CN112150711A

CN112150711A - Intelligent water service pipe network micro-electricity wireless water adding control system

Info

Publication number: CN112150711A
Application number: CN202011100964.5A
Authority: CN
Inventors: 王昂; 廖为军
Original assignee: Beijing Chuangyang Cleaning Equipment Co ltd
Current assignee: Beijing Chuangyang Cleaning Equipment Co ltd
Priority date: 2020-10-15
Filing date: 2020-10-15
Publication date: 2020-12-29

Abstract

The invention provides a micro-electric wireless water adding control system of an intelligent water service pipe network, which comprises: the system comprises a power supply device, a camera device, a water selling device and a metering control device; the power supply device includes: the solar cell panel comprises a bracket and a solar cell panel arranged at the top end of the bracket; the camera device is arranged on the bracket; the solar cell panel and the camera device are both connected with the water selling device; the water selling device is connected with the metering control device, and the metering control device is arranged on a water supply pipeline; the water selling device controls the metering control device, so that the metering control device controls the water supply pipeline to supply water and meter the water supply amount. The invention is used for the integrated management of self-service water taking, metering management, micro-electric control and wireless transmission of the reclaimed water, so that the current water taking management is more refined and is more beneficial to saving water in cities.

Description

Intelligent water service pipe network micro-electricity wireless water adding control system

Technical Field

The invention relates to the technical field of water supply equipment, in particular to a micro-electricity wireless water adding control system for an intelligent water service pipe network.

Background

At present, fresh water resources are deficient, drainage facilities and management equipment are imperfect, the necessity of reclaimed water recycling and the importance and urgency of reasonable utilization of tap water are recognized, water resources are reasonably utilized, not only can the global water supply deficiency be relieved, but also the ecological environment can be improved, and the sustainable development of water resources is realized. In recent years, the key point of recycling of urban reclaimed water is always focused on industrial wastewater with a large proportion, the recycling rate of the industrial wastewater reaches over 70 percent after years of efforts, and the recycling of the reclaimed water is gradually expanded to a plurality of industries of water-deficient cities due to the development of social economy and the continuous improvement of environmental consciousness of people.

The reclaimed water is mainly used for solving the requirements of large-scale industrial users, and most of the reclaimed water is tap water or natural fresh water resources used for urban greening, road cleaning, automatic irrigation, river and lake water replenishing, building construction, car washing water, air dust removal and the like. Although the reclaimed water resource subjected to secondary treatment has absolute advantages in water price and social benefits, the commercial development of the reclaimed water is restricted due to the high cost of laying a reclaimed water pipeline in a modern initial-scale city.

However, as cities develop and demand for water increases, the manner of fetching reclaimed water has not been able to meet the demand of cities. Reclaimed water is generally produced by adopting a well-packing cooperation mode, water charges are paid every year, actual accurate metering is not available, exact identity information of water takers cannot be verified, accurate supervision cannot be achieved, and a large amount of water stealing and stealing events are caused.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the following technical scheme:

the invention provides a micro-electric wireless water adding control system of an intelligent water service pipe network, which comprises: the system comprises a power supply device, a camera device, a water selling device and a metering control device;

the power supply device includes: the solar cell panel comprises a bracket and a solar cell panel arranged at the top end of the bracket; the camera device is arranged on the bracket;

the solar cell panel and the camera device are both connected with the water selling device;

the water selling device is connected with the metering control device, and the metering control device is arranged on a water supply pipeline;

the water selling device controls the metering control device to enable the metering control device to control a water supply pipeline to supply water and meter the water supply amount;

the water selling device is also used for receiving the video collected by the camera device and the electric energy generated by the solar cell panel, and sending the video to the target terminal.

Further, the method also comprises the following steps: overhauling the device;

the service device is disposed upstream of a target connection on the water supply line; the maintenance device is used for connecting or cutting off water in the water supply pipeline;

wherein the target connection is the connection of the metering control device to the water supply line.

Further, the method also comprises the following steps: a fire hydrant on the ground;

the above-ground hydrant is disposed downstream of the target connection on the water supply line.

Wherein, sell water installation includes: the system comprises an inverter, a storage battery, a communication unit and a control unit;

the output end of the solar cell panel is connected with the input end of the inverter; the output end of the inverter is connected with the input end of the storage battery; the output end of the storage battery is connected with the power input end of the control unit;

the control unit is connected with the communication unit through a JTAG interface; the communication unit is used for communicating with an external target terminal;

the control unit is respectively connected with the camera device and the metering control device.

