CN115150455A - Wireless sensor engineering field configuration device and configuration method thereof - Google Patents

Abstract

The invention discloses a wireless sensor engineering field configuration device and a configuration method thereof.A monitoring host identification number is acquired through a two-dimensional code recognition module, after the monitoring host identification number is acquired, a sensor identification number is acquired in a manner of acquiring a sensor message broadcasted by a wireless sensor, the sensor identification number of the wireless sensor is acquired through the two-dimensional code recognition module, at the moment, if the wireless sensor identification number is stored in a main storage module, wireless sensor installation position information input by a user is acquired through a man-machine interaction module, a wireless sensor configuration message is generated according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, the wireless sensor configuration message is broadcasted to a monitoring host to complete the engineering field configuration of the wireless sensor, the wireless sensor number does not need to be manually input, and the information quantity manually input and the possibility of configuration errors are reduced.

Description

Wireless sensor engineering field configuration device and configuration method thereof

Technical Field

The invention relates to the technical field of wireless sensor networking, in particular to a wireless sensor engineering field configuration device and a configuration method thereof.

Background

With the low power consumption sensors and the on-site wireless communication technology becoming mature, more and more wireless sensors adopting battery power supply or self-power generation technology are adopted for the on-line monitoring devices of the power transmission line in the power grid, and the wireless sensors generally adopt technologies such as LoRa and 6LoWPan to communicate with a monitoring host or an internet of things agent.

Because there is no physical connection between the wireless sensor and the monitoring host after the wireless communication technology is adopted, there is no physical connection for matching between the wireless sensor, and the matching between the existing wireless sensor and the monitoring host is completed by setting a configuration file on the monitoring host and then manually inputting the serial number of the wireless sensor in the configuration file. The problems of filling errors and missing filling of the serial numbers of the wireless sensors are easily caused during field installation and maintenance, and the pairing efficiency and accuracy between the wireless sensors and the monitoring host are influenced.

Disclosure of Invention

The invention provides a wireless sensor engineering field configuration device and a configuration method thereof, which are used for solving the technical problems that the pairing efficiency and accuracy between a wireless sensor and a monitoring host are influenced because the wireless sensor number is easily filled in by mistake and missing during field installation and maintenance because the pairing between the wireless sensor and the monitoring host is completed by setting a configuration file on the monitoring host and then manually inputting the wireless sensor number in the configuration file.

In view of the above, a first aspect of the present invention provides a wireless sensor engineering field configuration device, including a configuration host and a configuration slave;

the configuration host comprises a main processing module, a main storage module, a man-machine interaction module, a two-dimension code identification module and a main wireless communication module;

the auxiliary machine is configured to comprise an auxiliary wireless communication module, an auxiliary processing module and a wireless signal transmission module;

the man-machine interaction module is used for acquiring a two-dimensional code scanning instruction and wireless sensor installation position information which are input by a user on a man-machine interaction interface;

the main processing module is used for controlling the two-dimension code recognition module to read the two-dimension code information after receiving the two-dimension code scanning instruction, and acquiring a sensor identification number or a monitoring host identification number;

the main processing module is also used for sending an initialization command to the configuration auxiliary machine through the main wireless communication module;

the main storage module is used for storing the sensor identification number analyzed by the auxiliary processing module, the monitoring host identification number read by the two-dimensional code identification module and the wireless sensor mounting position information acquired by the man-machine interaction module, wherein the same sensor identification number and the monitoring host identification number are not stored repeatedly;

the auxiliary wireless communication module is used for forwarding the initialization command issued by the main wireless communication module to the auxiliary processing module;

the auxiliary processing module is used for starting the wireless signal transmission module after receiving the initialization command, and continuously receiving the sensor message broadcasted by the wireless sensor through the wireless signal transmission module;

the auxiliary processing module is also used for analyzing the sensor identification number from the message after receiving the message, judging whether the same sensor identification number is received or not, and uploading the sensor identification number to the main processing module of the configuration host through the auxiliary wireless communication module if the same sensor identification number is not received;

the main processing module is also used for generating a wireless sensor configuration message according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, and transmitting the wireless sensor configuration message to the wireless signal transmission module through the main wireless communication module;

the wireless signal transmission module is also used for broadcasting the wireless sensor configuration message to the monitoring host, so that the monitoring host completes the engineering field configuration of the wireless sensor according to the wireless sensor configuration message.

