CN109951818B - A method of water management for industrial enterprises based on the Internet of Things - Google Patents

Abstract

The invention discloses an industrial enterprise water management method based on the Internet of Things, comprising the following steps: monitoring the enterprise water consumption information by a water consumption information monitoring mobile terminal; periodically monitoring the enterprise water consumption by the water consumption information monitoring mobile terminal at a first time interval The information is sent to the first industrial enterprise water consumption information aggregation terminal; the water consumption information monitoring mobile terminal monitors the link quality of the wireless communication link between the first industrial enterprise water consumption information aggregation terminal and the water consumption information monitoring mobile terminal; The mobile terminal for monitoring water use information sends the link quality to the first industrial enterprise water consumption information aggregation terminal; the first industrial enterprise water consumption information aggregation terminal determines whether the link quality is lower than the received link quality based on the received link quality Threshold value; if it is determined that the link quality is lower than the threshold value, the first industrial enterprise water consumption information aggregation terminal sends a handover request message to the second industrial enterprise water consumption information aggregation terminal.

Description

A method of water management for industrial enterprises based on the Internet of Things

technical field

The invention relates to the technical field of enterprise water management, in particular to an industrial enterprise water management method and system based on the Internet of Things.

Background technique

Water (chemical formula: H ₂ O) is an inorganic substance composed of two elements, hydrogen and oxygen, and is non-toxic. It is a colorless, odorless and transparent liquid under normal temperature and pressure, and is called the source of human life. Water, including natural water (rivers, lakes, atmospheric water, sea water, groundwater, etc.) [contains impurities], distilled water [theoretically pure water], artificial water (water obtained by combining hydrogen and oxygen atoms through chemical reactions). Water is one of the most common substances on earth. It is an important resource for the survival of all life including inorganic compounds and human beings, and it is also the most important component of living organisms. Water has played an important role in the evolution of life.

Prior art CN208345883U discloses an industrial wastewater treatment and discharge monitoring and management system, including a water inlet system, a purification treatment system, a reuse water system, a return system and a PLC control unit; the water inlet system includes a water collection tank, a first liquid level sensor, an inlet Water pipeline and water inlet solenoid valve; purification treatment system includes grit chamber, oil separation tank, regulating tank, air flotation tank, sedimentation tank, ultrafilter and reverse osmosis device connected in sequence through pipeline; recycle water system includes recycle water tank, The second liquid level sensor, the return water pipeline and the return water solenoid valve; the return system includes the return pipeline and the circulating pump; the connection pipeline between the reverse osmosis device and the return water tank (according to the water flow direction) is provided with a water quality detection instrument and a shut-off valve in sequence; One end of the return pipeline is communicated with the grit chamber, and the other end is located between the water quality monitoring instrument and the shut-off valve.

The prior art CN208224748U discloses an intelligent network control and monitoring system and platform for urban water use, including: a data server and a water control terminal arranged at each water terminal; the water control terminal includes: an operation controller, a plurality of node digital online monitors and multiple sub-controllers; the data server obtains the data information collected by the digital online monitor of each node through the operation controller, and the data server also obtains the data information obtained by each sub-controller through the operation controller; The electronic water valve is installed on the terminal, and the electronic water valve is controlled by an intelligent controller that can be remotely controlled and can be controlled by voice. The control terminal can remotely set parameters such as water outlet time and valve opening.

Prior art CN109410088A discloses a sewage treatment method using the Internet of Things technology. For a sewage treatment system composed of several sewage treatment work sections connected through sewage pipes, the construction includes a sewage treatment system, an integrated control electric control system, a server, The Internet of Things system of the mobile terminal monitors the sewage treatment system in real time through the water level sensor, working status monitor and water quality data monitor. The server analyzes and processes the monitoring data and forms a sewage treatment information report, which is presented to the staff through the mobile terminal. , the staff can directly change the program parameters of the integrated control electronic control system through the mobile terminal to realize the remote control of the program parameters of the sewage treatment system.

