CN110751820A - Sensor device for wireless data transmission in monitoring field and data management method - Google Patents

Abstract

The invention relates to a sensor device for wireless data transmission in the monitoring field and a data management method, wherein the method comprises the following steps: numbering the sensors according to the corresponding depths of stratums where the monitoring point positions are located; acquiring monitoring data information of a plurality of sensors through a wireless data processing module arranged in a data collection layer, and analyzing and processing the monitoring data information; sending a request for inquiring monitoring data information corresponding to the number to the wireless data processing module according to the number; and receiving confirmation information which is returned by the wireless data processing module and used for determining the existence of the number, thereby calling monitoring data information corresponding to the number in the wireless data processing module. The method can solve the problem that the transmission lines are complicated to lay when the sensors monitor a plurality of soil layers under the condition of a complicated field, can acquire the monitoring data of the sensors at different monitoring points in a wireless transmission mode, and is high in informatization degree, economical and energy-saving.

Description

Sensor device for wireless data transmission in monitoring field and data management method

Technical Field

The invention relates to the technical field of deep displacement monitoring, in particular to a sensor device for wireless data transmission in the monitoring field and a data management method.

Background

At present, in the monitoring field, for monitoring deep displacement, a sensor and a data collection layer are connected through wires. For the point position needing only one sensor to monitor deep form and position change, the connection between the sensor and the data transmission line and the laying of the transmission line are not complex.

However, when a plurality of sensors are needed to monitor the position of the form and position change of a plurality of soil layers, the connection between the sensors and the data transmission lines and the laying of the transmission lines are very complicated, even the transmission lines cannot be laid at all when the monitoring site conditions limit, so that the monitoring position needs to be replaced, and the mode needs a large amount of wires and PVC water supply pipes, which is not economical.

Disclosure of Invention

The invention aims to provide a sensor device for wireless data transmission in the monitoring field and a data management method, which can solve the problems of complex laying of a transmission line and the like when a plurality of sensors monitor a plurality of soil layers under the condition of a complex field, and can acquire the monitoring data of the plurality of sensors at different monitoring points in a wireless transmission mode.

One of the above objects of the present invention is achieved by the following technical solutions: a data management method for a sensor for monitoring wireless transmission of data in a field comprises the following steps:

numbering the sensors according to the corresponding depths of stratums where the monitoring point positions are located;

acquiring monitoring data information of a plurality of sensors through a wireless data processing module arranged in a data collection layer, and analyzing and processing the monitoring data information;

sending a request for inquiring monitoring data information corresponding to the number to the wireless data processing module according to the number;

and receiving confirmation information which is returned by the wireless data processing module and used for determining the existence of the number, thereby calling monitoring data information corresponding to the number in the wireless data processing module.

The invention is further configured to: acquiring monitoring data information of a plurality of sensors, including:

sending a request for confirming the number to the sensor at intervals;

receiving number confirmation information successfully returned by the sensor;

and opening the partition corresponding to the number in the wireless data processing module according to the number which is confirmed, so as to store the monitoring data information of the sensor corresponding to the number.

The invention is further configured to: the number includes: x1-3.5; wherein the content of the first and second substances,

x represents an item name;

1 represents a monitoring point No. 1 of the same monitoring point position;

3.5 denotes the formation at a deep displacement of 3.5 m.

The invention is further configured to: the wireless data processing module acquires monitoring data information of the sensors in a wireless transmission mode.

The invention is further configured to: the wireless transmission mode comprises one of WiFi, 3G/4G, Bluetooth and the like.

The invention is further configured to: the monitoring data information includes monitoring data of the sensor and/or performance data of the sensor itself.