Optionally, the configuration host is a smartphone.

Optionally, the primary wireless communication module and the secondary wireless communication module communicate in a bluetooth communication mode.

Optionally, the main processing module is further configured to:

and when detecting that the sensor identification number read by the two-dimensional code recognition module is not stored and recorded in the main storage module, controlling the man-machine interaction module to display alarm information on a man-machine interaction interface and prompting a user to check the wireless sensor.

The second aspect of the invention provides a configuration method of a wireless sensor engineering field configuration device, which comprises the following steps:

a human-computer interaction module of the configuration host acquires a two-dimension code instruction of the scanning monitoring host input by a user on a human-computer interaction interface, and sends the two-dimension code instruction of the scanning monitoring host to a main processing module;

the main processing module controls the two-dimension code recognition module to scan the two-dimension code of the monitoring host according to the two-dimension code command of the scanning monitoring host, reads the identification number of the monitoring host carried by the two-dimension code of the monitoring host, and stores the read identification number of the monitoring host into the main storage module;

the main processing module issues an initialization command to the auxiliary processing module through the main wireless communication module and the auxiliary wireless communication module configured with the auxiliary machine;

the auxiliary processing module starts the wireless signal transmission module after receiving the initialization command, and continuously receives a sensor message broadcasted by the wireless sensor through the wireless signal transmission module;

the auxiliary processing module analyzes the sensor identification number from the sensor message and judges whether the same sensor identification number is received or not, if not, the sensor identification number is uploaded to a main storage module of the configuration host computer through the auxiliary wireless communication module for storage;

a human-computer interaction module of the configuration host acquires a two-dimension code instruction of a scanning sensor input by a user on a human-computer interaction interface, and sends the two-dimension code instruction of the scanning sensor to a main processing module;

the main processing module controls the two-dimension code recognition module to scan the two-dimension code of the wireless sensor according to the two-dimension code command of the scanning sensor, and reads a sensor identification number carried by the two-dimension code of the wireless sensor;

the main processing module judges whether a sensor identification number carried by a two-dimensional code of the wireless sensor is stored in the main storage module, if so, the man-machine interaction module is controlled to display sensor installation position filling information on a man-machine interaction interface, and the wireless sensor installation position information input by a user is acquired;

the main processing module generates a wireless sensor configuration message according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, and the wireless sensor configuration message is sent to the wireless signal transmission module through the main wireless communication module;

the wireless signal transmission module broadcasts the wireless sensor configuration message to the monitoring host, so that the monitoring host completes the engineering field configuration of the wireless sensor according to the wireless sensor configuration message.

Optionally, the main processing module determines whether a sensor identification number carried by the two-dimensional code of the wireless sensor is stored in the main storage module, and if so, controls the human-computer interaction module to fill in information at a sensor installation position displayed on the human-computer interaction interface, and obtains information of the wireless sensor installation position input by the user, and the method further includes:

and if the sensor identification number carried by the two-dimensional code of the wireless sensor is not stored in the main storage module, controlling the man-machine interaction module to display alarm information on the man-machine interaction interface and prompting a user to check the wireless sensor.

Optionally, the configuration host is a smartphone.

Optionally, the primary wireless communication module and the secondary wireless communication module communicate in a bluetooth communication mode.

According to the technical scheme, the wireless sensor engineering field configuration device provided by the invention has the following advantages:

the wireless sensor engineering field configuration device provided by the invention has the advantages that the monitoring host identification number is obtained through the two-dimensional code recognition module, the sensor identification number is obtained in a manner of obtaining a sensor message broadcasted by the wireless sensor after the monitoring host identification number is obtained, the sensor identification number of the wireless sensor is obtained through the two-dimensional code recognition module, at the moment, if the wireless sensor identification number is stored in the main storage module, the wireless sensor installation position information input by a user is obtained through the man-machine interaction module, the wireless sensor configuration message is generated according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, the wireless sensor configuration message is broadcasted to the monitoring host to complete the engineering field configuration of the wireless sensor, the wireless sensor number is not required to be manually input, the manually input information quantity and the possibility of configuration errors are reduced, the technical problems that the pairing between the existing wireless sensor and the monitoring host is completed by setting a configuration file on the monitoring host and then manually inputting the wireless sensor number, the filling errors and the missing filling errors of the wireless sensor number are easily caused during field installation and maintenance, and the pairing efficiency and the accuracy between the wireless sensor and the monitoring host are influenced are solved.