The information disclosed in this Background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide an industrial enterprise water management method and system based on the Internet of Things, which can overcome the shortcomings of the prior art.

In order to achieve the above object, the present invention provides a water management method for industrial enterprises based on the Internet of Things, comprising the following steps:

The water consumption information of the enterprise is monitored by the mobile terminal of water consumption information monitoring;

The mobile terminal for monitoring water consumption information periodically sends the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal at a first time interval;

The link quality of the wireless communication link between the first industrial enterprise's water consumption information aggregation terminal and the water consumption information monitoring mobile terminal is monitored by the water consumption information monitoring mobile terminal;

Sending the link quality to the first industrial enterprise water consumption information aggregation terminal by the water consumption information monitoring mobile terminal;

Judging whether the link quality is lower than a threshold value based on the received link quality by the first industrial enterprise's water consumption information summary terminal;

If it is determined that the link quality is lower than the threshold value, sending a handover request message from the first industrial enterprise water consumption information aggregation terminal to the second industrial enterprise water consumption information aggregation terminal;

In response to receiving the switching request message, the second industrial enterprise water consumption information aggregation terminal determines whether the second industrial enterprise water consumption information aggregation terminal is in an available state;

If it is determined that the second industrial enterprise water consumption information aggregation terminal is in an available state, the second industrial enterprise water consumption information aggregation terminal sends a switching permission message to the first industrial enterprise water consumption information aggregation terminal;

In response to receiving the switching permission message, a switching instruction is sent by the first industrial enterprise water consumption information aggregation terminal to the water consumption information monitoring mobile terminal; and

In response to receiving the switching instruction, the water consumption information monitoring mobile terminal periodically sends the enterprise water consumption information to the second industrial enterprise water consumption information aggregation terminal at a first time interval.

In a preferred embodiment, the Internet of Things-based industrial enterprise water management method further includes the following steps:

If it is determined that the second industrial enterprise water consumption information aggregation terminal is in an unavailable state, the second industrial enterprise water consumption information aggregation terminal sends a switching rejection message to the first industrial enterprise water consumption information aggregation terminal;

In response to receiving the handover rejection message, the first industrial enterprise water consumption information aggregation terminal determines whether the transmission power of the water consumption information monitoring mobile terminal reaches a transmission power upper limit value, wherein the transmission power upper limit value is based on the The number of other water use information monitoring mobile terminals around the said water use information monitoring mobile terminal;

If it is determined that the transmission power of the water-use information monitoring mobile terminal does not reach the upper limit of the transmission power, the first industrial enterprise water-use information aggregation terminal sends transmission power boost information to the water-use information monitoring mobile terminal; and

In response to receiving the transmission power boost information, the water consumption information monitoring mobile terminal periodically transmits the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal at a first time interval and with the increased transmission power.

In a preferred embodiment, the Internet of Things-based industrial enterprise water management method further includes the following steps:

If it is determined that the transmission power of the water-use information monitoring mobile terminal has reached the upper limit of the transmission power, the first industrial enterprise water-use information aggregation terminal sends a suspend sending message to the water-use information monitoring mobile terminal;

In response to receiving the suspend sending message, the mobile terminal for monitoring water consumption information suspends sending the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal, wherein the suspending time length is a predefined time length;

After the predefined length of time, the link quality of the wireless communication link between the first industrial enterprise water consumption information aggregation terminal and the water consumption information monitoring mobile terminal is re-measured by the water consumption information monitoring mobile terminal; and

The re-measured link quality is sent to the first industrial enterprise water consumption information aggregation terminal by the water consumption information monitoring mobile terminal.

In a preferred embodiment, the Internet of Things-based industrial enterprise water management method further includes the following steps:

Send the received enterprise water information to the data processing center by the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal;

The data processing center determines whether there is an abnormality in the water use of the enterprise based on the enterprise water consumption information;

If it is determined that the enterprise water consumption is abnormal, the data processing center sends an abnormal status message to the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal; and

In response to receiving the abnormal state message, the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal sends a message to increase the monitoring frequency to the water consumption information monitoring mobile terminal.

