CN204761126U - Complementary charging station of scene - Google Patents

Abstract

The utility model discloses a complementary charging station of scene, include that photovoltaic power generation system, wind generator system, dc -to -ac converter (7), direct current charge (8) and alternating -current charging stake (9), photovoltaic power generation system includes: photovoltaic power generation subassembly (1) that connects gradually, direct current junction box (2), stabiliser (3) and system's battery (4), wind generator system includes: wind generating set (6) that connect gradually, rectification group (5) and system's battery (4), wind generator system and wind generator system used same system battery (4), the input of dc -to -ac converter (7) is connected with the positive pole of system battery (4), the output and the alternating -current charging stake (9) of dc -to -ac converter (7) are connected, anodal and the direct current of system's battery (4) charge (8) be connected. The utility model provides a single clean energy charging station poor stability, the energy can not be supplied at any time, energy storage equipment quantity is big, the system consumes big problem.

Description

Wind-solar hybrid charging station

Technical field

The utility model is established and clean energy technology field, particularly relates to a kind of wind-solar hybrid charging station.

Background technology

In short supply along with conventional energy resource, the utilization of clean energy resource is more and more important, especially wind energy and solar energy, existing charging station comprises wind-force charging station and photovoltaic charge station, because wind energy and solar energy are subject to its energy density low, the impact of the shortcomings such as energy stability difference, the utilization of the two is also subject to certain restriction.Solar energy and wind energy are all relative unstable, the discontinuous energy, and it is poor to be used alone a kind of stationary power sources, and the energy can not be supplied at any time, need be equipped with a large amount of energy storage devices, and expending of system is increased greatly, and design of the present utility model solves this problem.

Utility model content

The purpose of this utility model is to provide a kind of wind-solar hybrid charging station, and to solve single clean energy resource charging station poor stability, energy can not be supplied at any time, and energy storage device consumption is large, the problem that system cost is large.

To achieve these goals, the utility model provides a kind of wind-solar hybrid charging station, comprise photovoltaic generating system, wind generator system, inverter, direct-current charging post and alternating-current charging pile, described photovoltaic generating system comprises: photovoltaic electrification component, direct current conflux case, pressurizer and system battery, described photovoltaic electrification component, direct current conflux case, pressurizer is connected by cable successively with system battery, described wind generator system comprises: wind turbine generator, rectification group and system battery, described wind turbine generator, rectification group is connected by cable successively with system battery, described wind generator system and photovoltaic generating system share same system battery, the input of described inverter is connected with the positive pole of system battery, the output of inverter is connected with alternating-current charging pile, the positive pole of described system battery is connected with direct-current charging post.

Further, the output of described wind turbine generator is connected by the input of cable with rectification group, multiple outputs of rectification group are connected with the negative pole of system battery by control circuit, and described wind turbine generator is that dispersed placement is formed by multiple wind-driven generator.

Further, multiple outputs of described photovoltaic electrification component are connected in parallel by multiple inputs of cable and direct current conflux case, and the output of direct current conflux case is connected with the inlet circuit of pressurizer, and the output of pressurizer is connected with the negative pole of system battery; Described photovoltaic electrification component is made up of multiple photovoltaic power generation apparatus dispersed placement.

Further, described pressurizer, system battery, direct current conflux case and inverter are arranged in charging control room or in component framework.

Further, described system battery is lithia battery, colloid storage battery or plumbic acid maintenance-free storage battery.

Further, described component framework is chest of drawers formula frame structure, described pressurizer, system battery, and direct current conflux case and inverter are arranged in component framework from top to bottom successively.

By above-mentioned wind-solar hybrid charging station, the beneficial effects of the utility model are: by using photovoltaic generating system and wind generator system jointly to generate electricity, the electricity sent is stablized, and energy storage device consumption is few, and system consumption is little.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail, it should be noted that, these specific descriptions just allow those of ordinary skill in the art be more prone to, clearly understand the utility model, but not to limited explanation of the present utility model.

As shown in Figure 1, the utility model provides a kind of wind-solar hybrid charging station, comprise photovoltaic generating system, wind generator system, inverter 7, direct-current charging post 8 and alternating-current charging pile 9, photovoltaic generating system comprises: photovoltaic electrification component 1, direct current conflux case 2, pressurizer 3 and system battery 4, multiple outputs of photovoltaic electrification component 1 are connected in parallel by multiple inputs of cable and direct current conflux case 2, the output of direct current conflux case 2 is connected with the inlet circuit of pressurizer 3, the output of pressurizer 3 is connected with the negative pole of system battery 4, wind generator system comprises: wind turbine generator 6, rectification group 5 and system battery 4, the output of wind turbine generator 6 is connected by the input of cable with rectification group 5, multiple outputs of rectification group 5 are connected by the negative pole of control circuit with system battery 4, wind generator system and wind generator system same system battery 4 used, the input of inverter 7 is connected with the positive pole of system battery 4, the output of inverter 7 is connected with alternating-current charging pile 9, the positive pole of system battery 4 is connected with direct-current charging post 8, pressurizer 3, system battery 4, direct current conflux case 2 and inverter 7 are arranged in charging control room or are arranged in the component framework of chest of drawers formula from top to bottom successively, wind turbine generator 6 is that dispersed placement is formed by multiple wind-driven generator, wind-driven generator is large-scale wind driven generator, can be double-feedback aerogenerator or direct-drive aerogenerator, simultaneously, photovoltaic electrification component 1 is large-sized photovoltaic electrification component, photovoltaic electrification component 1 is made up of multiple photovoltaic power generation apparatus dispersed placement, photovoltaic electrification component can be ground type photovoltaic electrification component or roof type photovoltaic electrification component.