The configuration method of the wireless sensor engineering field configuration device provided by the invention is applied to the wireless sensor engineering field configuration device provided by the invention, the principle and the obtained technical effect of the configuration method are the same as those of the wireless sensor engineering field configuration device provided by the invention, and the details are not repeated herein.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other related drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a wireless sensor engineering field configuration device provided in the present invention;

FIG. 2 is a schematic diagram of an operating principle of a wireless sensor engineering field configuration device provided in the present invention;

FIG. 3 is a logic diagram of a wireless sensor paired by a monitoring host of a wireless sensor engineering field configuration device provided in the present invention;

fig. 4 is a schematic flow chart of a configuration method of a wireless sensor engineering field configuration device provided in the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

For easy understanding, please refer to fig. 1, the present invention provides an embodiment of a wireless sensor engineering field configuration device, including a configuration host and a configuration slave;

the configuration host comprises a main processing module, a main storage module, a man-machine interaction module, a two-dimension code identification module and a main wireless communication module;

the auxiliary machine is configured to comprise an auxiliary wireless communication module, an auxiliary processing module and a wireless signal transmission module;

the man-machine interaction module is used for acquiring a two-dimensional code scanning instruction and wireless sensor installation position information which are input by a user on a man-machine interaction interface;

the main processing module is used for controlling the two-dimension code recognition module to read the two-dimension code information after receiving the two-dimension code scanning instruction, and acquiring a sensor identification number or a monitoring host identification number;

the main processing module is also used for sending an initialization command to the configuration auxiliary machine through the main wireless communication module;

the main storage module is used for storing the sensor identification number analyzed by the auxiliary processing module, the monitoring host identification number read by the two-dimensional code recognition module and the wireless sensor installation position information acquired by the man-machine interaction module, wherein the same sensor identification number and the monitoring host identification number are not stored repeatedly;

the auxiliary wireless communication module is used for transmitting the initialization command issued by the main wireless communication module to the auxiliary processing module;

the auxiliary processing module is used for starting the wireless signal transmission module after receiving the initialization command, and continuously receiving the sensor message broadcasted by the wireless sensor through the wireless signal transmission module;

the auxiliary processing module is also used for analyzing the sensor identification number from the message after receiving the message, judging whether the same sensor identification number is received or not, and uploading the sensor identification number to the main processing module of the configuration host through the auxiliary wireless communication module if the same sensor identification number is not received;

the main processing module is also used for generating a wireless sensor configuration message according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, and transmitting the wireless sensor configuration message to the wireless signal transmission module through the main wireless communication module;

the wireless signal transmission module is also used for broadcasting the wireless sensor configuration message to the monitoring host, so that the monitoring host completes the engineering field configuration of the wireless sensor according to the wireless sensor configuration message.

It should be noted that, the working principle of the wireless sensor engineering field configuration device provided in the embodiment of the present invention is shown in fig. 2 and 3, the method comprises the following steps:

the method comprises the following steps that (1) a user (engineering personnel in an engineering field) carries wireless sensor engineering field configuration to an installation field of a wireless sensor, a command for scanning a two-dimensional code of a monitoring host is input into a man-machine interaction interface of a man-machine interaction module, the man-machine interaction module of the configuration host can acquire the two-dimensional code command of the scanning monitoring host input by the user on the man-machine interaction interface, the two-dimensional code command of the scanning monitoring host is sent to a main processing module, the main processing module controls a two-dimensional code recognition module to scan the two-dimensional code of the monitoring host according to the two-dimensional code command of the scanning monitoring host, the identification number of the monitoring host carried by the two-dimensional code of the monitoring host is read, the read identification number of the monitoring host is stored in a main storage module, the main processing module issues an initialization command to an auxiliary wireless communication module of the configuration auxiliary computer through the main wireless communication module, the auxiliary wireless communication module forwards the initialization command to the auxiliary processing module, the auxiliary processing module starts a wireless signal transmission module after receiving the initialization command, the wireless sensor message broadcasted by the wireless sensor (the sensor message carrying the identification number) is continuously received by the auxiliary processing module, and if the sensor message is not received by the auxiliary sensor, the auxiliary sensor identification number, and the auxiliary sensor, whether the sensor is received by the auxiliary processing module, and whether the sensor is transmitted to the sensor, and whether the auxiliary sensor is transmitted to the main processing module, and whether the sensor. On one hand, the sensor message carries the sensor identification number, so that the sensor identification number information of the wireless sensor can be obtained, and on the other hand, whether the wireless sensor has the problem of abnormal state or not can be checked according to the condition of the received sensor message.