The second purpose of the invention is realized by the following technical scheme: a sensor device for monitoring wireless transmission of in-field data, comprising:

the wireless data processing module is arranged in the data collection layer and is provided with a plurality of subareas and used for acquiring monitoring data information of a plurality of sensors in a wireless transmission mode, analyzing and processing the monitoring data information, and the sensors are numbered according to the corresponding depths of stratums where monitoring point positions are located;

the request inquiry module is used for sending a request for inquiring the monitoring data information corresponding to the number to the wireless data processing module according to the number;

and the data calling module is used for receiving confirmation information which is returned by the wireless data processing module and used for determining the existence of the serial number, and calling monitoring data information corresponding to the serial number in the wireless data processing module according to the confirmation information.

The invention is further configured to: the wireless data processing module comprises:

a request unit for sending a confirmation number request to the sensor interval;

the receiving unit is used for receiving the number confirmation information successfully returned by the sensor;

and the processing unit is used for opening the partition corresponding to the number in the wireless data processing module according to the number which is confirmed, so that the monitoring data information of the sensor corresponding to the number can be stored.

The invention is further configured to: the monitoring data information includes monitoring data of the sensor and/or performance data of the sensor itself.

The invention is further configured to: the number includes: x1-3.5; wherein the content of the first and second substances,

x represents an item name;

1 represents a monitoring point No. 1 of the same monitoring point position;

3.5 denotes the formation at a deep displacement of 3.5 m.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the invention can effectively solve the problems that when a plurality of sensors are needed to monitor the form and position changes of a plurality of soil layers for a certain monitoring point position, the connection between the sensors and the data transmission lines and the laying of the transmission lines are complicated, and even the transmission lines cannot be laid at all under the limitation of the monitoring site conditions, so that the monitoring point position needs to be replaced;

2. the invention does not need a large amount of wires and PVC water supply pipes, and is more economical than the traditional mode;

3. once the traditional sensor wiring mode data system is abnormal, the maintenance is relatively difficult, and the problems of the sensor, the transmission line or the wiring of the sensor and the transmission line and the like cannot be accurately judged in time; the technical scheme can effectively solve the problem; the system has the advantages of high informatization degree, economy, energy conservation and higher cost performance compared with the traditional mode.

Drawings

Fig. 1 is a schematic flow chart illustrating a data management method for a sensor for monitoring wireless transmission of data in a field according to an embodiment of the present invention.

Fig. 2 is a schematic flow chart illustrating wirelessly acquiring monitoring data information of a sensor in a data management method for a sensor for wirelessly transmitting data in a monitoring field according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a sensor device for monitoring wireless transmission of data in the field according to an embodiment of the present invention.

Fig. 4 shows a schematic view of the mounting of the compact signal emitting device on the sensor.

Reference numerals: 30. a wireless data processing module; 301. a request unit; 302. a receiving unit; 303. a processing unit; 40. a sensor; 401. a small signal emitting device; 50. a request query module; 60. and a data calling module.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Fig. 1 is a schematic flow chart illustrating a data management method for a sensor for monitoring wireless transmission of data in a field according to an embodiment of the present invention. As shown in fig. 1, the method comprises the steps of:

and S10, numbering the sensors 40 according to the corresponding depths of the stratums where the monitoring points are located.

S12, acquiring monitoring data information of a plurality of sensors 40 through the wireless data processing module 30 arranged in the data collection layer, and analyzing and processing the monitoring data information;

s14, sending a request for inquiring the monitoring data information corresponding to the number to the wireless data processing module 30 according to the number;

and S16, receiving confirmation information which is returned by the wireless data processing module 30 and used for determining the existence of the number, and calling monitoring data information of the corresponding number in the wireless data processing module 30.

Specifically, according to the embodiment of the present invention, the wireless transmission mode may be WiFi, 3G/4G, bluetooth, or the like. Before testing, all the sensors 40 need to be numbered, the sensors 40 are numbered according to the corresponding depths of the stratums where the monitoring points are located, each number is used as a unique ID of the sensor 40 and is equivalent to an 'ID card' of the sensor 40, and the monitoring data information of each sensor 40 is classified under the number, so that the monitoring data information of different sensors 40 is ensured to be distinguished.