Further, the water selling device further comprises: a box body switch alarm;

the box body switch alarm is arranged on a door frame inside the shell of the water selling device.

Further, the water selling device further comprises: a routing inspection button;

the patrol inspection button is arranged on the surface outside the shell of the water selling device.

Wherein the control unit includes: the system comprises a power management module, a processor, a clock module, a data storage module, a display screen, a radio frequency card read-write module, a level conversion module and an emergency button module;

the processor is respectively connected with the power management module, the clock module, the data storage module, the display screen, the radio frequency card read-write module and the level conversion module;

the level conversion module is respectively connected with the power management module and the emergency button module.

Wherein the metering control device includes: an electric valve and a water meter;

the electric valve and the water meter are both arranged on a water supply pipeline, and the water meter is arranged at the upstream of the electric valve;

wherein, the electric valve and the water meter are connected with the water selling device.

Further, the metering control device further comprises: a displacement sensor and a liquid level sensor;

the displacement sensor and the liquid level sensor are both connected with the water selling device;

the displacement sensor is arranged on the side wall of the equipment well chamber where the metering control device is located; the displacement sensor is used for detecting the well cover displacement of the equipment well chamber;

the liquid level sensor is arranged on the side wall of the equipment well chamber where the metering control device is located; the liquid level sensor is used for detecting the liquid level of water in the equipment well chamber.

Further, the metering control device further comprises: a pressure sensor;

the pressure sensor is connected with the water selling device; the pressure sensor is arranged on a water supply pipeline of the equipment well chamber where the metering control device is located; the pressure sensor is used for detecting the pressure in the water supply pipeline.

According to the above technical solution, the present invention provides a micro-wireless water adding control system for an intelligent water service pipe network, comprising: the system comprises a power supply device, a camera device, a water selling device and a metering control device; the power supply device includes: the solar cell panel comprises a bracket and a solar cell panel arranged at the top end of the bracket; the camera device is arranged on the bracket; the solar cell panel and the camera device are both connected with the water selling device; the water selling device is connected with the metering control device, and the metering control device is arranged on a water supply pipeline; the water selling device controls the metering control device to enable the metering control device to control a water supply pipeline to supply water and meter the water supply amount; the water selling device is also used for receiving the video collected by the camera device and the electric energy generated by the solar cell panel, and sending the video to the target terminal. The invention is used for the integrated management of self-service water taking, metering management, micro-electric control and wireless transmission of the reclaimed water, so that the current water taking management is more refined and is more beneficial to saving water in cities.

Drawings

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

Fig. 1 is a schematic structural diagram of a micro-wireless water adding control system of an intelligent water service pipe network according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a water selling device in a micro-wireless water adding control system of an intelligent water service pipe network according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a control unit in the smart water pipe network micro-wireless water adding control system according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of the positions of the box switch alarm and the inspection button on the water vending device in the embodiment of the invention.

Fig. 5 is a schematic structural diagram of a metering control device in a micro-wireless water feeding control system of an intelligent water service pipe network according to an embodiment of the present invention.

Reference numerals:

1. a power supply device;

11-a scaffold;

12-a solar panel;

2. a camera device;

3. a water vending device;

31-an inverter;

32-a storage battery;

33-a communication unit;

34-a control unit;

341-power management module;

342-a processor;

343-a clock module;

344 — a data storage module;

345-a display screen;

346-radio frequency card read-write module;

347-level conversion module;

348-Emergency button Module

35-box switch alarm;

36-routing inspection button;

4. a water vending device;

41-an electric valve;

42-a water meter;

43-displacement sensor;

44-a liquid level sensor;

45-pressure sensor;

5. overhauling the device;

6. a fire hydrant is provided.

Detailed Description

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

The invention provides an embodiment of a micro-wireless water adding control system of an intelligent water service pipe network, and referring to fig. 1, the micro-wireless water adding control system of the intelligent water service pipe network specifically comprises:

a power supply device 1, a camera device 2, a water selling device 3 and a metering control device 4; wherein, power supply unit 1 includes: the solar cell panel comprises a bracket 11 and a solar cell panel 12 arranged at the top end of the bracket 11;

the solar cell panel 12 is mounted on the support 11 to convert solar energy into electric energy. The bottom of the support 11 is connected with a support fixing device, and the support fixing device is used for ensuring that the solar cell panel 12 and the solar support 11 can stand on the ground and play a role in fixing.

