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Intelligent fire hydrant system of internet of things

A technology of fire hydrant and Internet of Things, applied in the field of intelligent fire hydrant system of Internet of Things, can solve the problem of not being able to find the fire hydrant in the first time, and achieve the effect of timely maintenance and guarantee

Inactive Publication Date: 2017-10-13
九江中船消防设备有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] At present, there is still no pressure test and position calibration for fire hydrants. When a fire breaks out in a certain area, firefighters cannot find the nearest fire hydrant immediately after using up their own water tanks.

Method used

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  • Intelligent fire hydrant system of internet of things

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Embodiment 1 A low-power wireless transmission monitoring system for fire hydrant pressure

[0030] components

Mass percentage%

hydraulic sensor

70

lithium battery

20

PCBAs

10

[0031] Prepared by the following steps:

[0032] 1. A low-power wireless transmission monitoring system for fire hydrant pressure is designed as a schematic diagram.

[0033] 2. Package and design all devices related to the schematic diagram, and establish a netlist

[0034] 3. Import the netlist and related components into the PCB board

[0035] 4. Perform device layout

[0036] 5. LAYOUT

[0037] 6. PCB processing and component procurement

[0038] 7. Welding device

[0039] 8. Software and hardware debugging and testing

[0040] 9. Carry out relevant environmental tests.

[0041] The product obtained in this embodiment is stable in nature and will not deteriorate in long-term storage (more than 2 years) under normal temperature and press...

Embodiment 2

[0066] Embodiment 2 A fire hydrant area RFID control system

[0067] components

Mass percentage%

Outer box

10

antenna

5.0

PCBAs

5.0

power supply

80

[0068] Prepared by the following steps:

[0069] 1. Design a fire hydrant area RFID control system as a schematic diagram.

[0070] 2. Package and design all devices related to the schematic diagram, and establish a netlist

[0071] 3. Import the netlist and related components into the PCB board

[0072] 4. Perform device layout

[0073] 5. LAYOUT

[0074] 6. PCB processing and component procurement

[0075] 7. Welding device

[0076] 8. Software and hardware debugging and testing

[0077] 9. Carry out relevant environmental tests.

[0078] The product obtained in this embodiment is stable in nature and will not deteriorate in long-term storage (more than 2 years) under normal temperature and pressure.

[0079] 1. Effect test of RFID control system in fire hydrant...

Embodiment 3

[0101] Embodiment 3 A fire-fighting handheld RFID device system

[0102] components

Mass percentage%

Outer box

20

antenna

5.0

PCBAs

5.0

lithium battery

70

[0103] Prepared by the following steps:

[0104] 1. A low-power wireless transmission monitoring system for fire hydrant pressure is designed as a schematic diagram.

[0105] 2. Package and design all devices related to the schematic diagram, and establish a netlist

[0106] 3. Import the netlist and related components into the PCB board

[0107] 4. Perform device layout

[0108] 5. LAYOUT

[0109] 6. PCB processing and component procurement

[0110] 7. Welding device

[0111] 8. Software and hardware debugging and testing

[0112] 9. Carry out relevant environmental tests.

[0113] The product obtained in this embodiment is stable in nature and will not deteriorate in long-term storage (more than 2 years) under normal temperature and pressure.

[0114] 1. ...

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Abstract

The invention discloses an intelligent fire hydrant system of an internet of things. The system comprises a fire hydrant RFID monitoring system, a regional RFID control system, a fire engine handheld RFID system, and a fire control center RFID control system; the fire hydrant RFID monitoring system comprises ZIGBEE2.4G wireless and fire hydrant pressure acquisition; when a fire hydrant silence state system is located in a NA-grade consumption state, the fire hydrant pressure is acquired at time intervals of a certain time; fire hydrant state information, ID numbers and state information are sent through ZIGBEE2.4G wireless; the regional RFID control system comprises ZIGBEE2.4G wireless, AP, GPS and a controller, and is connected into a traffic control box to obtain regional RFID control system power supply; the fire engine handheld RFID system comprises ZIGBEE2.4G wireless, AP, GPS and a controller; and the fire control center RFID control system comprises a server, a human-computer interaction platform, and background software. The system has the characteristics of simple operation, easy control and high reliability.

Description

technical field [0001] The invention relates to an intelligent fire hydrant system of the Internet of Things. Background technique [0002] A fire is a burning that is out of control in time or space. Fire is the most frequent and one of the most important disasters that threaten public safety and social development. Human beings can use and control fire, which is an important symbol of civilization progress. Therefore, the history of human use of fire and the history of fighting against fire go hand in hand. In the event of a fire, people need safety, escape, and property to be minimized as much as possible. With the development of human beings, life safety and property protection are now more prominent. [0003] The country invests a lot of manpower and material resources in the field of fire protection every year for infrastructure construction of fire protection. Although it has been greatly improved, it is still difficult to find the nearest fire hydrant in time wh...

Claims

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Application Information

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IPC IPC(8): A62C35/20G06K17/00G06Q10/00G06Q50/26G08C17/02
CPCA62C35/20G06K17/0029G06Q10/20G06Q50/265G08C17/02
Inventor 章冬华夏威邾立力何涛何况
Owner 九江中船消防设备有限公司
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