Illustratively, the stratum at the position of 3.5m deep displacement of a certain monitoring point position is numbered as follows: SBWY 1-3.5; wherein "SBWY" represents the project name: the SBWY project, 1, represents the monitoring point No. 1 of the same monitoring point, and 3.5, represents the stratum with the deep displacement of 3.5 m.

Different partitions are arranged in the wireless data processing module 30, and each partition is numbered correspondingly and corresponds to the number of the sensor 40 one by one. The partition establishing mode of the wireless data processing module 30 is completely the same as the partition establishing and partitioning mode of the database, and will not be described herein. Monitoring data information of sensors 40 with different numbers is correspondingly stored in partitions of the wireless data processing module 30 corresponding to the numbers, the wireless data processing module 30 can be integrated with a data query port so as to be convenient for a user to query and read, in the invention, the queried monitoring data information can be displayed through a display device in a ground host, such as a touch display screen, and of course, an external intelligent device can also be connected to check the monitoring data information, and the intelligent device can comprise a mobile phone, a tablet computer and the like.

In addition, the user can correspondingly input the number of the sensor 40 according to the viewing requirement of the user, so as to send an access request to the wireless data processing module 30, and the partition corresponding to the number in the wireless data processing module 30 can be determined through the number index in the wireless data processing module 30; the user can retrieve the monitoring data information corresponding to the number from the partition in the wireless data processing module 30 in the data collection layer. For the query mode, it is not limited to only inputting the complete number, and an fuzzy query mode may be set, for example, typing in "SBWY" may allow the user to retrieve all monitoring data information associated with "SBWY".

The data monitoring information of the embodiment of the present invention includes monitoring data of the sensor 40 and/or performance/index data of the sensor 40 itself. Different from the traditional sensor 40 wiring mode, once the data device of the traditional sensor 40 is abnormal, the maintenance is relatively difficult, and the problems in the aspects of the sensor 40, the transmission line or the wiring between the sensor 40 and the transmission line and the like cannot be timely and accurately judged; by adopting the technical scheme, the problem can be effectively solved, the working condition of the sensor 40 can be judged by monitoring the performance/index data of the sensor 40, and the performance/index data of the sensor 40 comprises but is not limited to the working voltage, current, temperature and the like of the sensor 40.

Further, according to the technical solution of the present invention, fig. 2 is a schematic flow chart illustrating wirelessly acquiring monitoring data information of a sensor in a data management method for a sensor for wirelessly transmitting data in a monitoring field according to an embodiment of the present invention. As shown in fig. 2, in step S12, the following steps are included:

s122, sending a request for confirmation number to the sensor 40 at intervals.

Specifically, in the idle state, the device constantly sends an acknowledgement number request to the sensor 40. In an embodiment of the invention, the user needs to confirm when the sensor 40 is placed in the corresponding soil layer at the monitoring site, and then starts the machine after confirming that there is no error, after which the device will send a numbering request to the sensor 40, which request is intended to ask the sensor 40 for the number of the sensor 40.

And S124, receiving number confirmation information successfully returned by the sensor 40.

Specifically, the confirmation number request of the sensor 40 is queried with each sensor 40, and when the numbers are confirmed to be consistent, the sensor 40 can generate number confirmation information, wherein the number confirmation information at least comprises the numbers and the result of successful confirmation.

And S126, opening the partition of the corresponding number in the wireless data processing module 30 according to the number which is confirmed, so as to store the monitoring data information of the sensor 40 with the corresponding number.

Specifically, the partition number in the wireless data processing module 30 is consistent with the number of the sensor 40 to form a mapping relationship, and after the device receives the number confirmation information that the confirmation is successful, the monitoring data information of the sensor 40 can be directly stored in the partition with the corresponding number.

