WO2019154327A1 - Energy storage charging pile having power storage quantity dynamic display board - Google Patents

Abstract

An energy storage charging pile having a power storage quantity dynamic display board, comprising a solar panel (2), a wind driven generator (3), a charging pile cabinet (1), a pile pole (6), an energy storage module, a power storage quantity acquisition module, an A/D converter, a controller, a D/A converter, and a display board (4); the wind driven generator (3) is mounted on the top of the pile pole (6), the solar panel (2) is mounted at the upper portion of the pile pole (6), and the charging pile cabinet (1) is mounted below the pile pole (6); the energy storage module, the power storage quantity acquisition module, the A/D converter, the controller, and the D/A converter are separately provided in the charging pile cabinet (1); the display board (4) is provided at the upper portion of the pile pole (6); the solar panel (2) and the wind driven generator (3) are separately connected to the energy storage module; the energy storage module, the power storage quantity acquisition module, the A/D converter, the controller, the D/A converter, and the display board (4) are sequentially connected. The charging pile can conveniently, intuitively, and dynamically display stored power, makes it convenient for an electric vehicle driver to select an appropriate charging pile, and can be widely applied to a clean energy-based energy storage charging device operated off-grid.

Description

Energy storage charging pile with dynamic display card Technical field

The invention relates to the field of electric vehicle charging, in particular to an energy storage charging pile with a dynamic display card for storing electric quantity.

Background technique

With the deepening of the concept of green environmental protection in the world, the development trend of electric vehicles is rapid, but the limitation is that the main problem of electric vehicle promotion is that the cruising range is not long and the charging and replenishing facilities are not complete, resulting in the electric vehicles often appearing insufficient in the middle of the battery. Timely getting power supply and causing trouble to the user. In the suburbs of the city, the vast rural areas and the wilderness areas, the lack of charging facilities makes the problem that electric vehicles cannot go out of town. At present, public charging piles have begun to be installed and used in some cities, and the transformation of street lighting systems into electric vehicle charging facilities has become a trend, but the power-saving charging devices based on clean energy that are being developed from the grid are being recharged. The amount is unstable, and it is difficult to know the remaining energy storage capacity and it is not effectively utilized in the charging and replenishing field.

technical problem

The invention provides an energy storage charging pile with a dynamic display card for storing electricity, which can display the energy storage capacity conveniently, intuitively and dynamically, and is convenient for the electric vehicle driver to select a suitable charging pile for charging, and can be widely used for off-grid operation based on Clean energy energy storage devices, especially in clean energy street lights.

Technical solution

An energy storage charging pile with a dynamic display card for storing electricity, comprising a solar power board, a wind power generator, a charging pile cabinet, a pile rod, an energy storage module, a power storage module, an A/D converter, a controller, and a D/ A converter and display card; the wind generator is installed on the top of the pile rod, the solar power board is installed on the upper part of the pile rod, the charging pile cabinet is installed under the pile rod, the energy storage module, the electricity storage collection module, the A/D converter, The controller and the D/A converter are respectively disposed in the charging pile cabinet, and the display card is disposed on the upper part of the pile rod; the solar power generation board and the wind power generator are respectively connected to the energy storage module, and the energy storage module is connected to the power storage collection module, and the storage capacity is The acquisition module is connected to the A/D converter, the A/D converter is connected to the controller, the controller is connected to the D/A converter, and the D/A converter is connected to the display card.

The method further includes a plurality of electronic illuminating members embedded in the pile rod body, and the plurality of electronic illuminating members are respectively connected to the controller.

The power supply of the energy storage module further includes one or more of a power grid, a tidal power generation device, a hydropower device, and a combustible gas power generation device.

Beneficial effect

The advantages of the invention are:

The charging pile of the invention can be widely used in a clean energy-based energy storage charging device that is disconnected from the power grid, and the remaining power of the energy storage module is dynamically displayed on the display card, and the light emitting component also visually displays the remaining of the energy storage module. The power is convenient for the electric car driver to choose the right charging pile to charge.

DRAWINGS

1 is a schematic view showing the structure of a charging post of the present invention. In the figure, 1: charging pile cabinet, 2: solar power board, 3: wind power generator, 4: display board, 5: light-emitting parts, 6: pile rod.