And (2) inputting a command for scanning a two-dimensional code of a sensor into a man-machine interaction interface of a man-machine interaction module by a user, configuring the man-machine interaction module of a host to acquire a two-dimensional code command of the scanning sensor input by the user on the man-machine interaction interface, sending the two-dimensional code command of the scanning sensor to a main processing module, controlling a two-dimensional code recognition module to scan the two-dimensional code of the wireless sensor by the main processing module according to the two-dimensional code command of the scanning sensor, reading a sensor identification number carried by the two-dimensional code of the wireless sensor, judging whether the sensor identification number carried by the two-dimensional code of the wireless sensor is stored in a main storage module or not by the main processing module, controlling the man-machine interaction module to display information (which can be a sensor installation position acquisition form) at the man-machine interaction interface, acquiring the information of the installation position of the wireless sensor input by the user, and controlling the man-machine interaction module to display an abnormal working state of the wireless sensor in the main storage module if the sensor identification number carried by the two-dimensional code of the wireless sensor is judged to be not stored in the main storage module, and displaying an alarm message at the main storage interface of the man-machine interaction module. The wireless sensor on the engineering site can be correctly paired with the monitoring host under the normal working state through the mode of acquiring the sensor message and the mode of scanning the two-dimensional code of the wireless sensor.

And (3) generating a wireless sensor configuration message by the main processing module according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, sending the wireless sensor configuration message to the wireless signal transmission module through the main wireless communication module, broadcasting the wireless sensor configuration message to the monitoring host by the wireless signal transmission module, and completing the engineering field configuration of the wireless sensor according to the wireless sensor configuration message after the monitoring host receives the wireless sensor configuration message.

In one embodiment, the configuration host is selected as a smart phone, and the primary wireless communication module and the secondary wireless communication module communicate in a bluetooth communication mode.

The wireless sensor engineering field configuration device provided by the embodiment of the invention acquires the identification number of the monitoring host through the two-dimensional code recognition module, acquires the sensor identification number in a manner of acquiring a sensor message broadcasted by a wireless sensor after acquiring the identification number of the monitoring host, acquires the sensor identification number of the wireless sensor through the two-dimensional code recognition module, and broadcasts the wireless sensor configuration message to the monitoring host to complete the engineering field configuration of the wireless sensor if the wireless sensor identification number is stored in the main storage module, without manually inputting the wireless sensor number, thereby reducing the information amount manually input and the possibility of configuration errors, and solving the technical problems that the pairing between the existing wireless sensor and the monitoring host is completed by setting a configuration file on the monitoring host and then manually inputting the wireless sensor number in the configuration file, the wireless sensor number is easily mistaken and missed in filling and filling-in the wireless sensor and the monitoring host are influenced during field installation and maintenance.