In a preferred embodiment, the Internet of Things-based industrial enterprise water management method further includes the following steps:

In response to receiving the increase monitoring frequency message, the water consumption information monitoring mobile terminal periodically transmits the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal at second time intervals ;

Wherein, the length of the first time interval is longer than the length of the second time interval.

The present invention also provides a water management system for industrial enterprises based on the Internet of Things, and the water management system for industrial enterprises based on the Internet of Things includes:

A unit for monitoring enterprise water consumption information by a water consumption information monitoring mobile terminal;

A unit for periodically sending the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal at a first time interval by the water consumption information monitoring mobile terminal;

A unit for monitoring the link quality of the wireless communication link between the first industrial enterprise water consumption information aggregation terminal and the water consumption information monitoring mobile terminal by the water consumption information monitoring mobile terminal;

A unit for sending the link quality to the first industrial enterprise water consumption information aggregation terminal by the water consumption information monitoring mobile terminal;

a unit for judging whether the link quality is lower than a threshold value based on the received link quality by the first industrial enterprise water consumption information summary terminal;

A unit for sending a handover request message from the first industrial enterprise water consumption information aggregation terminal to the second industrial enterprise water consumption information aggregation terminal if it is determined that the link quality is lower than the threshold value;

A unit for determining whether the second industrial enterprise water consumption information aggregation terminal is in an available state by the second industrial enterprise water consumption information aggregation terminal in response to receiving the switching request message;

A unit for sending a switching permission message from the second industrial enterprise water information aggregation terminal to the first industrial enterprise water information aggregation terminal if it is determined that the second industrial enterprise water consumption information aggregation terminal is in an available state;

a unit for sending a switching instruction from the first industrial enterprise water consumption information aggregation terminal to the water consumption information monitoring mobile terminal in response to receiving the switching permission message; and

A unit for periodically sending the enterprise water consumption information to a second industrial enterprise water consumption information aggregation terminal at a first time interval by the water consumption information monitoring mobile terminal in response to receiving the switching instruction.

In a preferred embodiment, the IoT-based industrial enterprise water management system further includes:

A unit for sending a switching rejection message from the second industrial enterprise water information aggregation terminal to the first industrial enterprise water information aggregation terminal if it is determined that the water consumption information aggregation terminal of the second industrial enterprise is in an unavailable state;

A unit for determining whether the transmit power of the water-use information monitoring mobile terminal reaches an upper limit of transmit power by the first industrial enterprise water-use information aggregation terminal in response to receiving the handover rejection message, wherein the transmit power ceiling The value is based on the number of other water consumption information monitoring mobile terminals around the water consumption information monitoring mobile terminal;

A unit for sending transmission power boost information to the mobile terminal for monitoring water consumption information by the first industrial enterprise water consumption information aggregation terminal if it is judged that the transmission power of the water consumption information monitoring mobile terminal does not reach the upper limit value of transmission power; and

In response to receiving the transmission power increase information, the water consumption information monitoring mobile terminal periodically sends the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal at a first time interval and the increased transmission power unit.

In a preferred embodiment, the IoT-based industrial enterprise water management system further includes:

A unit for sending a message of suspending sending to the mobile terminal for monitoring water consumption information by the first industrial enterprise water consumption information aggregation terminal if it is judged that the transmission power of the mobile terminal for monitoring water consumption information has reached the upper limit value of transmission power;

a unit for suspending the sending of the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal by the water consumption information monitoring mobile terminal in response to receiving the suspension sending message, wherein the time length of the suspension is a predefined length of time;

After the predefined time length, the mobile terminal for monitoring water consumption information re-measures the link quality of the wireless communication link between the first industrial enterprise water consumption information aggregation terminal and the water consumption information monitoring mobile terminal. unit; and

A unit for sending the re-measured link quality to the first industrial enterprise water consumption information aggregation terminal by the water consumption information monitoring mobile terminal.

