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Rechargeable mobile energy storage system

A mobile energy storage and rechargeable technology, applied in charging stations, electric vehicles, vehicle energy storage, etc., can solve the problems of difficulty in ensuring vertical sunlight exposure, difficult automatic real-time tracking of sunlight, and imperfect solar charging modules. Achieve the effect of improving fuel economy, reducing working time and improving conversion efficiency

Pending Publication Date: 2022-06-24
江苏群菱能源科技有限公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the above technical solution, the solar charging module is not perfect. Due to the rotation and revolution of the earth, the angle between the surface of the battery panel and the sun’s rays changes all the time. The light is automatically tracked in real time, and it is difficult to ensure that the sun's rays are irradiated vertically on the panel for a long time, which will easily lead to low photoelectric conversion efficiency of the solar panel

Method used

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  • Rechargeable mobile energy storage system
  • Rechargeable mobile energy storage system
  • Rechargeable mobile energy storage system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0045] Please refer to Figure 1-2 , a rechargeable mobile energy storage system; comprising a mobile energy storage charging vehicle 1, the mobile energy storage charging vehicle 1 includes a mute box 2, an energy storage battery 4 is arranged in the mute box 2, and the upper end face of the mute box 2 A solar charging module for charging the energy storage battery 4 is provided. The solar charging module includes a solar panel recycling bin 7, the lower end face of the solar panel recycling bin 7 is connected with the upper end face of the mute box 2, and the interior of the solar panel recycling bin 7 is horizontally arranged There is a lifting bottom plate 9, the lower end surface of the lifting bottom plate 9 is connected with the bottom of the solar panel recovery bin 7 through a lifting mechanism, and the upper end surface of the lifting bottom plate 9 is provided with a solar auxiliary charging assembly, which includes a solar cell panel 88, a collection module, a contr...

Embodiment 2

[0048] Please refer to Figure 1-5 On the basis of the first embodiment, the solar auxiliary charging assembly also includes a base 81, a support frame 82 is provided on the left side of the upper end surface of the base 81, and an azimuth angle adjustment mechanism is located at the upper end of the support frame 82, and the azimuth angle adjustment mechanism is used to adjust the solar energy Azimuth of panel 88.

[0049] The azimuth angle adjustment mechanism includes a box body 84, a stepper motor 85 is arranged in the box body 84, a ball cage constant velocity universal joint 86 is arranged on the rotating shaft of the stepper motor 85, and the other end of the ball cage constant velocity universal joint 86 penetrates The right side of the box body 84 is provided with a retractable support rod 87 , and the solar cell panel 88 is connected in parallel with the retractable support rod 87 through an extension rod.

[0050] Through the azimuth adjustment mechanism, the rotat...

Embodiment 3

[0064] Please refer to Image 6 On the basis of the second embodiment, in order to improve the solar photoelectric conversion efficiency and ensure that the sunlight can always be vertically irradiated on the battery panel, the present invention also provides a method for adjusting the azimuth angle and height angle of the solar panel:

[0065] S1: The DSP controller reads the current altitude and azimuth of the sun and the current azimuth and altitude of the solar panel through the four-quadrant photoelectric sensor;

[0066]S2: The DSP controller calculates the voltage difference ΔV1 and the voltage difference ΔV2 of the azimuth angle between the sampling sun and the solar panel in the photoelectric sensor, and calculates the azimuth angle deviation ΔF and the height angle deviation between the sun and the solar panel. ΔG;

[0067] S3: The DSP controller determines the number of pulses that the stepping motor needs to rotate according to the voltage difference ΔV1 and the e...

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Abstract

A rechargeable mobile energy storage system disclosed by the present invention comprises a mobile energy storage charging vehicle, the mobile energy storage charging vehicle comprises a mute box body, an energy storage battery is arranged in the mute box body, a solar charging module is arranged on the upper end face of the mute box body, and the solar charging module comprises a solar panel recycling bin. A lifting bottom plate is arranged in the solar panel recycling bin, a solar auxiliary charging assembly is arranged on the upper end face of the lifting bottom plate, and the solar auxiliary charging assembly comprises a solar panel, an acquisition module, a control output module, an azimuth angle adjusting mechanism and an elevation angle adjusting mechanism. The solar cell panel is used for carrying out auxiliary charging on the energy storage battery, the working time of the generator set can be shortened, energy conservation and emission reduction can be achieved, the azimuth angle and the elevation angle of the solar cell panel can be adjusted through the azimuth angle adjusting mechanism and the elevation angle adjusting mechanism, the solar cell panel can track sunlight in real time, and the energy conservation and emission reduction are achieved. And the solar photoelectric conversion efficiency is improved.

Description

technical field [0001] The invention belongs to the technical field of mobile energy storage, and in particular relates to a rechargeable mobile energy storage system. Background technique [0002] At this stage, the activities of electric vehicles are generally concentrated in urban areas, and electric vehicle charging stations (piles) are also mainly built in central urban areas. Electric vehicle charging stations (piles) will also be built on a large scale in sub-prosperous urban areas, large residential quarters, expressway service areas, and concentrated holiday and tourist areas. However, since the fixed charging station (pile) cannot be moved, a mobile charging vehicle is required to meet the charging requirements of electric vehicles under specific conditions. The existing mobile charging vehicles usually use diesel generators for on-site power generation. Today, the world is facing severe challenges from energy and environmental issues. Reducing fossil energy cons...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B60P3/00B60L53/30B60L53/51B60L53/53B60L53/16H02S20/30H02S20/32H02J7/35
CPCB60P3/00B60L53/30B60L53/51B60L53/53B60L53/16H02S20/30H02S20/32H02J7/35Y02E10/50Y02T10/70Y02T10/7072Y02T90/12Y02T90/14
Inventor 姚承勇张进滨姚海强
Owner 江苏群菱能源科技有限公司