CN218054991U - Solar electric automobile charging carrier loader - Google Patents

Abstract

The utility model discloses a solar electric automobile charging carrier loader, which comprises a carrier main body and a charging device, wherein the carrier main body comprises a vehicle body, the front end of the vehicle body is provided with a windshield, the lower end of the windshield is provided with a vehicle lamp, the side surface of the vehicle body is provided with a vehicle door, the vehicle door is provided with a vehicle window, one side of the vehicle door is provided with a vehicle door handle, the lower end of the vehicle body is provided with a wheel, a rotating shaft is arranged in the wheel, and the vehicle body is internally provided with a power control device and a direction control device; solar panel is installed to the charging device up end, and the bottom plate is installed to the solar panel lower extreme, and a series of electricity generation board units are installed to the bottom plate, installs photovoltaic cell panel on every electricity generation board unit, and the inside socket that charges that is equipped with of charging device, charging device's one end are equipped with the baffle, and the upper end of baffle is equipped with the slope shaped plate of slope the baffle links to each other with the objective table, and the fixed axle passes baffle and objective table. The carrier loader can carry and charge at the same time, and the charging device provides an electric energy source by solar energy.

Description

Solar electric automobile charging carrier loader

Technical Field

The utility model belongs to the technical field of portable charging device is relevant, especially, relate to a solar energy electric automobile carries car that charges.

Background

The charging pile has the function similar to an oiling machine in a gas station, can be fixed on the ground or on the wall, is installed in public buildings (public buildings, markets, public parking lots and the like) and residential area parking lots or charging stations, and can charge various types of electric automobiles according to different voltage levels. The input end of the charging pile is directly connected with an alternating current power grid, and the output end of the charging pile is provided with a charging plug for charging the electric automobile. Fill electric pile and generally provide two kinds of charging methods of conventional charging and quick charge, people can use specific charging card to punch the card on the human-computer interaction operation interface that fills electric pile and use, carry out operations such as corresponding charging method, charge time, expense data printing, fill electric pile display screen can show data such as the charge volume, expense, charge time.

Charging piles grown for new energy vehicles develop rapidly in two years. Particularly, in the end of the last year, the four committees united and released 'electric vehicle charging infrastructure development guidelines' (2015-2020), the number of distributed charging piles exceeds 480 thousands in 2020, and the distributed charging piles are used for meeting the charging requirements of 500 thousands of electric vehicles in China. This undoubtedly drives the development of charging piles into cardiotonic agents. The development speed of the Chinese new energy automobile is very fast in the last two years, the popularization rate of the new energy automobile is rapidly increased from 0.1% in 2014 to 0.7% in 2016, and the new energy automobile is a great achievement obtained by popularization of the domestic new energy automobile.

However, the layout of domestic electric vehicle charging equipment is still deficient, even the electric vehicle charging device developed at present is basically concentrated in the field of fixed charging piles, and special electric vehicle fault carrying is provided, and the field of related equipment such as movable charging of an electric vehicle is less developed, which is not beneficial to the comprehensive popularization and development of new energy vehicles.

Disclosure of Invention

The utility model relates to an overcome and have foretell not enough among the prior art, provide a solar energy electric automobile carrier loader that charges.

In order to realize the purpose, the utility model adopts the following technical scheme:

the solar electric automobile charging carrier loader comprises a carrier main body and a charging device, wherein the carrier main body comprises a vehicle body, a windshield is arranged at the front end of the vehicle body, a vehicle lamp is arranged at the lower end of the windshield, a vehicle door is arranged on the side surface of the vehicle body, a vehicle window is arranged on the vehicle door, a vehicle door handle is arranged on one side of the vehicle door, wheels are arranged at the lower end of the vehicle body, a rotating shaft is arranged in the wheels, and a power control device and a direction control device are arranged in the vehicle body; solar panel is installed to the charging device up end, the bottom plate is installed to the solar panel lower extreme, a series of electricity generation board units are installed to the bottom plate, install photovoltaic cell panel on every electricity generation board unit, the inside socket that charges that is equipped with of charging device, charging device's one end is equipped with the baffle, the upper end of baffle is equipped with the slope shaped plate of slope the baffle links to each other with the objective table, pass the fixed axle on baffle and the objective table.