During wind-solar hybrid charging station work, in photovoltaic generating system, in photovoltaic electrification component 1, light energy conversion is become the direct current of spread of voltage by cell panel, direct current conflux case 2 confluxes carrying in direct current conflux case 2 inside more, a direct current is confluxed in many direct current inputs export, save the use of cable line, the unstable direct current that direct current conflux case 2 exports by pressurizer 3 samples, relatively, the voltage of the stable outputs such as amplification, in wind generator system, wind energy transformation is alternating current by wind turbine generator 6, AC rectification is that direct current exports by rectification group 5, the electrical power storage that wind generator system and photovoltaic generating system export is got up for charging electric vehicle by system battery 4, system battery 4 is lithia battery, colloid storage battery or plumbic acid maintenance-free storage battery.During charging electric vehicle, DC inverter in system battery 4 is that alternating current is connected to alternating-current charging pile 9 by inverter 7, during charging electric vehicle, electric automobile carries out AC charging by alternating-current charging pile 9, when automobile is eager to charge, electric automobile carries out DC charging fast by direct-current charging post 8.

By above-mentioned wind-solar hybrid charging station, photovoltaic generating system and wind generator system generate electricity jointly, and the electricity sent is stablized, and energy storage device consumption is few, and system consumption is little.

Finally it should be noted that, above-mentioned explanation is only most preferred embodiment of the present utility model, not does any pro forma restriction to the utility model.Any those of ordinary skill in the art; do not departing within the scope of technical solutions of the utility model; the way of above-mentioned announcement and technology contents all can be utilized to make many possible variations and simple replacement etc. to technical solution of the present invention, and these all belong to the scope of technical solutions of the utility model protection.

Claims (6)

1. a wind-solar hybrid charging station, it is characterized in that: comprise photovoltaic generating system, wind generator system, inverter (7), direct-current charging post (8) and alternating-current charging pile (9), described photovoltaic generating system comprises: photovoltaic electrification component (1), direct current conflux case (2), pressurizer (3) and system battery (4), described photovoltaic electrification component (1), direct current conflux case (2), pressurizer (3) is connected by cable successively with system battery (4), described wind generator system comprises: wind turbine generator (6), rectification group (5) and system battery (4), described wind turbine generator (6), rectification group (5) is connected by cable successively with system battery (4), described wind generator system and photovoltaic generating system share same system battery (4), the input of described inverter (7) is connected with the positive pole of system battery (4), the output of inverter (7) is connected with alternating-current charging pile (9), the positive pole of described system battery (4) is connected with direct-current charging post (8).

2. a kind of wind-solar hybrid charging station according to claim 1, it is characterized in that: the output of described wind turbine generator (6) is connected by the input of cable with rectification group (5), multiple outputs of rectification group (5) are connected by the negative pole of control circuit with system battery (4), and described wind turbine generator is that dispersed placement is formed by multiple wind-driven generator.

3. a kind of wind-solar hybrid charging station according to claim 1, it is characterized in that: multiple outputs of described photovoltaic electrification component (1) are connected in parallel by multiple inputs of cable and direct current conflux case (2), the output of direct current conflux case (2) is connected with the inlet circuit of pressurizer (3), the output of pressurizer (3) is connected with the negative pole of system battery (4), and described photovoltaic electrification component (1) is made up of multiple photovoltaic power generation apparatus dispersed placement.

4. a kind of wind-solar hybrid charging station according to claim 1, it is characterized in that: described pressurizer (3), system battery (4), direct current conflux case (2) and inverter (7) are arranged in charging control room or in component framework.

5. a kind of wind-solar hybrid charging station according to claim 1, is characterized in that: described system battery (4) is lithia battery, colloid storage battery or plumbic acid maintenance-free storage battery.

6. a kind of wind-solar hybrid charging station according to claim 4, it is characterized in that: described component framework is chest of drawers formula frame structure, described pressurizer (3), system battery (4), direct current conflux case (2) and inverter (7) are arranged in component framework from top to bottom successively.