Wireless fidelity (WIFI)-based infrared thermometer

Abstract

The invention relates to a wireless fidelity (WIFI)-based infrared thermometer, which comprises an infrared measurement probe, a laser indicator, a processor microprogrammed control unit (MCU), a liquid crystal display, a keyboard, a WIFI communication circuit and a battery, wherein the infrared measurement probe is used for detecting a target temperature and converting the detected target temperature into an electrical signal; the laser indicator is fixed together with the infrared probe coaxially and is used for indicating measured targets; the processor MCU is used for acquiring the electrical signal of the infrared measurement probe, processing the acquired electrical signal, sending the processed electrical signal to the liquid crystal display, saving data and transmitting the data to a network by the WIFI communication circuit; the liquid crystal display is used for displaying man-machine interaction data including the data processed by the processor MCU, configuration parameters, time information and network parameters; the keyboard is used for sending operating signals of users to the processor MCU; and the WIFI communication circuit is used for sending the data processed by the processor MCU to a server computer in real time by a WIFI network. In the WIFI-based infrared thermometer, temperature change data of important equipment, areas or parts under coal mines is transmitted to the ground in real time in a wireless mode to monitor temperature information under the coal mines dynamically.

Description

technical field [0001] The invention relates to a thermometer, in particular to an infrared thermometer used in underground coal mines. Background technique [0002] The current infrared temperature measurement technology is relatively mature, but the current handheld infrared thermometers basically have problems such as inability to perform data management, short measurement distance, and poor anti-interference ability. The use of infrared thermometers in coal mines is also independent and static. It is necessary for inspectors to measure and record the temperature data of each point one by one, and then enter the data into the computer after going into the mine, so that the data cannot be transmitted to the integrated management platform on the mine in time. It does not achieve the purpose of real-time monitoring, nor does it fully utilize the existing backbone network. Contents of the invention [0003] In order to overcome the shortcomings of the above-mentioned prior...

AI Technical Summary

Problems solved by technology

[0002] The current infrared temperature measurement technology is relatively mature, but the current handheld infrared thermometers basically have problems such as inability to perform data management, short measurement distance, and poor anti-interference ability.

The use of infrared thermometers in coal mines is also independent and static. It is necessary for inspectors to measure and record the temperature data of each point one by one, and then enter the data into the computer after going into the mine, so that the data cannot be transmitted to the integrated management platform on the mine in time. It does not achieve the purpose of real-time monitoring, nor does it fully utilize the existing backbone network

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