CN210570822U - Multimode communication temperature and humidity monitoring equipment - Google Patents

Abstract

The utility model discloses a multimode communication humiture monitoring facilities, including the temperature and humidity sensor module, the MCU module, Zigbee communication module, BLE communication module, antenna module and power module, the temperature and humidity sensor module is used for detecting on-the-spot temperature and humidity, and convert temperature measurement and humidity measurement into the easy signal of telecommunication of being handled by measurement, temperature and humidity sensor module and MCU module connection, the MCU module is used for gathering the data of temperature and humidity sensor module, Zigbee communication module and BLE communication module respectively with MCU module both way junction, Zigbee communication module and BLE communication module are connected with antenna module respectively, power module is to the temperature and humidity sensor module, the MCU module, Zigbee communication module, BLE communication module carries out the power supply management. The beneficial effects of the utility model reside in that: the temperature and humidity monitoring equipment compatible with various communication modes is provided, real-time transmission of a large amount of data can be realized, and the panorama, the real-time performance, the reliability and the accuracy of information monitoring are improved.

Description

Multimode communication temperature and humidity monitoring equipment

Technical Field

The utility model relates to a temperature and humidity monitoring technology field especially relates to a multimode communication temperature and humidity monitoring facilities.

Background

Generally, electrical equipment has corresponding requirements on the temperature and humidity of the environment, and particularly for expensive and precise equipment. Therefore, in order to ensure that the equipment works in a normal environment, the monitoring center needs to know the conditions of corresponding temperature, humidity and the like on the site. The temperature and humidity sensor is an important tool for realizing temperature and humidity data acquisition, and the wireless temperature and humidity sensor is an important component for the development of the intelligent power distribution network, is an important means for improving power supply reliability and acquiring data in real time, and is an inevitable requirement for the modernization and intelligent development of the power distribution network. The traditional wired temperature and humidity sensing network has the defects of troublesome wiring, low random mobility of equipment, inconvenience in later maintenance and the like, so that a wireless sensing network technology needs to be introduced, the temperature and humidity data of a power grid are rapidly and accurately acquired and transmitted, and the intelligent management of the power grid is realized.

At present, wireless temperature and humidity sensors are mainly based on a Zigbee technology, and a system collects data through sensor nodes and sends the data to a Zigbee gateway through a Zigbee wireless transceiver module to be finally displayed on a monitoring center host. In the wireless transmission process, due to the influence of transmission distance, field conditions and the like, communication between the sensor node and the Zigbee gateway is wrong, so that data acquisition and transmission are not accurate and timely enough, and the reliability of power grid monitoring data is low.

SUMMERY OF THE UTILITY MODEL

To the not enough of current wireless temperature and humidity sensor in aspects such as communication methods, sensor configuration, the utility model aims to provide a multimode communication temperature and humidity monitoring facilities improves the accuracy and the promptness of humiture data acquisition and transmission.

In order to achieve the above objects, the present invention provides a multimode communication temperature and humidity monitoring device, which comprises a temperature and humidity sensor module, an MCU module, a Zigbee communication module, a BLE communication module, an antenna module, and a power module, wherein the temperature and humidity sensor module is used for detecting the temperature and humidity of a site, and converts the temperature and humidity into electrical signals which are easy to be measured and processed, the temperature and humidity sensor module is connected with the MCU module, the MCU module is used for collecting data of the temperature and humidity sensor module, the Zigbee communication module and the BLE communication module are respectively connected with the MCU module in two directions, the Zigbee communication module and the BLE communication module are respectively connected with the antenna module, the power module is used for carrying out power supply management on the temperature and humidity sensor module, the MCU module, the Zigbee communication module and the BLE communication module.

Preferably, the MCU module is further connected to a UART interface unit and a JTAG interface unit.

Compared with the prior art, the beneficial effects of the utility model reside in that: the temperature and humidity monitoring equipment compatible with various communication modes is provided, real-time transmission of a large amount of data can be realized, and the panorama, the real-time performance, the reliability and the accuracy of information monitoring are improved.

Drawings

Fig. 1 is a schematic view of an embodiment of the present invention;

in the figure: 1. a temperature and humidity sensor module; 2. an MCU module; 3. a Zigbee communication module; 4. a BLE communication module; 5. an antenna module; 6. and a power supply module.

Detailed Description

The present invention will be further described with reference to the following detailed description, and it should be noted that, in the premise of no conflict, the embodiments or technical features described below can be arbitrarily combined to form a new embodiment.

As shown in fig. 1, the utility model provides a multimode communication temperature and humidity monitoring facilities, including temperature and humidity sensor module 1, MCU module 2, Zigbee communication module 3, BLE communication module 4, antenna module 5 and power module 6.