In a preferred embodiment, the IoT-based industrial enterprise water management system further includes:

A unit for sending the received enterprise water use information to the data processing center by the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal;

A unit used by the data processing center to determine whether the enterprise water consumption is abnormal based on the enterprise water consumption information;

A unit for sending an abnormal state message to the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal by the data processing center if it is determined that the enterprise water consumption is abnormal; and

In response to receiving the abnormal state message, the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal sends a message of increasing the monitoring frequency to the water consumption information monitoring mobile terminal.

In a preferred embodiment, the IoT-based industrial enterprise water management system further includes:

In response to receiving the increasing monitoring frequency message, the water consumption information monitoring mobile terminal periodically sends the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information at a second time interval Summarize the unit of the terminal;

Wherein, the length of the first time interval is longer than the length of the second time interval.

Compared with the prior art, the present invention has the following advantages: the present invention is a water management method and system based on the Internet of Things, because the Internet of Things system has its own characteristics (for example, the nodes in the Internet of Things are all low-complexity devices, while The requirements for power consumption are more stringent), so various methods involving the Internet of Things need to take into account the characteristics of the Internet of Things. In the method of the present invention, by designing "the first industrial enterprise's water consumption information summary terminal determines whether the link quality is lower than the threshold value based on the received link quality" and related steps, in fact, firstly select the communication link To improve the communication success rate, the higher the communication success rate, the faster the communication speed and the less power consumption of the node. In the case that the present invention cannot be switched, by designing "if it is judged that the transmission power of the water consumption information monitoring mobile terminal does not reach the upper limit value of transmission power, the first industrial enterprise water consumption information summary terminal will send the water consumption information monitoring mobile terminal to the mobile terminal. "Send transmission power improvement information" and related steps to achieve the purpose of improving the link quality and ensure the transmission speed. In the present invention, when the transmission power cannot be adjusted and cannot be switched, the pause and its related steps are designed, which takes into account that the quality of the wireless communication link is actually time-related, and the current poor communication quality is probably because the link is congested Therefore, by suspending the design, meaningless retransmissions are avoided and node power consumption is reduced. Finally, by designing "in response to receiving the increase monitoring frequency message, the water consumption information monitoring mobile terminal periodically sends the enterprise water consumption information to the first industrial enterprise water consumption information summary terminal or the second industrial enterprise at a second time interval. "Water Information Aggregation Terminal" and its related steps realize the differentiated treatment of emergency and general situations, which not only achieves the purpose of saving electricity, but also achieves the purpose of quick feedback in emergency situations.

Description of drawings

FIG. 1 is a flowchart of a water management method for an industrial enterprise according to an embodiment of the present invention.

Detailed ways

The specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the protection scope of the present invention is not limited by the specific embodiments.

Unless expressly stated otherwise, throughout the specification and claims, the term "comprising" or its conjugations such as "comprising" or "comprising" and the like will be understood to include the stated elements or components, and Other elements or other components are not excluded.

FIG. 1 is a flowchart of a water management method for an industrial enterprise according to an embodiment of the present invention. As shown in the figure, the industrial enterprise water management method of the present invention comprises the following steps:

Step 101: monitor the enterprise water consumption information by the water consumption information monitoring mobile terminal;

Step 102: Monitor the mobile terminal by the water use information (for example, for a water monitoring device with a communication function, the simplest setting method is to add a wireless communication module to the existing water monitoring device, which can form a low-cost mobile monitoring terminal) periodically sending the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal at the first time interval;

Step 103: Monitor the link quality of the wireless communication link between the first industrial enterprise's water consumption information aggregation terminal and the water consumption information monitoring mobile terminal by the water consumption information monitoring mobile terminal (the link quality is a well-known link quality indicator in the wireless communication field. symbols, such as RSRP, RSRQ, CQI, signal reception strength, signal-to-noise ratio, signal-to-interference-noise ratio, etc.);