The power supply device 1 in the present embodiment is the solar panel 12, and may be a power generation facility such as a wind power generator. The solar cell panel 12 is connected with the water selling device 3, electric energy generated by the solar cell panel 12 is transmitted to the water selling device 3, the electric energy is stored and utilized by the water selling device 3, and a 220V or 380V alternating current power supply does not need to be accessed. The reduced voltage range reduces the risk of high voltage trip into the well while saving additional expense for the user in installation and use.

The camera device 2 is arranged on the bracket 11, and the camera device 2 is used for carrying out image acquisition or video acquisition on the water selling device 3 on the ground. The camera device 2 is connected with the water selling device 3, the water selling device 3 receives the video recorded by the camera device 2, the water selling device 3 can be effectively prevented from being damaged by human factors, and the safety of the intelligent water service pipe network micro-electricity wireless water adding control system is improved.

The metering control device 4 is provided on the water supply line, and the metering control device 4 can control the water supply line to supply water and meter the amount of supplied water. The metering control device 4 is connected with the water selling device 3, the water selling device 3 controls the water supply pipeline to supply water through the metering control device 4, and the metering of the water supply amount is fed back through the metering control device 4.

In the embodiment, the intelligent water service pipe network micro-electricity wireless water adding control system can be installed integrally, the metering control device 4 is arranged in an underground well chamber, and a fixing support for fixing the water selling device 3 is arranged above the well chamber; the solar support 11 is arranged above the water selling device 3, so that the integrated installation of the micro-electricity wireless water adding control system of the intelligent water service pipe network is realized.

In this embodiment, the smart water service pipe network micro-wireless water adding control system is installed in a decentralized manner, the metering control device 4 is arranged in an underground well chamber, the water selling device 3 is arranged on one side of the well chamber, and the water selling device 3 is fixed through the water selling fixing device. The other side of the well chamber is provided with a solar support 11, and the bottom of the support 11 is connected with a support fixing device, so that the support 11 is stabilized.

In order to install and overhaul wisdom water utilities pipe network micro-electricity wireless control system that adds water, the wisdom water utilities pipe network micro-electricity wireless control system that adds water that this embodiment provided still includes: and (5) overhauling the device.

The service device 5 is arranged upstream of the target connection on the water supply line; the target connection is the connection of the metering control device to the water supply line.

The maintenance device 5 can connect or cut off water in the water supply pipeline; the maintenance device 5 is a manual block valve. The on or off of the cut-off valve is controlled to control the on or off of the water in the water pipeline. Sell water when the switch-on, can overhaul the wireless control system that adds of wisdom water utilities pipe network micro electricity when cutting and maintain.

In order to allow a rapid connection of the water supply line to the water intake line or to the water intake vehicle, an above-ground fire hydrant 6 is provided at the outlet of the water supply line or downstream of the target connection, by means of which above-ground fire hydrant 6 the water intake vehicle or the water intake line can be quickly switched on.

Referring to fig. 2, the water selling device 3 in the present embodiment specifically includes: an inverter 31, a battery 32, a communication unit 33, and a control unit 34;

the control unit 34 is connected to the imaging device 2 and the metering control device 4, respectively.

The output end of the solar cell panel 12 is connected with the input end of the inverter 31; the output end of the inverter 31 is connected with the input end of the storage battery 32; the output end of the storage battery 32 is connected with the power input end of the control unit 34;

the solar cell panel 12 is connected to a battery 32 via an inverter 31. The inverter 31 converts the energy generated by the solar cell panel 12 into electric power that can be charged into the battery 32.

The inverter 31, the storage battery 32, the communication unit 33 and the control unit 34 are all arranged or integrated in a shell respectively, and the shell is used for protecting equipment in the shell from being damaged by the severe environment of the outside environment, so that the safe, stable and long-time normal operation is ensured.

The inverter 31, the storage battery 32 and the control unit 34 are connected through pluggable plug terminals, so that the modules in the water selling device 3 can be rapidly replaced, and the universality of each module of the intelligent water service pipe network micro-wireless water adding control system is improved.

The communication unit 33 and the control unit 34 are connected through a JTAG interface; a communication unit 33 for communicating with an external target terminal; the control unit 34 transmits the received video to the target terminal via the communication unit 33. The communication unit 33 is also used for uploading water sales data and receiving data sent by the target terminal.

In the embodiment, the communication unit 33 uses the mature 4G technology, so as to ensure the stability of data communication. The communication unit 33 is separated from the control unit 34, and the connection is realized through the JTAG interface, so that the installation and the replacement of equipment are more convenient, and signals between the communication unit 33 and the control unit 34 cannot interfere with each other.

