CN212135648U - Tailings pond internet of things online monitoring data transmission system based on WBee technology - Google Patents

Abstract

The utility model discloses a tailing pond thing networking on-line monitoring data transmission system based on WBee technique relates to tailing pond safety on-line monitoring technical field, including a plurality of acquisition points, a plurality of acquisition points all are provided with the collection unit, and the collection unit includes monitoring sensor, adc, thing networking data collection station and WBee router, and WBee router links to each other with WBee coordinator; WBee routers of a plurality of acquisition units are interconnected to form an ad hoc network; data collected by the data collector of the Internet of things are transmitted to the cloud platform through the communication module; the data acquisition network is characterized by further comprising a signal monitoring device for monitoring network signals of each acquisition point, the acquisition units on each data monitoring point form a data acquisition network through a WBee ad-hoc network technology, when a certain acquisition unit cannot upload acquired data in real time, the data can be transmitted to another acquisition unit with good network signals through the data acquisition network to upload the data, and stable and real-time uploading of the data of each monitoring point is guaranteed.

Description

Tailings pond internet of things online monitoring data transmission system based on WBee technology

Technical Field

The utility model relates to a tailing storehouse monitoring technology field, concretely relates to tailing storehouse thing networking on-line monitoring data transmission system based on WBee technique.

Background

The tailing pond is an important facility in the production of mine enterprises, and the operation condition of the tailing pond is not only related to the safety of lives and properties of residents at the downstream of a dam body and the surrounding environment, but also one of potential safety hazards in the production of the mine enterprises.

The online monitoring system of the internet of things of the tailing pond is characterized in that a set of remote automatic safety monitoring system is built in the tailing pond, and the safety state of the tailing pond is monitored, analyzed and forecasted in real time by using a sensor, so that the safety of the tailing pond is ensured.

At present, a tailing pond internet of things online monitoring system transmits real-time monitoring data to a cloud platform through a site operator 3G/4G network, the position of a monitoring point of a sensor is determined according to engineering technical specifications of a tailing pond online safety monitoring system and construction drawings of a design institute, and the monitoring point is not easy to change after construction is completed. Severe weather changes and signal blind areas in mountainous areas can affect the strength of signals received by data uploading equipment. Under extreme conditions, individual collection points even have no network signals, and collection equipment cannot upload collected data to a cloud platform in real time, so that the safety production of a tailing pond is seriously influenced.

Disclosure of Invention

For solving the prior art problem, the utility model discloses a WBee ad hoc network technique constitutes a data acquisition net with the acquisition unit on each data monitoring point, can't upload the control in real time to the data of gathering on certain acquisition unit, just can carry out the data upload with data transfer to another network signal good acquisition unit through the data acquisition net, has guaranteed the stability of every monitoring point data, real-time uploading.

The utility model discloses specifically adopt following technical scheme:

a tailings pond Internet of things online monitoring data transmission system based on WBee technology comprises a plurality of acquisition points located in a tailings pond, wherein each acquisition point is provided with an acquisition unit, each acquisition unit comprises a monitoring sensor, an analog-to-digital converter, an Internet of things data acquirer and a WBee router, a first output end and a second output end of each monitoring sensor are respectively and electrically connected with an input end of the analog-to-digital converter and a first input end of the Internet of things data acquirer, and an output end of each analog-to-digital converter is electrically connected with a second input end of the Internet of things data acquirer; the Internet of things data collector is connected with the WBee router; monitoring data acquired by the data acquisition unit of the Internet of things is transmitted to a cloud platform of the control terminal through the communication module;

the data collectors of the Internet of things of the plurality of collecting units are all connected with a WBee coordinator arranged at a monitoring point of the tailing pond center; the WBee routers of the plurality of acquisition units are interconnected to form an ad hoc network, and the plurality of acquisition units are communicated with one another through the ad hoc network;

the system comprises a communication module, a plurality of acquisition units and a signal monitoring device, wherein the communication module is used for communicating with the internet of things data acquisition units, the signal monitoring device is arranged at each acquisition point and is used for monitoring network signals of the communication module of each acquisition point, the output end of the signal monitoring device is electrically connected with the controller.