Step 104: sending the link quality to the first industrial enterprise water consumption information aggregation terminal by the water consumption information monitoring mobile terminal;

Step 105: Judging whether the link quality is lower than the threshold value based on the received link quality by the first industrial enterprise water consumption information aggregation terminal;

Step 106: if it is determined that the link quality is lower than the threshold value, the first industrial enterprise water consumption information aggregation terminal sends a handover request message to the second industrial enterprise water consumption information aggregation terminal;

Step 107: In response to receiving the switching request message, the second industrial enterprise water consumption information aggregation terminal determines whether the second industrial enterprise water consumption information aggregation terminal is in an available state;

Step 108: if it is determined that the water consumption information aggregation terminal of the second industrial enterprise is in an available state, the second industrial enterprise water consumption information aggregation terminal sends a switching permission message to the first industrial enterprise water consumption information aggregation terminal;

Step 109: in response to receiving the switching permission message, sending a switching instruction from the first industrial enterprise water consumption information aggregation terminal to the water consumption information monitoring mobile terminal; and

Step 110: In response to receiving the switching instruction, the mobile terminal for monitoring the water consumption information periodically sends the enterprise water consumption information to the second industrial enterprise water consumption information summary terminal at the first time interval (the method of the present invention also requires the first industrial enterprise to The water consumption information aggregation terminal and the second industrial enterprise water consumption information aggregation terminal send all the received messages (for example, by means of wired transmission) to the data processing center for data processing, and then the data processing center actually obtains the water consumption status of the enterprise, the data The process of centrally processing data is common knowledge in the field, and will not be repeated in the present invention).

In a preferred embodiment, the Internet of Things-based industrial enterprise water management method further includes the following steps: if it is determined that the second industrial enterprise water consumption information aggregation terminal is in an unavailable state, the second industrial enterprise water consumption information aggregation The terminal sends a handover rejection message to the first industrial enterprise water consumption information aggregation terminal; in response to receiving the handover rejection message, the first industrial enterprise water consumption information aggregation terminal determines whether the transmission power of the water consumption information monitoring mobile terminal reaches the transmission power level. The upper limit value of power, wherein the upper limit value of the transmission power is based on the number of other water use information monitoring mobile terminals around the water consumption information monitoring mobile terminal; if it is determined that the transmission power of the water consumption information monitoring mobile terminal does not reach the upper limit value of the power, the first industrial enterprise water consumption information aggregation terminal sends transmit power boost information to the water usage information monitoring mobile terminal; and in response to receiving the transmit power boost information, the water usage information monitoring mobile terminal uses the first The time interval and the increased transmit power periodically transmit the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal.

In a preferred embodiment, the method for managing water use in an industrial enterprise based on the Internet of Things further includes the following steps: if it is determined that the transmission power of the water consumption information monitoring mobile terminal has reached the upper limit value of the transmission power, the first industrial enterprise The water consumption information aggregation terminal sends a suspension sending message to the water consumption information monitoring mobile terminal; in response to receiving the suspension transmission message, the water consumption information monitoring mobile terminal suspends sending the enterprise water consumption information to the first industrial enterprise water consumption information Summarizing terminal, wherein the time length of the pause is a predefined time length; after the predefined time length, the water consumption information monitoring mobile terminal of the first industrial enterprise re-measures the water consumption information summarizing terminal of the first industrial enterprise and the water consumption information monitoring link quality of the wireless communication link between the mobile terminals; and sending the re-measured link quality by the water consumption information monitoring mobile terminal to the first industrial enterprise water consumption information aggregation terminal.