In the present embodiment, referring to fig. 3, the control unit 34 includes: a power management module 341, a processor 342, a clock module 343, a data storage module 344, a display screen 345, a radio frequency card read-write module 346, a level conversion module 347 and an emergency button module 348 for supplying power;

the processor 342 is respectively connected to the power management module 341, the clock module 343, the data storage module 344, the display screen 345, the rf card read/write module 346, and the level conversion module 347;

the level shift module 347 is coupled to the power management module 341 and the emergency button module 348, respectively.

In the present embodiment, the processor 342 is an ARM type processor, and the data storage module 344 is a flash rom memory. The control unit 34 is used for command processing, data storage, authentication, real-time fee deduction and communication connection. The power supply to the various modules on the control unit 34 is performed by the power management module 341.

The power management module 341 supplies power to the level conversion module 347 and the emergency button module 348 through power lines separately in order to ensure that the normal operation of other components and the emergency valve closing under the emergency condition are not affected during the valve control.

The processor 342 is configured to process various control instructions, and is connected to each module on the control unit 34 through a system bus, so as to ensure that each module or device can cooperate with each other.

The clock module 343 is used to record the time information of the control unit 34 and provide a time reference for the command execution of the processor 342.

The data storage module 344 is configured to record information of various operation parameters of the smart water pipe network micro-wireless water adding control system.

The display screen 345 is used for connecting with the processor 342 through the system bus, acquiring the status information of each module, and displaying the screen output.

The rf card read/write module 346 is connected to the processor 342 through the system bus, the rf card read/write module 346 can identify a legal IC card, and the card information read by the rf card read/write module 346 is verified by the communication unit 33 connected to the processor 342 and the data storage module 344 or the JTAG interface through the system bus. After the rf card read/write module 346 identifies a legal IC card, the processor 342 controls the execution and opens the pipeline to discharge water.

It should be noted that the display screen 345 and the rf card read/write module 346 are both embedded in the housing, and the whole watering process is visualized by reserving an area for a user to attach a card and configuring the display screen 345 with a backlight function on the housing.

The level shifting module 347 is coupled to the processor 342 via a bus. The card information read by the rf card read/write module 346 is a legal card, and the processor 342 controls the level conversion module 347 to output voltage to control the water discharge and metering operations. The emergency button module 348 changes the output voltage of the level conversion module 347 to realize emergency water outlet closing.

The user unit can take the water card to go to the site to carry out the water adding operation. There are two modes for user usage: 1. one card is in a one machine mode, and one water taking device can be used by only one user. 2. The multi-card one-machine mode is adopted, and one water taking device can be used by multiple users.

During the process of getting water, the processor 342 deducts the cost corresponding to the water yield in the card in real time through the rf card read/write module 346 according to the pulse information provided by the flow meter. After the whole water adding control is finished, the processor 342 accumulates the water adding amount in the whole process, outputs the water adding amount to the communication unit 33 through the bus and the JTAG interface, and uploads the water adding record to the user data center through the communication unit 33. If the communication unit 33 cannot upload due to signal problems or system failures, the processed data is stored in the data storage module 344 by the processor 342, and is output to the communication unit 33 through the bus for uploading after the failure is resolved or the signal is enhanced by the processor 342. And meanwhile, the whole control is carried out by the output display of the state of the data display screen.

Referring to fig. 4, the intelligent water service pipe network micro-electricity wireless water adding control system prevents artificial damage loss in the aspect of safety, and a box switch alarm 35 is arranged on a door frame inside a shell of the water selling device. The shell of the water selling device is opened under the unexpected condition, and the alarm is given, so that the safety of the micro-wireless water adding control system of the intelligent water service pipe network is improved.

In application, an advertisement column may be disposed on the side of the housing, and one side of the advertisement column is an openable door shaft, and the control unit 34 is located on the top of one end of the narrow side of the box body.

For example: the front view surface and the back view surface of the shell box body are advertising columns, so that the economic benefit of the intelligent water pipe network micro-wireless water adding control system is improved through the multiplexing of the shell, or the propaganda effect on the intelligent water pipe network micro-wireless water adding control system is realized.

In this embodiment, two layers of detachable partition boards are arranged in the box body of the shell to form three independent spaces. Wherein the top separator places the control unit 34 and the communication unit 33, the inverter 31 is placed in the middle, and the battery 32 is placed in the ground. When the intelligent water service pipe network micro-wireless water adding control system is integrally installed, the metering control device 4 can be arranged in a space formed by the stratum partition plate and the ground.

