembly 1 and the wind driven generator assembly 2; the fuel cell 7 is connected with a storage battery 9 through a super capacitor bank 8;

intelligent power distribution device is connected 11 with solar panel assembly 1, aerogenerator subassembly 2, battery 9, high-pressure hydrogen storage tank for:

when the storage battery is full of electricity, the surplus electricity of the solar panel assembly 1 and the wind driven generator assembly 2 is used for preparing hydrogen through the electrolyzed water hydrogen generator 10 and is stored by the high-pressure hydrogen storage tank 11;

when the wind and light resources are insufficient to cause the electric quantity of the storage battery to be insufficient, the stored hydrogen is used for generating electricity to the storage battery 9 through the fuel battery 7 to supply power for riding charging.

The wind, light, hydrogen, electricity storage and riding intelligent charging pile adopts a non-fixed type integrated with solar energy, wind energy, a storage battery, hydrogen storage and a shed, can be configured into any size, and can be installed in different places and randomly expanded according to requirements. The battery is energy memory for the short-term, and the big electric quantity of long-time storage has energy loss, and high-pressure hydrogen storage tank can be long-time energy storage, can not have energy loss, and when the scene resource is not enough, when the battery electric quantity is not enough, fills the automatic hydrogen that will save and passes through fuel cell electricity generation and charge for the battery, can satisfy the electricity and ride direct charging demand.

Through arranging the storage battery, the fuel cell, the high-pressure hydrogen storage tank, the electrolyzed water hydrogen generator, the intelligent power distribution device and the like in the vertical cabinet of the support surface of the charging pile, the vertical cabinet can be conveniently opened from the back surface of the charging pile by operation and maintenance personnel, and the operation and maintenance can be carried out on internal facilities.

In this embodiment, this fills electric pile still includes and installs the remote monitering system 12 who is used for supplying operation and maintenance personnel to carry out remote monitoring to filling electric pile above the clothes closet. Remote monitoring system 12 can adopt video monitoring device, makes things convenient for fortune dimension personnel long-range to filling electric pile facility supervision, also makes things convenient for fortune dimension personnel to detect the running state of whole electric pile of filling in real time.

In this embodiment, the charging server includes a charging controller 6, an operation terminal 4, and a charging system 5.

In this embodiment, the number of the wind power generator assemblies 1 is two, and the two wind power generator assemblies are respectively installed at two ends of the top of the shed.

In this embodiment, the charging service terminal can be used to provide one or more electric charging services according to the actual situation.

In this embodiment, the clothes closet adopts a back-opening mode, which is convenient for maintenance.

In this embodiment, fill electric pile and arrange in the seaside, be favorable to wind energy to collect.

In this embodiment, solar cell panel assembly 1 adopts 14.4KW solar cell panel, and aerogenerator assembly 2 adopts 1.0KW aerogenerator, can satisfy the electricity and ride the demand of charging.

This intelligent charging stake is ridden in scene hydrogen electricity storage has following technological effect:

4. Not permanently installed, and can be moved or relocated.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a scene hydrogen power storage rides intelligent charging stake which characterized in that includes:

2. The wind, light, hydrogen, electricity storage and riding intelligent charging pile according to claim 1, further comprising a remote monitoring system installed above the vertical cabinet and used for operation and maintenance personnel to remotely monitor the charging pile.

3. The wind, solar, hydrogen, electricity storage and riding intelligent charging pile according to claim 1, wherein the charging service end comprises a charging controller, an operation terminal and a charging system.

4. The wind, light, hydrogen, electricity storage and riding intelligent charging pile according to claim 1, wherein the number of the wind driven generator components is two, and the two wind driven generator components are respectively installed at two ends of the top of a carport.

5. The wind, light, hydrogen, electricity storage and ride intelligent charging pile according to claim 1, wherein the charging service terminal is used for providing one or more electric ride charging services.

6. The wind, light, hydrogen, electricity storage and riding intelligent charging pile according to claim 1, wherein the vertical cabinet is opened in a back-door mode.

7. The wind, light, hydrogen, electricity storage and ride intelligent charging pile according to any one of claims 1 to 6, wherein the charging pile is arranged at sea.