In a preferred embodiment, the Internet of Things-based industrial enterprise water management method further includes the following steps: the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal sends the data to the data processing center. Received enterprise water use information; the data processing center determines whether the enterprise water use is abnormal based on the enterprise water use information; if it is determined that the enterprise water consumption is abnormal, the data processing center will report to the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise The enterprise water consumption information aggregation terminal sends an abnormal status message; and in response to receiving the abnormal status message, the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal sends the lifting monitoring to the water consumption information monitoring mobile terminal frequency message.

In a preferred embodiment, the method for water management in an industrial enterprise based on the Internet of Things further comprises the following steps: in response to receiving the message of increasing the monitoring frequency, the water consumption information monitoring mobile terminal periodically monitors the water consumption at a second time interval. The enterprise water consumption information is sent to the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal; wherein the length of the first time interval is longer than the length of the second time interval.

The present invention also provides an industrial enterprise water management system based on the Internet of Things, comprising:

A unit for monitoring enterprise water consumption information by a water consumption information monitoring mobile terminal;

A unit for periodically sending the enterprise water consumption information to the first industrial enterprise water consumption information aggregation terminal at a first time interval by the water consumption information monitoring mobile terminal;

A unit for monitoring the link quality of the wireless communication link between the first industrial enterprise water consumption information aggregation terminal and the water consumption information monitoring mobile terminal by the water consumption information monitoring mobile terminal;

A unit for sending the link quality to the first industrial enterprise water consumption information aggregation terminal by the water consumption information monitoring mobile terminal;

a unit for judging whether the link quality is lower than a threshold value based on the received link quality by the first industrial enterprise water consumption information summary terminal;

A unit for sending a handover request message from the first industrial enterprise water consumption information aggregation terminal to the second industrial enterprise water consumption information aggregation terminal if it is determined that the link quality is lower than the threshold value;

A unit for determining whether the second industrial enterprise water consumption information aggregation terminal is in an available state by the second industrial enterprise water consumption information aggregation terminal in response to receiving the switching request message;

A unit for sending a switching permission message from the second industrial enterprise water information aggregation terminal to the first industrial enterprise water information aggregation terminal if it is determined that the second industrial enterprise water consumption information aggregation terminal is in an available state;

a unit for sending a switching instruction from the first industrial enterprise water consumption information aggregation terminal to the water consumption information monitoring mobile terminal in response to receiving the switching permission message; and

A unit for periodically sending the enterprise water consumption information to a second industrial enterprise water consumption information aggregation terminal at a first time interval by the water consumption information monitoring mobile terminal in response to receiving the switching instruction.

In a preferred embodiment, the Internet of Things-based industrial enterprise water management system further includes: if it is determined that the second industrial enterprise water consumption information aggregation terminal is in an unavailable state, the second industrial enterprise water consumption information aggregation A unit for the terminal to send a switching rejection message to the first industrial enterprise water consumption information aggregation terminal; in response to receiving the switching rejection message, the first industrial enterprise water consumption information aggregation terminal judges the transmission of the water consumption information monitoring mobile terminal A unit for whether the power reaches the upper limit value of transmission power, wherein the upper limit value of transmission power is based on the number of other water consumption information monitoring mobile terminals around the water consumption information monitoring mobile terminal; If the transmit power of the mobile terminal does not reach the transmit power upper limit value, a unit for sending transmit power boost information to the water usage information monitoring mobile terminal by the first industrial enterprise water consumption information aggregation terminal; and a unit for responding to receiving the transmit power Upgrading information, the mobile terminal for monitoring water consumption information periodically sends the enterprise water consumption information to the unit of the first industrial enterprise water consumption information aggregation terminal at a first time interval and an elevated transmission power.