The utility model provides an among the technical scheme, the baffle is connected with the objective table, the fixed axle passes the tail end of baffle lower extreme and objective table.

The utility model provides an among the technical scheme, the baffle can do 180 degrees rotations around the fixed axle.

The utility model provides an among the technical scheme, install 1 electricity generation board unit on the solar panel at least, be equipped with 2 photovoltaic cell board on every electricity generation board unit.

The utility model provides an among the technical scheme, form the photovoltaic cell circuit through wire interconnect between the photovoltaic cell board on the electricity generation board unit, the photovoltaic cell circuit provides the current path of solar energy transformation for the electric energy.

The utility model provides an among the technical scheme, photovoltaic cell board establishes ties and connects in parallel with charging socket and accumulate device behind the formation photovoltaic cell circuit, is provided with current sensor between photovoltaic cell circuit and accumulate device, is charged for charging socket power supply and accumulate device by solar panel when response photovoltaic cell circuit has the electric current, is supplied power for charging socket by accumulate device when response photovoltaic cell circuit does not have the electric current.

The utility model has the advantages that: the utility model discloses simple structure, easily operation, this electric motor car carrier loader that charges can carry because of the electric motor car that the battery has been put out unable travel, can carry the electric motor car on one side and charge to it, the charging device of this carrier loader provides the electric energy source by solar energy, and is energy-concerving and environment-protective, and inside the charging process was sailed into the carrier loader with the electric motor car, can prevent that the electric motor car from exploding the sun or drenching to the rain influence and charging.

Drawings

FIG. 1 is a three-dimensional block diagram of the present invention;

fig. 2 is a three-dimensional structure diagram of the structure bottom plate of the present invention.

In the figure: 1-a vehicle body, 2-a bottom plate, 3-a charging socket, 4-a baffle, 5-a fixed shaft, 6-a windshield, 7-a vehicle lamp, 8-a vehicle window, 9-a vehicle door handle, 10-a rotating shaft, 11-a vehicle wheel, 12-a solar panel, 13-a sloping plate, 14-a vehicle door, 15-an objective table, 16-a photovoltaic cell panel and 17-a power generation plate unit.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings and specific technical solutions of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments of the present invention without any inventive work belong to the scope of protection of this patent.

Example 1

As shown in fig. 1, the utility model discloses a three-dimensional structure chart shows, a solar electric vehicle charging carrier loader, characterized by, including carrying main part and charging device, the carrying main part includes automobile body 1, 1 front end of automobile body is equipped with windshield 6, 6 lower extremes of windshield installs car light 7, the automobile body side is equipped with door 14, install door window 8 on the door 14, one side of door 14 is equipped with door handle 9, the lower extreme of automobile body 1 installs wheel 11, install pivot 10 in the wheel 11, automobile body 1 embeds there is power control equipment and direction control equipment; solar panel 12 is installed to the charging device up end, bottom plate 2 is installed to solar panel 12 lower extreme, a series of electricity generation board unit 17 is installed to bottom plate 2, install photovoltaic cell panel 16 on every electricity generation board unit 17, the inside socket 3 that charges that is equipped with of charging device, charging device's one end is equipped with baffle 4, the upper end of baffle 4 is equipped with the slope board 13 of slope baffle 4 links to each other with objective table 15, pass fixed axle 5 on baffle 4 and the objective table 15.

The baffle 4 is connected with the objective table 15, and the fixed shaft 5 penetrates through the lower end of the baffle 4 and the tail end of the objective table 15.

The baffle 4 can rotate 180 degrees around the fixed shaft 5.

The solar panel 12 is at least provided with 1 power generation panel unit 17, and each power generation panel unit 17 is provided with 2 photovoltaic cell panels 16.

The photovoltaic cell panels 16 on the power generation panel unit 17 are connected with each other through wires to form a photovoltaic cell circuit, and the photovoltaic cell circuit provides a current path for converting solar energy into electric energy.

The photovoltaic cell panel 16 is connected in series to form a photovoltaic cell circuit and then connected in parallel with the charging socket 3 and the power storage device, a current sensor is arranged between the photovoltaic cell circuit and the power storage device, when the photovoltaic cell circuit is induced to have current, the solar panel 12 supplies power to the charging socket 3 and the power storage device charges, and when the photovoltaic cell circuit is induced to have no current, the power storage device supplies power to the charging socket 3.