2 is a system block diagram of a charging post according to Embodiment 1 of the present invention.

Figure 3 is a system block diagram of a charging post according to Embodiment 2 of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

Example 1:

As shown in FIG. 1 and FIG. 2, an energy storage charging pile with a dynamic display card for storing electricity includes a solar power generation board 2, a wind power generator 3, a charging pile cabinet 1, a pile rod 6, an energy storage module, and an electric storage capacity collection. Module, A/D converter, controller, D/A converter and display card 4; the wind power generator 3 is mounted on the top of the pile rod 6, and the solar power generation board 2 is installed on the upper part of the pile rod 6, and is installed under the pile rod 6. The charging pile cabinet 1, the energy storage module, the electric storage capacity collecting module, the A/D converter, the controller and the D/A converter are respectively arranged in the charging pile cabinet 1, and the display card 4 is arranged on the upper part of the pile rod 6; the solar power generation board 2 and the wind power generator 3 is respectively connected to the energy storage module, the energy storage module is connected to the power storage collection module, the power storage collection module is connected to the A/D converter, the A/D converter is connected to the controller, and the controller is connected to the D/A conversion. The D/A converter is connected to the display card 4. The display card 4 is a double-sided display, which is disposed on the side of the pile 6 on the near road side, so that the user can predict the power of the front charging pile at a distance. The power storage module collects the power of the energy storage module in real time, and then converts it into a digital signal through the A/D converter and sends it to the controller. The controller then sends the power digital signal to the D/A converter to convert it into an analog signal, and then displays it. The color separation on the card shows a different battery status.

In addition to the solar power generation panel 2 and the wind power generator 3, the charging power supply of the energy storage module may also select one or more of a power grid, a tidal power generation device, a hydroelectric power generation device, and a combustible gas power generation device according to an environment.

The charging pile cabinet 1 is provided with one or two of an AC charging interface and a DC charging interface.

The charging pile cabinet 1 is further provided with a human-machine interaction operation interface, a payment module, a positioning device, and an alarm and protection device respectively connected to the controller.

Example 2

As shown in FIG. 3, the charging post of the embodiment further includes a plurality of electronic illuminating members 5, and the plurality of electronic illuminating members 5 are arranged in the middle of the pile rod 6 from top to bottom, and the plurality of electronic illuminating members 5 are respectively connected and controlled. Device. The electronic light-emitting member 5 can be composed of an LED light-emitting diode. The power storage module collects the power of the energy storage module in real time, converts it into a digital signal through the A/D converter, and sends it to the controller. The controller controls the plurality of light-emitting components 5 to emit light or not according to the received power signal. If the remaining 50% of the power is available, half of the illuminators are illuminated, visually indicating the remaining charge. The remaining structure of the charging post of this embodiment is the same as that of the first embodiment.

The charging post of the present invention can also be combined with a street lamp system application.

Claims (3)

1. An energy storage charging pile with a dynamic display card for storing electricity, comprising: a solar power board, a wind power generator, a charging pile cabinet, a pile rod, an energy storage module, a power storage collection module, an A/D converter, and a control The wind turbine is installed on the top of the pile pole, the solar power generation board is installed on the upper part of the pile pole, the charging pile cabinet is installed under the pile pole, the energy storage module, the electricity storage collection module, A/ The D converter, the controller and the D/A converter are respectively arranged in the charging pile cabinet, and the display card is arranged on the upper part of the pile rod; the solar power generation board and the wind power generator are respectively connected with the energy storage module, and the energy storage module is connected with the power storage collection module, The power storage collection module is connected to an A/D converter, the A/D converter is connected to the controller, the controller is connected to the D/A converter, and the D/A converter is connected to the display card.
2. The energy storage charging pile with a power storage dynamic display card according to claim 1, further comprising a plurality of electronic light emitting members, wherein the plurality of electronic light emitting members are embedded on the pile rod body, and the plurality of electronic light emitting The pieces are connected to the controller separately.
3. The energy storage charging pile with a power storage dynamic display card according to claim 1, wherein the power supply of the energy storage module further comprises a power grid, a tidal power generation device, a hydroelectric power generation device, and a combustible gas power generation device. One or more of them.