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Visual monitoring and photographing power supply meteorological control system and method for overhead line

An overhead line and control system technology, applied in the general control system, control/regulation system, program control, etc., can solve the problems that the remaining power of the super capacitor cannot be released, and the capacity of the super capacitor is not fully utilized, so as to improve the capacity utilization rate, Effect of increasing available power supply and extending power supply time

Active Publication Date: 2021-06-11
SHANDONG LUNENG SOFTWARE TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The battery voltage is relatively stable. For example, the working voltage of a 6.4V lithium iron phosphate battery is 5.5V to 7.2V, while the working voltage range of a super capacitor is wide, up to 0 to 10.8V. In the existing hybrid power supply of batteries and super capacitors, The battery and the supercapacitor are connected in parallel through a diode, and supply power to the subsequent load according to the voltage level. When the discharge voltage of the supercapacitor reaches or is lower than the battery voltage, the system takes power from the battery. In this way, the remaining power of the supercapacitor cannot be released, and the supercapacitor is not fully utilized. Capacitor capacity

Method used

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  • Visual monitoring and photographing power supply meteorological control system and method for overhead line
  • Visual monitoring and photographing power supply meteorological control system and method for overhead line
  • Visual monitoring and photographing power supply meteorological control system and method for overhead line

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Embodiment 1

[0033] In one or more implementations, a meteorological control system for visual monitoring and power supply of overhead lines is disclosed, such as figure 1 As shown, it includes: a solar panel, a power supply module, a meteorological data acquisition module and a microcontroller, the solar panel is connected to the power supply module, and the power supply module and the meteorological data acquisition module are respectively connected to the microcontroller; The multiple functional modules of the shooting device are connected separately; the microcontroller controls the power supply module to select different power supplies according to the weather data in the future set time period, the current power of the power supply module, the importance of multiple functional modules and the required energy consumption. Strategy.

[0034] The weather data acquisition module obtains weather forecast data for several hours or days in the future according to the collected current weath...

Embodiment 2

[0069] In one or more embodiments, a meteorological control method for overhead line visual monitoring and power supply is disclosed, including:

[0070] The microcontroller controls the power supply module to select different power supply strategies according to the current meteorological data, the current power of the power supply module, the importance of multiple functional modules and the required energy consumption, including:

[0071] According to the temperature of the power supply module, determine whether the power supply strategy selects the energy storage model strategy;

[0072] Combining the power of the power supply module and the weather data within a set time in the future, determine whether the power supply strategy is a performance model strategy, a time model strategy or a general model strategy.

[0073] The specific power supply strategy division and selection principles have been described in detail in Embodiment 1, and will not be repeated here.

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Abstract

The invention discloses an overhead line visual monitoring and photographing power supply meteorological control system and method. The system comprises a power supply module, a meteorological data collection module and a microcontroller, wherein the power supply module and the meteorological data collection module are connected with the microcontroller, an output end of the power supply module is respectively connected with a plurality of functional modules of the monitoring and shooting device; and the microcontroller controls the power supply module to select different power supply strategies according to the meteorological data in a future set time period, the current electric quantity of the power supply module and the importance and required energy consumption of the plurality of functional modules. The system is advantaged in that the internal function modules of the visual monitoring and photographing system are graded according to importance and energy consumption, charging strategy management is carried out in combination with the residual electric quantity and meteorological data, and the working duration of core functions of the monitoring and photographing system is effectively guaranteed.

Description

technical field [0001] The invention belongs to the technical field of visual monitoring and shooting of power transmission lines, in particular to a power supply meteorological control system and method for visual monitoring and shooting of overhead lines. Background technique [0002] The statements in this section merely provide background information related to the present disclosure and do not necessarily constitute prior art. [0003] The power supply system of the existing transmission line visual monitoring system uses solar panels to obtain light energy, and charges the power supply through the solar charging management circuit to store electric energy. [0004] Due to the different light time and light intensity in different geographical locations, the temperature in different seasons in the same location is different. Therefore, it is very important for the power management of the transmission line visual monitoring system to consider the impact of meteorological ...

Claims

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Application Information

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IPC IPC(8): G05B19/042H02J9/06
CPCG05B19/0428H02J9/061G05B2219/24024
Inventor 焦之明冯鑫刘强李巨宁姚舜张晓花纪洪伟巩方波
Owner SHANDONG LUNENG SOFTWARE TECH
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