The utility model discloses during the implementation, start the carrier loader, drive into outdoor parking position with it, install a series of electricity generation board unit 17 in solar panel 12 and be equipped with 2 photovoltaic cell board 16 on every electricity generation board unit 17, photovoltaic cell board 16 when solar panel 12 in receives the shining back of sunshine and turns into the electric energy with light energy, photovoltaic cell board 16 interconnect on the electricity generation board unit 17 forms the photovoltaic cell circuit, photovoltaic cell board 16 establishes ties and connects in parallel with charging socket 3 and accumulate device behind the formation photovoltaic cell circuit, be provided with current sensor between photovoltaic cell circuit and accumulate device, when sunshine is better daytime, current sensor senses that the photovoltaic cell circuit has the electric current and charges for charging socket 3 power supply and accumulate device by solar panel 12, when night or cloudy day, current sensor senses that the photovoltaic cell circuit does not have the electric current and is given charging socket 3 power supply by accumulate device, when electric automobile charges, pull down the baffle 4 of carrier loader, make its slope shaped plate 13 meet with ground, then electric automobile drives into the carrier loader through slope shaped plate 13 and baffle 4, insert the plug of electric automobile, the carrier loader, the baffle 4 that will slide this moment, the carrier loader is fixed with the electric automobile that prevents to slide this moment.

The skilled person should know that: although the present invention has been described with reference to the above embodiments, the inventive concepts are not limited thereto, and any modification using the inventive concepts will be included in the scope of the present patent application.

Claims (6)

1. The solar electric vehicle charging carrier loader is characterized by comprising a carrier main body and a charging device, wherein the carrier main body comprises a vehicle body (1), a windshield (6) is arranged at the front end of the vehicle body (1), a vehicle lamp (7) is mounted at the lower end of the windshield (6), a vehicle door (14) is arranged on the side face of the vehicle body, a vehicle window (8) is mounted on the vehicle door (14), a vehicle door handle (9) is arranged on one side of the vehicle door (14), wheels (11) are mounted at the lower end of the vehicle body (1), a rotating shaft (10) is mounted in the wheels (11), and power control equipment and direction control equipment are arranged in the vehicle body (1); solar panel (12) are installed to the charging device up end, bottom plate (2) are installed to solar panel (12) lower extreme, a series of electricity generation board unit (17) are installed in bottom plate (2), install photovoltaic cell board (16) on every electricity generation board unit (17), charging device is inside to be equipped with socket (3) that charges, charging device's one end is equipped with baffle (4), the upper end of baffle (4) is equipped with slope shaped plate (13) of slope, baffle (4) link to each other with objective table (15), pass fixed axle (5) on baffle (4) and objective table (15).

2. The solar electric vehicle charging carrier loader according to claim 1, wherein the baffle plate (4) is connected with the object stage (15), and the fixed shaft (5) penetrates through the lower end of the baffle plate (4) and the tail end of the object stage (15).

3. The solar electric vehicle charging carrier loader as claimed in claim 1, wherein the baffle (4) can rotate 180 degrees around the fixed shaft (5).

4. The solar electric vehicle charging carrier loader according to claim 1, wherein at least 1 power generation panel unit (17) is installed on the solar panel (12), and each power generation panel unit (17) is provided with 2 photovoltaic panels (16).

5. The solar electric vehicle charging carrier vehicle as claimed in claim 1, wherein the photovoltaic cell panels (16) on the power generation panel unit (17) are connected with each other through wires to form a photovoltaic cell circuit, and the photovoltaic cell circuit provides a current path for converting solar energy into electric energy.

6. The solar electric vehicle charging carrier vehicle of claim 1, wherein the photovoltaic cell panels (16) are connected in series to form a photovoltaic cell circuit and then connected in parallel with the charging socket (3) and the power storage device, a current sensor is arranged between the photovoltaic cell circuit and the power storage device, the charging socket (3) is powered by the solar panel (12) and the power storage device is charged when current is sensed in the photovoltaic cell circuit, and the charging socket (3) is powered by the power storage device when no current is sensed in the photovoltaic cell circuit.

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