The temperature and humidity sensor module 1 is used for detecting the temperature and humidity of a site and converting the temperature and humidity into electric signals which are easy to measure and process. The MCU module 2 is used for realizing the drive management of various sensor devices, acquiring the water level of sensor data and controlling the communication of the micropower wireless communication module, and the MCU module 2 can also carry out equipment model encapsulation on an accessed sensor terminal, defines a data model for the acquired data and adapts to the traditional constraint protocol of electric power. The temperature and humidity sensor module 1 is connected with the MCU module 2, and the MCU module 2 is used for collecting data of the temperature and humidity sensor module 1.

The Zigbee communication module 3 is used for realizing short-distance wireless communication and has the characteristics of short distance, low power consumption, low speed and the like. The BLE communication module 3 is based on the Bluetooth low-power consumption technology, is used for solving the problem of low data transmission under the ultra-low power consumption, has the characteristics of ultra-low standby power consumption, lower emission peak current, delay time not more than 3ms, interoperation robustness and the like, and is very important for optimizing the transmission power consumption of the wireless sensor node. The Zigbee communication module 3 and the BLE communication module 4 are respectively in bidirectional connection with the MCU module 2, the MCU module 2 can wake up the Zigbee communication module 3 and the BLE communication module 4 and configure relevant parameters, and transmit the received data of the temperature and humidity sensor module 1 to the Zigbee communication module 3 and the BLE communication module 4. Meanwhile, the MCU module 2 may also receive data sent by the Zigbee communication module 3 and the BLE communication module 4.

The Zigbee communication module 3 and the BLE communication module 4 are connected to the antenna module 5, respectively, so as to wirelessly communicate with an external device through the antenna module 5.

The power module 6 is used for carrying out power supply management on the temperature and humidity sensor module 1, the MCU module 2, the Zigbee communication module 3 and the BLE communication module 4.

The utility model discloses a multimode communication humiture monitoring facilities has realized two kinds of communication module's compatibility, has increased communication channel, is favorable to realizing the real-time transmission of a large amount of data, improves the accuracy and the promptness of data acquisition and transmission. The utility model discloses constructed the multimode communication humiture monitoring facilities who is applicable to the monitoring of electrical equipment, temperature and humidity data that can real-time supervision electrical equipment and surrounding environment.

The utility model discloses a multimode communication humiture monitoring facilities can be connected with thing networking monitoring platform communication, conveys data to thing networking monitoring platform through wireless communication network to thing networking monitoring platform can demonstrate the humiture data of each monitoring point position that acquires in real time in the customer end. The monitoring platform of the internet of things can carry out statistical analysis on temperature and humidity data, judge whether the temperature or the humidity of the point location is over-limit according to the alarm threshold value of each monitoring point location, and once the temperature or the humidity is detected to be over-limit, the monitoring platform of the internet of things gives an alarm immediately and can be located to the alarm point location in a three-dimensional scene in an express way.

When data alarm occurs in a certain monitoring point location, the monitoring camera is linked with the monitoring platform of the internet of things to photograph and record the video of the scene and the equipment area associated with the point location, and video information is popped up at the client. The monitoring platform of the internet of things can also be used for linkage with surrounding lighting systems to cooperate according to the region and time of occurrence of alarm. When the monitoring point position gives an alarm of overhigh temperature, the air-conditioning equipment of the room where the monitoring point is located is linked to cool; when the monitoring point position gives an alarm that the humidity is too high, the air conditioning equipment in the room where the monitoring point is located is linked to discharge the humidity, and the linked fan is used for ventilating.

The power supply module 6 adapts to the voltage requirements of the various communication and electrical interfaces.

In some embodiments, the MCU module 2 is further connected with a UART interface unit and a JTAG interface unit.

The basic principles, main features and advantages of the present invention have been described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (2)

1. The temperature and humidity sensor module is used for detecting the temperature and humidity of a site and converting the temperature and humidity into electric signals which are easy to measure and process, the temperature and humidity sensor module is connected with the MCU module, the MCU module is used for collecting data of the temperature and humidity sensor module, the Zigbee communication module and the BLE communication module are respectively in two-way connection with the MCU module, the Zigbee communication module and the BLE communication module are respectively connected with the antenna module, and the power module is used for carrying out power supply management on the temperature and humidity sensor module, the MCU module, the Zigbee communication module and the BLE communication module.

2. The multimode communication temperature and humidity monitoring device of claim 1, wherein the MCU module is further connected to a UART interface unit and a JTAG interface unit.

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