CN105467151A - A wind speed monitoring time controlling device based on the Internet of Things - Google Patents

Abstract

The invention relates to a wind speed monitoring time controlling device based on the Internet of Things. The wind speed monitoring time controlling device is mainly composed of a power amplifier, a high gain antenna, a Zigbee communication system module, a solar battery, a lithium battery power supply unit, a wind speed monitoring device, a single-chip microcomputer and a time controlling device. The wind speed monitoring time controlling device is a wireless wide area intelligent wind speed monitoring system based on new technology of the Internet of Things and adaptable to severe environments (such as mountainous regions, woodlands, sleet and thunder). The system realizes a star-shaped ad-hoc network of monitoring spots in a monitor area through the new technology of the Internet of Things, realizes data telemetering of wind speed data in the monitor area and simultaneously guarantees bidirectional transmission of the monitor data and equipment information in a full duplex communication mode.

Description

Based on the air monitoring time-controlling arrangement of Internet of Things

Technical field

The present invention relates to a kind of monitoring device, particularly a kind of air monitoring time-controlling arrangement based on Internet of Things.

Background technology

Along with the raising of human society industrialization degree and various social activities are deepened day by day for the impact of environment, even to this day, for the monitoring of ambient wind velocity information and the gather and analysis of related data, become particularly urgent.Early stage ambient wind velocity monitoring system adopts and manually gathers, and it is low that the method has efficiency, and data accuracy is poor, builds the inferior positions such as O&M cost is high.

Summary of the invention

For solving the problem, the object of the present invention is to provide a kind of low cost, the high performance air monitoring time-controlling arrangement based on Internet of Things.

In order to achieve the above object, based on an air monitoring time-controlling arrangement for Internet of Things, form primarily of power amplifier, high-gain aerial, Zigbee communication system module, solar cell and lithium battery power supply unit, wind speed supervising device, single-chip microcomputer, time-controlling arrangement.

Power amplifier is connected with single-chip microcomputer by circuit, high-gain aerial is connected with single-chip microcomputer by circuit, Zigbee communication system module is connected with single-chip microcomputer by circuit, solar cell is connected with single-chip microcomputer by circuit with lithium battery power supply unit, and wind speed supervising device is connected with single-chip microcomputer by circuit.

The monitor network of the design comprises a DTU(data transfer unit) and multiple wind speed supervising device node.The physical values of environmental parameter is converted into the simulating signal of voltage or current forms by wind speed supervising device, the simulating signal that sensor sends is converted into digital signal by the CPU of wind speed supervising device node, and sends air speed data by Zigbee communication system module to DTU.DTU carries out data packing to the wind speed information that wind speed supervising device nodes all in guarded region sends, and is sent all air speed datas of guarded region by the GPRS data remote-transmission module of DTU to upper computer software.Upper computer software has the function of real-time display monitoring region wind speed information, has the function of wind speed supervising device node parameter in amendment guarded region simultaneously.

Advantage of the present invention is as follows: 1. all monitoring node equipment of comprising of air monitoring system, adopt the MCU solution based on SOC technology, based on Internet of Things new technology, adopt the Y-connection Wireless Ad Hoc Networks of GPRS and ZigBee technology, in conjunction with DTU(DataTransferUnit) technology realizes data message teletransmission, and ensure that the bi-directional of Monitoring Data and facility information in full-duplex communication mode simultaneously, greatly increasing can the scope of guarded region and the work efficiency of system.

2. air monitoring system equipment is selected low-power chip and is designed low power mode of operation, adopt lithium battery+sun power UPS power supply region, can when powering without external power supply, the work period of at least 15 months is provided, the reliability of abundant guarantee equipment and practicality, greatly reduce maintenance cost.

3. the node device of air monitoring system adopts unique physical construction, and corrosion-resistant, high temperature, waterproof, can well adapt to the monitoring of rugged surroundings.

Accompanying drawing explanation

Fig. 1 is the block scheme of the air monitoring time-controlling arrangement that the present invention is based on Internet of Things.

1, power amplifier; 2, high-gain aerial; 3, Zigbee communication system module; 4, solar cell and lithium battery power supply unit; 5, wind speed supervising device; 6, single-chip microcomputer; 7, time-controlling arrangement.

Embodiment

Below in conjunction with accompanying drawing, the invention will be further described:

Based on an air monitoring time-controlling arrangement for Internet of Things, form primarily of power amplifier 1, high-gain aerial 2, Zigbee communication system module 3, solar cell and lithium battery power supply unit 4, wind speed supervising device 5, single-chip microcomputer 6, time-controlling arrangement 7.

Power amplifier 1 is connected with single-chip microcomputer by circuit, high-gain aerial 2 is connected with single-chip microcomputer by circuit, Zigbee communication system module 3 is connected with single-chip microcomputer 6 by circuit, solar cell is connected with single-chip microcomputer 6 by circuit with lithium battery power supply unit 4, and wind speed supervising device 5 is connected with single-chip microcomputer 6 by circuit.

The monitor network of the design comprises a DTU(data transfer unit) and multiple wind speed supervising device 5 node.The physical values of environmental parameter is converted into the simulating signal of voltage or current forms by wind speed supervising device 5, the simulating signal that sensor sends is converted into digital signal by the CPU of wind speed supervising device 5 node, and sends air speed data by Zigbee communication system module 3 to DTU.DTU carries out data packing to the wind speed information that wind speed supervising device 5 nodes all in guarded region sends, and is sent all air speed datas of guarded region by the GPRS data remote-transmission module of DTU to upper computer software.Upper computer software has the function of real-time display monitoring region wind speed information, has the function of wind speed supervising device 5 node parameter in amendment guarded region simultaneously.

As mentioned above, plan content given in conjunction with the accompanying drawings and embodiments, can derive similar technical scheme.In every case be the content not departing from technical solution of the present invention, any simple modification done above embodiment according to technical spirit of the present invention, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (1)

1. the air monitoring time-controlling arrangement based on Internet of Things, form primarily of power amplifier, high-gain aerial, Zigbee communication system module, solar cell and lithium battery power supply unit, wind speed supervising device, single-chip microcomputer, time-controlling arrangement, it is characterized in that:

Power amplifier is connected with single-chip microcomputer by circuit, high-gain aerial is connected with single-chip microcomputer by circuit, Zigbee communication system module is connected with single-chip microcomputer by circuit, solar cell is connected with single-chip microcomputer by circuit with lithium battery power supply unit, and wind speed supervising device is connected with single-chip microcomputer by circuit.