In a further scheme, the signal monitoring device comprises an antenna, a radio frequency device and a signal data processor, wherein the antenna is electrically connected with a signal input end of the radio frequency device; the signal output end of the radio frequency device is electrically connected with the input end of the data processor; the output end of the data processor is electrically connected with the controller.

In a further scheme, the monitoring sensor, the analog-to-digital converter, the internet of things data collector, the WBee router, the WBee coordinator and the signal monitoring device are all electrically connected with an external power supply.

The utility model has the advantages that:

the data acquisition network is formed by the acquisition units on each data monitoring point through the WBee ad-hoc network technology, when a certain acquisition unit cannot upload and monitor the acquired data in real time, the data can be transmitted to another acquisition unit with good network signals through the data acquisition network for uploading, and the stable and real-time uploading of the data of each monitoring point is ensured;

the network signal monitoring device comprising the antenna, the radio frequency device and the signal data processor is arranged at each acquisition point, so that the network signal monitoring of each acquisition point is realized.

Drawings

Fig. 1 is a schematic structural diagram of an internet of things online monitoring data transmission system of a tailings pond based on WBee technology in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a signal monitoring device according to an embodiment of the present invention;

the attached drawings are marked as follows: 10-a monitoring sensor; 11-an analog-to-digital converter; 12-an internet of things data collector; 13-WBee router; 14-WBee coordinator; 20-an antenna; 21-a radio frequency; 22-signal data processor.

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.

As shown in fig. 1, an embodiment of the utility model discloses a tailing storehouse thing networking on-line monitoring data transmission system based on WBee technique, including being located a plurality of acquisition points in the tailing storehouse, a plurality of acquisition points all are provided with the acquisition unit, the acquisition unit includes monitoring sensor 10, analog to digital converter 11, thing networking data collection station 12 and WBee router 13, monitoring sensor 10's first output, the second output respectively with analog to digital converter 11's input, thing networking data collection station 12's first input electricity is connected, analog to digital converter 11's output and thing networking data collection station 12's second input electricity are connected; the internet of things data acquisition device 12 is connected with the WBee router 13; monitoring data acquired by the internet of things data acquisition unit 12 are transmitted to a cloud platform of the control terminal through a communication module; the internet of things data collectors 12 of the plurality of collecting units are all connected with a WBee coordinator 14 arranged on a monitoring point of the tailing pond center; WBee routers 13 of a plurality of acquisition units are interconnected to form an ad hoc network, and the plurality of acquisition units are communicated with one another through the ad hoc network; the system further comprises signal monitoring devices which are arranged at the acquisition points and used for monitoring network signals of the communication modules of the acquisition points, the output ends of the signal monitoring devices are electrically connected with the controller of the control terminal, and the controller is electrically connected with the Internet of things data acquisition devices 12 of the plurality of acquisition units.

When the monitored data is analog quantity data, the data monitored by the monitoring sensor is output to an analog-to-digital converter and converted into digital quantity data, and then the converted digital quantity data is output to an internet-of-things collector; when monitored data are digital quantity data, the data monitored by the monitoring sensor are directly transmitted to the Internet of things collector, the data under the two conditions are output to the Internet of things collector for data calculation and storage, and when the signal monitoring device monitors that network signals of the communication module corresponding to the collection point are good, the Internet of things data collector transmits the collected monitoring data to the cloud platform of the control terminal through the communication module.