In a preferred embodiment, the Internet of Things-based industrial enterprise water management system further includes: if it is determined that the transmission power of the water consumption information monitoring mobile terminal has reached the upper limit of the transmission power, the first industrial enterprise A unit for sending a suspended sending message from the water consumption information summary terminal to the water consumption information monitoring mobile terminal; in response to receiving the water consumption information monitoring mobile terminal, the mobile terminal for water consumption information monitoring suspends sending the enterprise water consumption information to the first A unit of a terminal for summarizing water consumption information of an industrial enterprise, wherein the time duration of the pause is a predefined length of time; it is used to re-measure the water consumption information of the first industrial enterprise by the mobile terminal for monitoring water consumption after the predefined time length A unit for summarizing the link quality of the wireless communication link between the terminal and the water-use information monitoring mobile terminal; and for sending the re-measured link quality to the first industrial enterprise water-use information by the water-use information monitoring mobile terminal The unit that summarizes the terminal.

In a preferred embodiment, the IoT-based industrial enterprise water management system further comprises: a first industrial enterprise water information aggregation terminal or a second industrial enterprise water information aggregation terminal for sending the data to the data processing center. A unit for receiving enterprise water use information; a unit for the data processing center to determine whether there is an abnormality in the enterprise water use based on the enterprise water consumption information; for if it is determined that there is an abnormality in the enterprise water use, the data processing center sends the information to the first industrial enterprise a unit for sending an abnormal state message from the water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal; and for responding to receiving the abnormal state message, the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal A unit for the terminal to send a message of increasing the monitoring frequency to the water-use information monitoring mobile terminal.

In a preferred embodiment, the Internet of Things-based industrial enterprise water management system further comprises: in response to receiving the increased monitoring frequency message, the mobile terminal for monitoring water use information periodically at a second time interval. The enterprise water consumption information is sent to the unit of the first industrial enterprise water consumption information aggregation terminal or the second industrial enterprise water consumption information aggregation terminal; wherein the length of the first time interval is longer than the length of the second time interval.

As will be appreciated by those skilled in the art, the embodiments of the present application may be provided as a method, a system, or a computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, etc.) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the present application. It will be understood that each flow and/or block in the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to the processor of a general purpose computer, special purpose computer, embedded processor or other programmable data processing device to produce a machine such that the instructions executed by the processor of the computer or other programmable data processing device produce Means for implementing the functions specified in a flow or flow of a flowchart and/or a block or blocks of a block diagram.

These computer program instructions may also be stored in a computer-readable memory capable of directing a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory result in an article of manufacture comprising instruction means, the instructions The apparatus implements the functions specified in the flow or flow of the flowcharts and/or the block or blocks of the block diagrams.

These computer program instructions can also be loaded on a computer or other programmable data processing device to cause a series of operational steps to be performed on the computer or other programmable device to produce a computer-implemented process such that The instructions provide steps for implementing the functions specified in the flow or blocks of the flowcharts and/or the block or blocks of the block diagrams.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. These descriptions are not intended to limit the invention to the precise form disclosed, and obviously many changes and modifications are possible in light of the above teachings. The exemplary embodiments were chosen and described for the purpose of explaining certain principles of the invention and their practical applications, to thereby enable one skilled in the art to make and utilize various exemplary embodiments and various different aspects of the invention. Choose and change. The scope of the invention is intended to be defined by the claims and their equivalents.

Claims (1)

1. The industrial enterprise water consumption management method based on the Internet of things is characterized by comprising the following steps: the industrial enterprise water consumption management method based on the Internet of things comprises the following steps:

monitoring enterprise water consumption information by a water consumption information monitoring mobile terminal;

the water consumption information monitoring mobile terminal periodically sends the enterprise water consumption information to a first industrial enterprise water consumption information summarizing terminal at a first time interval;

monitoring the link quality of a wireless communication link between the first industrial enterprise water information summarizing terminal and the water information monitoring mobile terminal by the water information monitoring mobile terminal;

the link quality is sent to the first industrial enterprise water consumption information summarizing terminal by the water consumption information monitoring mobile terminal;

judging whether the link quality is lower than a threshold value or not by the first industrial enterprise water consumption information summarizing terminal based on the received link quality;