For easy understanding, please refer to fig. 4, the present invention provides an embodiment of a configuration method of a wireless sensor engineering field configuration device, including the following steps:

s1, a man-machine interaction module of a configuration host acquires a two-dimension code instruction of a scanning monitoring host input by a user on a man-machine interaction interface, and sends the two-dimension code instruction of the scanning monitoring host to a main processing module;

s2, the main processing module controls the two-dimension code recognition module to scan the two-dimension code of the monitoring host according to the two-dimension code command of the scanning monitoring host, reads the identification number of the monitoring host carried by the two-dimension code of the monitoring host, and stores the read identification number of the monitoring host in the main storage module;

s3, the main processing module issues an initialization command to the auxiliary processing module through the main wireless communication module and the auxiliary wireless communication module configured with the auxiliary machine;

s4, the auxiliary processing module starts the wireless signal transmission module after receiving the initialization command, and continuously receives the sensor message broadcasted by the wireless sensor through the wireless signal transmission module;

s5, the auxiliary processing module analyzes a sensor identification number from the sensor message and judges whether the same sensor identification number is received or not, and if not, the sensor identification number is uploaded to a main storage module of the configuration host computer through the auxiliary wireless communication module for storage;

s6, a human-computer interaction module of the configuration host acquires a two-dimension code command of the scanning sensor input by a user on a human-computer interaction interface, and sends the two-dimension code command of the scanning sensor to a main processing module;

s7, the main processing module controls the two-dimension code recognition module to scan the two-dimension code of the wireless sensor according to the two-dimension code command of the scanning sensor, and reads a sensor identification number carried by the two-dimension code of the wireless sensor;

s8, the main processing module judges whether a sensor identification number carried by a two-dimensional code of the wireless sensor is stored in the main storage module, if so, the man-machine interaction module is controlled to display sensor installation position filling information on a man-machine interaction interface, and the wireless sensor installation position information input by a user is acquired;

s9, the main processing module generates a wireless sensor configuration message according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, and the wireless sensor configuration message is issued to the wireless signal transmission module through the main wireless communication module;

s10, broadcasting a wireless sensor configuration message to the monitoring host by the wireless signal transmission module, so that the monitoring host completes engineering field configuration of the wireless sensor according to the wireless sensor configuration message.

Wherein, step S8 further includes: and if the sensor identification number carried by the two-dimensional code of the wireless sensor is not stored in the main storage module, controlling the man-machine interaction module to display alarm information on a man-machine interaction interface, and prompting a user to check the wireless sensor.

The host is configured to be a smart phone.

The main wireless communication module and the auxiliary wireless communication module communicate in a Bluetooth communication mode.

The configuration method of the wireless sensor engineering field configuration device provided by the embodiment of the invention comprises the steps of acquiring a monitoring host identification number through a two-dimensional code recognition module, acquiring a sensor identification number in a manner of acquiring a sensor message broadcasted by a wireless sensor after acquiring the monitoring host identification number, and acquiring the sensor identification number of the wireless sensor through the two-dimensional code recognition module.

The configuration method of the wireless sensor engineering field configuration device provided in the embodiment of the invention is applied to the wireless sensor engineering field configuration device provided in the invention, and the principle and the achieved technical effect of the configuration method are the same as those of the wireless sensor engineering field configuration device provided in the invention, and are not repeated herein.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. The wireless sensor engineering field configuration device is characterized by comprising a configuration host and a configuration auxiliary machine;

the configuration host comprises a main processing module, a main storage module, a man-machine interaction module, a two-dimension code identification module and a main wireless communication module;

the auxiliary machine is configured to comprise an auxiliary wireless communication module, an auxiliary processing module and a wireless signal transmission module;

the man-machine interaction module is used for acquiring a two-dimensional code scanning instruction and wireless sensor installation position information which are input by a user on a man-machine interaction interface;

the main processing module is used for controlling the two-dimension code recognition module to read the two-dimension code information after receiving the two-dimension code scanning instruction, and acquiring a sensor identification number or a monitoring host identification number;

the main processing module is also used for sending an initialization command to the configuration auxiliary machine through the main wireless communication module;

the main storage module is used for storing the sensor identification number analyzed by the auxiliary processing module, the monitoring host identification number read by the two-dimensional code identification module and the wireless sensor mounting position information acquired by the man-machine interaction module, wherein the same sensor identification number and the monitoring host identification number are not stored repeatedly;

the auxiliary wireless communication module is used for forwarding the initialization command issued by the main wireless communication module to the auxiliary processing module;

the auxiliary processing module is used for starting the wireless signal transmission module after receiving the initialization command, and continuously receiving the sensor message broadcasted by the wireless sensor through the wireless signal transmission module;

the auxiliary processing module is also used for analyzing the sensor identification number from the message after receiving the message, judging whether the same sensor identification number is received or not, and uploading the sensor identification number to the main processing module of the configuration host through the auxiliary wireless communication module if the same sensor identification number is not received;

the main processing module is also used for generating a wireless sensor configuration message according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, and sending the wireless sensor configuration message to the wireless signal transmission module through the main wireless communication module;

the wireless signal transmission module is also used for broadcasting the wireless sensor configuration message to the monitoring host, so that the monitoring host completes the engineering field configuration of the wireless sensor according to the wireless sensor configuration message.