The WBee routers of the acquisition units are interconnected to form an ad hoc network, the acquisition units are communicated with one another through the ad hoc network, when a signal monitoring device at one acquisition point monitors that a network signal of a communication module at the acquisition point is poor or even has no signal, the signal monitoring device generates an information signal with poor network signal and inputs the information signal into a controller of a control terminal, and the controller controls an internet-of-things acquirer of another acquisition unit with good network signal to receive monitoring data sent by the acquisition unit with poor network signal through the ad hoc network and transmit the monitoring data to a cloud platform through the communication module for monitoring.

The data acquisition network is formed by the acquisition units on each data monitoring point through the WBee ad-hoc network technology, and when a certain acquisition unit cannot upload and monitor the acquired data in real time, the data can be transmitted to another acquisition unit with good network signals through the data acquisition network to upload the data. The data of each monitoring point is stably uploaded in real time.

As shown in fig. 2, in the present embodiment, the signal monitoring device includes an antenna 20, a radio frequency device 21 and a signal data processor 22, wherein the antenna 20 is electrically connected to a signal input terminal of the radio frequency device 21; the signal output end of the radio frequency device 21 is electrically connected with the input end of the data processor 22; the output of the data processor 22 is electrically connected to the controller. The network signal corresponding to the acquisition point is received through the antenna, the signal is amplified through the radio frequency device, and the amplified signal is processed by the signal data processor and then transmitted to the remote controller to realize the monitoring of the strength of the network signal.

In this embodiment, the monitoring sensor 10, the analog-to-digital converter 11, the internet of things data collector 12, the WBee router 13, the WBee coordinator 14, and the signal monitoring device are all electrically connected to the external power supply. And supplying power to the equipment through an external power supply.

Finally, only the specific embodiments of the present invention have been described in detail. The invention is not limited to the specific embodiments described above. Equivalent modifications and substitutions by those skilled in the art to the present invention are also within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (3)

1. The utility model provides a tailing storehouse thing networking on-line monitoring data transmission system based on WBee technique, includes a plurality of collection points that are located the tailing storehouse, its characterized in that:

the system comprises a plurality of acquisition points, wherein each acquisition point is provided with an acquisition unit, each acquisition unit comprises a monitoring sensor (10), an analog-to-digital converter (11), an Internet of things data acquirer (12) and a WBee router (13), a first output end and a second output end of each monitoring sensor (10) are respectively and electrically connected with an input end of the analog-to-digital converter (11) and a first input end of the Internet of things data acquirer (12), and an output end of each analog-to-digital converter (11) is electrically connected with a second input end of the Internet of things data acquirer (12); the Internet of things data collector (12) is connected with the WBee router (13); monitoring data acquired by the Internet of things data acquisition unit (12) are transmitted to a cloud platform of the control terminal through a communication module;

the internet of things data collectors (12) of the plurality of collecting units are connected with a WBee coordinator (14) arranged on a monitoring point of the tailing pond center; the WBee routers (13) of the plurality of acquisition units are interconnected to form an ad hoc network, and the plurality of acquisition units communicate with each other through the ad hoc network;

the system is characterized by further comprising signal monitoring devices arranged at the acquisition points and used for monitoring network signals of the communication modules of the acquisition points, wherein the output ends of the signal monitoring devices are electrically connected with a controller of the control terminal, and the controller is electrically connected with the Internet of things data acquisition devices (12) of the plurality of acquisition units.

2. The tailings pond internet of things online monitoring data transmission system based on WBee technology of claim 1, wherein:

the signal monitoring device comprises an antenna (20), a radio frequency device (21) and a signal data processor (22), wherein the antenna (20) is electrically connected with a signal input end of the radio frequency device (21); the signal output end of the radio frequency device (21) is electrically connected with the input end of the data processor (22); the output end of the data processor (22) is electrically connected with the controller.

3. The tailings pond internet of things online monitoring data transmission system based on WBee technology of claim 2, wherein:

the monitoring sensor (10), the analog-to-digital converter (11), the internet of things data collector (12), the WBee router (13), the WBee coordinator (14) and the signal monitoring device are all electrically connected with an external power supply.

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