if the link quality is judged to be lower than the threshold value, the first industrial enterprise water consumption information summarizing terminal sends a switching request message to a second industrial enterprise water consumption information summarizing terminal;

responding to the received switching request message, and judging whether the second industrial enterprise water consumption information summarizing terminal is in an available state or not by the second industrial enterprise water consumption information summarizing terminal;

if the second industrial enterprise water consumption information summarizing terminal is judged to be in an available state, the second industrial enterprise water consumption information summarizing terminal sends a switching permission message to the first industrial enterprise water consumption information summarizing terminal;

in response to receiving the switching permission message, the first industrial enterprise water consumption information summarizing terminal sends a switching instruction to the water consumption information monitoring mobile terminal; and

in response to receiving the switching instruction, the water consumption information monitoring mobile terminal periodically sends the enterprise water consumption information to the second industrial enterprise water consumption information summarizing terminal at a first time interval, and the method for managing water consumption of the industrial enterprise based on the internet of things further comprises the following steps:

if the second industrial enterprise water consumption information summarizing terminal is judged to be in an unavailable state, the second industrial enterprise water consumption information summarizing terminal sends a switching refusing message to the first industrial enterprise water consumption information summarizing terminal;

in response to receiving the switching refusing message, the first industrial enterprise water consumption information summarizing terminal judges whether the transmitting power of the water consumption information monitoring mobile terminal reaches an upper transmitting power limit value, wherein the upper transmitting power limit value is based on the number of other water consumption information monitoring mobile terminals around the water consumption information monitoring mobile terminal;

if the transmitting power of the water consumption information monitoring mobile terminal does not reach the transmitting power upper limit value, the first industrial enterprise water consumption information summarizing terminal sends transmitting power increasing information to the water consumption information monitoring mobile terminal;

in response to receiving the transmission power boost information, periodically sending, by a water usage information monitoring mobile terminal, the enterprise water usage information to the first industrial enterprise water usage information aggregation terminal at a first time interval and boosted transmission power, wherein the internet of things-based industrial enterprise water management method further comprises the steps of:

if the transmitting power of the water consumption information monitoring mobile terminal reaches the transmitting power upper limit value, a first industrial enterprise water consumption information summarizing terminal sends a pause sending message to the water consumption information monitoring mobile terminal;

in response to receiving the message of sending suspension, the water consumption information monitoring mobile terminal suspends sending the enterprise water consumption information to the first industrial enterprise water consumption information summarizing terminal, wherein the time length of suspension is a predefined time length;

after the predefined time period, re-measuring the link quality of the wireless communication link between the first industrial enterprise water information summarizing terminal and the water information monitoring mobile terminal by the water information monitoring mobile terminal;

the water consumption information monitoring mobile terminal sends the measured link quality to the first industrial enterprise water consumption information summarizing terminal, and the industrial enterprise water consumption management method based on the Internet of things further comprises the following steps:

the first industrial enterprise water consumption information summarizing terminal or the second industrial enterprise water consumption information summarizing terminal sends the received enterprise water consumption information to the data processing center;

judging whether the enterprise water consumption is abnormal or not by the data processing center based on the enterprise water consumption information; if the enterprise water consumption is judged to be abnormal, a data processing center sends an abnormal state message to the first industrial enterprise water consumption information summarizing terminal or the second industrial enterprise water consumption information summarizing terminal;

responding to the received abnormal state message, and sending a monitoring frequency increasing message to the water information monitoring mobile terminal by the first industrial enterprise water information summarizing terminal or the second industrial enterprise water information summarizing terminal, wherein the industrial enterprise water management method based on the Internet of things further comprises the following steps:

in response to receiving the boost monitoring frequency message, the water usage information monitoring mobile terminal periodically sends the enterprise water usage information to the first industrial enterprise water usage information summarizing terminal or the second industrial enterprise water usage information summarizing terminal at a second time interval;

wherein a length of the first time interval is longer than a length of the second time interval.

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