By adopting the mode that the serial numbers are consistent and the sensors 40 correspond to the partitions in the wireless data processing module 30 in the data collection layer one to one, data can be stored more simply and rapidly, and once monitoring point positions need to be newly increased or reduced, the sensors 40 need to be newly increased or reduced, so that the monitoring data information can be conveniently managed by adopting the design. When a new monitoring point location is needed, the number of the sensor 40 in the device may be deleted, and the monitoring data information in the corresponding partition in the associated wireless data processing module 30 may be cleared. In addition, before data cleaning of the wireless data processing module 30, it is possible to choose to export the monitoring data information.

The monitoring data management method of the sensor 40 in the deep displacement monitoring can effectively solve the problems that when a plurality of sensors 40 are required to monitor the form and position changes of a plurality of soil layers for a certain monitoring point position, the connection between the sensors 40 and a data transmission line and the laying of the transmission line are complex, and even the transmission line cannot be laid at all under the limitation of the monitoring site conditions, so that the monitoring point position needs to be replaced; a large amount of wires and PVC water supply pipes are not needed, and the method is more economical than the traditional method; moreover, it is possible to accurately determine that the failure is a problem in the sensor 40, the transmission line itself, or the connection between the sensor 40 and the transmission line.

Fig. 3 is a schematic structural diagram of a sensor device for monitoring wireless transmission of data in the field according to an embodiment of the present invention. As shown in fig. 3, the apparatus is configured to perform a data management method for wireless data transmission in a monitoring domain according to an embodiment of the present invention, and the apparatus includes:

the wireless data processing module 30 is arranged in the data collection layer, is provided with a plurality of subareas and is used for acquiring monitoring data information of the sensors 40 in a wireless transmission mode, analyzing and processing the monitoring data information, and the sensors 40 are numbered according to the corresponding depths of stratums where the monitoring point positions are located;

a request inquiring module 50, configured to send a request for inquiring monitoring data information corresponding to the serial number to the wireless data processing module 30 according to the serial number;

the data retrieving module 60 receives the confirmation information for confirming the existence of the number returned by the wireless data processing module 30, and retrieves the monitoring data information corresponding to the number in the wireless data processing module 30 according to the confirmation information.

Further, the wireless data processing module 30 disposed in the data collection layer includes:

a request unit 301 for sending a confirmation number request to the sensor 40 at intervals;

a receiving unit 302, configured to receive number confirmation information successfully returned by the sensor 40;

and the processing unit 303 opens the partition corresponding to the number in the wireless data processing module 30 according to the number which has completed the confirmation, so as to store the monitoring data information of the sensor 40 corresponding to the number.

Wherein the monitoring data of the monitoring data information sensor 40 and/or the performance data of the sensor 40 itself; the wireless data processing module 30 is used for wireless transmission, and may adopt one of a WiFi mode, a 3G/4G mode, and a bluetooth mode.

The device of the embodiment of the invention can be a small signal emitting device 401 installed on the basis of the traditional sensor 40, and the specific shape and size of the signal emitting device are determined according to the size and shape of the traditional sensor 40. Illustratively, referring to fig. 4, which shows a schematic diagram of the installation of the small signal emitting device on the sensor, the small signal emitting device 401 is installed in a housing, the housing is embedded inside the measuring rod of the sensor 40, and the housing can be configured and shaped according to its position at one end of the measuring rod, which is close to the ground when the measuring rod is in the measuring state. Designing a data collection layer: on the basis of a data collection layer of the traditional sensor 40, a wireless data processing module 30 is added (the module can manually add and delete the serial number of the sensor 40), and the module can automatically identify the monitoring data information of the sensor 40 corresponding to the serial number of the added sensor 40.