2. The wireless sensor engineering field configuration device according to claim 1, wherein the configuration host is a smart phone.

3. The wireless sensor engineering site configuration device of claim 1, wherein the primary wireless communication module and the secondary wireless communication module communicate in a bluetooth communication manner.

4. The wireless sensor engineering field configuration device of claim 1, wherein the main processing module is further configured to:

and when detecting that the sensor identification number read by the two-dimensional code recognition module is not stored and recorded in the main storage module, controlling the man-machine interaction module to display alarm information on a man-machine interaction interface and prompting a user to check the wireless sensor.

5. A configuration method of a wireless sensor engineering field configuration device is characterized by comprising the following steps:

a human-computer interaction module of the configuration host acquires a two-dimensional code command of the scanning monitoring host input by a user on a human-computer interaction interface, and sends the two-dimensional code command of the scanning monitoring host to a main processing module;

the main processing module controls the two-dimension code recognition module to scan the two-dimension code of the monitoring host according to the two-dimension code command of the scanning monitoring host, reads the identification number of the monitoring host carried by the two-dimension code of the monitoring host, and stores the read identification number of the monitoring host into the main storage module;

the main processing module issues an initialization command to the auxiliary processing module through the main wireless communication module and the auxiliary wireless communication module configured with the auxiliary machine;

the auxiliary processing module starts the wireless signal transmission module after receiving the initialization command, and continuously receives the sensor message broadcasted by the wireless sensor through the wireless signal transmission module;

the auxiliary processing module analyzes the sensor identification number from the sensor message and judges whether the same sensor identification number is received or not, and if not, the sensor identification number is uploaded to the main storage module of the configuration host computer through the auxiliary wireless communication module for storage;

a human-computer interaction module of the configuration host acquires a two-dimension code instruction of a scanning sensor input by a user on a human-computer interaction interface, and sends the two-dimension code instruction of the scanning sensor to a main processing module;

the main processing module controls the two-dimension code recognition module to scan the two-dimension code of the wireless sensor according to the two-dimension code command of the scanning sensor, and reads a sensor identification number carried by the two-dimension code of the wireless sensor;

the main processing module judges whether a sensor identification number carried by a two-dimensional code of the wireless sensor is stored in the main storage module, if so, the man-machine interaction module is controlled to display sensor installation position filling information on a man-machine interaction interface, and the wireless sensor installation position information input by a user is acquired;

the main processing module generates a wireless sensor configuration message according to the wireless sensor installation position information, the sensor identification number and the monitoring host identification number, and issues the wireless sensor configuration message to the wireless signal transmission module through the main wireless communication module;

the wireless signal transmission module broadcasts the wireless sensor configuration message to the monitoring host, so that the monitoring host completes the engineering field configuration of the wireless sensor according to the wireless sensor configuration message.

6. The configuration method of the wireless sensor engineering field configuration device according to claim 5, wherein the main processing module judges whether the sensor identification number carried by the two-dimensional code of the wireless sensor is stored in the main storage module, if yes, controlling the man-machine interaction module to display sensor installation position filling information on the man-machine interaction interface, and acquiring wireless sensor installation position information input by a user, wherein the method further comprises the following steps:

and if the sensor identification number carried by the two-dimensional code of the wireless sensor is not stored in the main storage module, controlling the man-machine interaction module to display alarm information on a man-machine interaction interface, and prompting a user to check the wireless sensor.

7. The configuration method of the wireless sensor engineering field configuration device according to claim 5, wherein the configuration host is a smart phone.

8. The configuration method of the wireless sensor engineering field configuration device according to claim 5, wherein the primary wireless communication module and the secondary wireless communication module communicate in a Bluetooth communication mode.

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