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A Fire Skylight Control System Based on Solar Power and Internet of Things Technology and Its Application

A technology of solar power and Internet of Things technology, applied in the field of fire-fighting smoke exhaust structure design, can solve the problems of increasing safety hazards, delaying the escape time of personnel, power failure, etc., to achieve the effect of facilitating fire management and ensuring safe escape

Inactive Publication Date: 2017-04-19
SHANDONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Fire and smoke exhaust systems are generally installed in densely populated areas of public buildings, but at present, it is generally impossible to know the real-time information of the fire scene in time, and the skylight of the fire and smoke exhaust system cannot be opened in a short time to discharge smoke, which makes people trapped in the accident area. Personnel inhaled smoke and toxic gas, which delayed the escape time of personnel
In addition, the mains power supply is generally used now, but when the fire is serious, the mains power will be cut off, and the fire protection system will not be able to start, which increases the safety hazard.

Method used

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  • A Fire Skylight Control System Based on Solar Power and Internet of Things Technology and Its Application
  • A Fire Skylight Control System Based on Solar Power and Internet of Things Technology and Its Application
  • A Fire Skylight Control System Based on Solar Power and Internet of Things Technology and Its Application

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Experimental program
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Effect test

Embodiment 1

[0036] A fire-fighting skylight control system based on solar power and Internet of Things technology, including a fire-fighting skylight installed on the top of a building, a mains solar power conversion unit, a sensor node network unit, an intelligent terminal unit and a fire monitoring center;

[0037] The mains solar power conversion unit includes battery packs respectively connected to the city power grid and solar panels, and the battery packs supply power to user loads through inverters and mutual input devices when the mains power is cut off; the city power grid also Directly supply power to the user load through the mutual investment device;

[0038] The fire monitoring center respectively remotely controls the battery pack and the mutual input device: when the city power is supplied, the fire monitoring center controls the city power and solar panels to charge the battery packs, and the fire monitoring center controls the mutual The input device selects the urban power gr...

Embodiment 2

[0044] A working method of the system in building fire protection as described in embodiment 1, including the following steps:

[0045] (2) The smoke sensor in the building can detect the presence of fire smoke in the environment in real time;

[0046] (2) When the smoke sensor in the building senses fire smoke in the environment, the smoke sensor sends a number signal to the fire monitoring center through the zigbee communication module;

[0047] The fire protection monitoring center includes a monitoring host, and a data reader is connected to the monitoring host through a standard interface for receiving the number signal sent by the zigbee communication module; each smoke sensor is preset and programmed in the monitoring host When the data reader receives the number signal sent by the zigbee communication module, the fire monitoring center automatically converts the number into preset geographic location information to obtain the number of the corresponding zigbee communication m...

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Abstract

The invention relates to a firefighting skylight control system based on a solar power supply and an Internet of things technology. The firefighting skylight control system comprises a firefighting skylight arranged on the top of a building, a mains supply-solar power supply conversion unit, a sensor node network unit, an intelligent terminal unit and a firefighting monitoring center. The mains supply-solar power supply conversion unit comprises a battery pack which is connected with an urban power grid and a solar panel respectively and is used for supplying power to a user load through an inverter and a changeover device when the mains supply is cut off; the urban power grid directly supplies power to the user load through the changeover device. By adopting the control system, smog alarm can be made in time, and a fire smog system can be started automatically. The control system is suitable for building firefighting on public places. A scheme for taking the Internet of things technology and solar energy as backup power supplies is put forward specific to the defects of the conventional firefighting system, thereby bringing great convenience to firefighting management.

Description

Technical field [0001] The invention relates to a fire-fighting skylight control system based on solar power and Internet of Things technology and its application, and belongs to the technical field of fire-fighting smoke exhaust structure design. Background technique [0002] At the scene of a fire, there will be a lot of smoke and dust. The main cause of casualties in the fire is the toxic gas in the smoke. Statistics show that the deaths caused by the inhalation of toxic gas in the fire are far higher than the deaths caused by other injuries. 85% of the fires The above deaths were caused by the influence of smoke, and most of them died in a coma after inhaling smoke and toxic gases. The "12.25" fire in Luoyang in 2000 caused heavy casualties. According to subsequent investigations, it was found that all 309 people who died at the scene of the fire were suffocated due to inhalation of toxic fumes. [0003] Fire-fighting smoke exhaust systems are generally installed in densely po...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05B19/418
Inventor 王卿璞鲁海瑞
Owner SHANDONG UNIV
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