Various modifications and specific examples of the corresponding method in the foregoing embodiments are also applicable to the monitoring data management device of the sensor 40 in deep displacement monitoring in this embodiment, and a method for implementing the monitoring data management device of the sensor 40 in deep displacement monitoring in this embodiment will be apparent to those skilled in the art from the foregoing detailed description of the monitoring data management method of the sensor 40 in deep displacement monitoring, and therefore, for the sake of brevity of the description, detailed description thereof will not be provided here.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only 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 the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A data management method for a sensor for monitoring wireless transmission of data in a field is characterized by comprising the following steps:

numbering the sensors (40) according to the corresponding depths of stratums where the monitoring point positions are located;

monitoring data information of a plurality of sensors (40) is obtained through a wireless data processing module (30) arranged in a data collection layer, and the monitoring data information is analyzed and processed;

sending a request for inquiring monitoring data information corresponding to the number to the wireless data processing module (30) according to the number;

and receiving confirmation information which is returned by the wireless data processing module (30) and used for determining the existence of the number, thereby calling monitoring data information of the corresponding number in the wireless data processing module (30).

2. The method for data management of a sensor for wireless data transmission in the monitoring field according to claim 1, wherein the acquiring monitoring data information of a plurality of sensors (40) comprises:

sending a request for a confirmation number to the sensor (40) at intervals;

receiving number confirmation information successfully returned by the sensor (40);

and according to the numbers which have already been confirmed, opening the corresponding numbered subareas in the wireless data processing module (30) for storing the monitoring data information of the corresponding numbered sensors (40).

3. The method for managing data of a sensor for monitoring wireless transmission of data in a field according to claim 1 or 2, wherein the numbering comprises: x1-3.5; wherein the content of the first and second substances,

x represents an item name;

1 represents a monitoring point No. 1 of the same monitoring point position;

3.5 denotes the formation at a deep displacement of 3.5 m.

4. The data management method of the sensor for the wireless data transmission in the monitoring field according to claim 1, wherein the wireless data processing module (30) acquires the monitoring data information of the plurality of sensors (40) by a wireless transmission mode.

5. The method as claimed in claim 4, wherein the wireless transmission mode includes one of WiFi, 3G/4G, Bluetooth, etc.

6. The method for data management of a sensor for wireless transmission of data in a monitoring domain according to claim 1, wherein the monitoring data information comprises monitoring data of the sensor (40) and/or performance data of the sensor (40) itself.

7. A sensor device for monitoring data wireless transmission in the field, comprising:

the wireless data processing module (30) is arranged in the data collection layer and is provided with a plurality of partitions and used for acquiring monitoring data information of a plurality of sensors (40) in a wireless transmission mode, analyzing and processing the monitoring data information, and the sensors (40) are numbered according to the corresponding depths of stratums where monitoring point positions are located;

the request inquiry module (50) is used for sending a request for inquiring the monitoring data information corresponding to the number to the wireless data processing module (30) according to the number;

and the data calling module (60) is used for receiving confirmation information which is returned by the wireless data processing module (30) and used for determining the existence of the number, and calling monitoring data information corresponding to the number in the wireless data processing module (30) according to the confirmation information.

8. The sensor device for wireless transmission of data in a monitoring field according to claim 7, wherein the wireless data processing module (30) comprises:

a request unit (301) for sending a confirmation number request to the sensor (40) at intervals;

a receiving unit (302) for receiving the number confirmation information successfully returned by the sensor (40);

and the processing unit (303) is used for opening the partition of the corresponding number in the wireless data processing module (30) according to the number which has completed confirmation so as to store the monitoring data information of the sensor (40) of the corresponding number.

9. The sensor device for wireless data transmission in the monitoring field according to claim 7, wherein the monitoring data information comprises monitoring data of the sensor (40) and/or performance data of the sensor (40) itself.

10. The sensor device for monitoring wireless transmission of data in field according to claim 7, wherein the number comprises: x1-3.5; wherein the content of the first and second substances,

x represents an item name;

1 represents a monitoring point No. 1 of the same monitoring point position;

3.5 denotes the formation at a deep displacement of 3.5 m.

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