Referring to fig. 4, in application, a routing inspection button 36 for routing inspection and positioning is arranged on the surface of the outer shell of the water selling device;

the patrolling personnel then through handheld patrolling stick contact shell outside the surperficial button 36 of patrolling, accomplish the task of patrolling and examining, the control center of patrolling stick then can look over and look over whether the personnel of patrolling and examining accomplish the distribution task.

Referring to fig. 5, the metering control device 4 in the present embodiment specifically includes: an electric valve 41 and a water meter 42;

the electric valve 41 and the water meter 42 are both arranged on the water supply pipeline, and the water meter 42 is arranged at the upstream of the electric valve 21; that is, the metering water meter 42 is installed in front of the electric valve 41 to ensure the metering accuracy thereof.

The electric valve 41 and the water meter 42 are both connected with a processor 342 on the water selling device 3, and the processor 342 controls the on-off of the electric valve 41 to control the water in the water supply line. The amount of water supply is taken in through the meter water 42.

It should be noted that a hydrant is installed at the end of the water supply line, and the electric valve 41 executes a relevant command when receiving an on/off valve command, and a user quickly connects to the water intake vehicle or the water intake line through the joint of the hydrant. In the whole water adding control, the water meter 42 measures the water yield by inputting pulse signals, thereby achieving the purposes of self-service water outlet and water charge measurement.

The metering control device 4 further includes: a displacement sensor 43 and a level sensor 44;

the displacement sensor 43 and the liquid level sensor 44 are both connected to the processor 342 on the water vending apparatus 3.

The displacement sensor 43 is arranged on the side wall of the equipment well chamber of the metering control device; the displacement sensor 43 is used for detecting the well lid displacement of the equipment well room. The well lid displacement is detected through displacement sensor 43 to prevent artificial damage loss or remove the well lid, promotes the security.

The liquid level sensor 44 is arranged on the side wall of the equipment well chamber where the metering control device is located; the level sensor 44 is used to detect the level of water in the equipment well.

Level sensor 44 utilizes linkage to install in the pit, and level sensor 44 can prevent the water logging equipment of soaking to and inform the personnel of patrolling and examining to handle, promote the security.

The metering control device 4 further includes: a pressure sensor 45;

the pressure sensor 45 is arranged on a water supply line of an equipment well chamber of the metering control device; the pressure sensor 45 is used to detect the pressure in the water supply line.

The pressure sensor 45 is connected with the processor 342 on the water selling device 3; the pressure condition in the water supply pipeline can be checked at any time, and the pressure of the water supply pipeline is convenient to adjust.

In a specific application, the pressure sensor 45 is installed on a water supply line by using a pipe clamp, receives pressure data through the processor 342, and uploads the pressure data to a target terminal through the communication unit 33.

It can be understood that the pressure data can prevent the water truck from adding water and opening a valve to cause the water truck to flow backwards to pollute a pipeline water source when the pressure in the water supply pipeline is insufficient.

The specific using process is described as follows:

when a user goes to a site to fetch water, a water truck water taking pipe is connected to a quick interface of a fire hydrant, then a water card is inserted into or attached to the radio frequency card reading and writing module 346, the radio frequency card reading and writing module 346 starts to read and write the card, the radio frequency card reading and writing module 346 is connected with the processor 342 through a bus, card information is read through the radio frequency card reading and writing module 346, and local and upper card information verification is carried out through the communication unit 33 which is connected with the JTAG interface through the bus and the data storage module 344 through the processor 342. The level conversion module 347 is connected with the processor 342 through a bus, the read information related to the card is output on the display screen 345, if the card is abnormal, the card is overdue or illegal, if the card is normal, the card and the residual water amount are displayed through the display screen 345, meanwhile, the processor 342 controls the output voltage of the level conversion module 347 to be connected to the electric valve 41 for controlling the water outlet through a power line, the valve is opened, the water meter 42 starts counting, and a pulse signal is sent to the processor 342, the processor 342 deducts the cost corresponding to the water outlet amount in the card in real time through the radio frequency card read-write module 346 according to the pulse information number, after the water truck is filled with water, the radio frequency card read-write module 346 detects that the user pulls out the card, the radio frequency card read-write module 346 gives information to the processor 342 through the bus, and then the processor 342 controls the level conversion module 347 to output to be connected to the electric valve 41 for controlling the water, the valve is closed, the water meter 42 stops counting at the same time, and the processor 342 accumulates the water adding amount in the whole process, outputs the water adding amount to the communication unit 33 through the bus and the JTAG interface, and uploads the water adding record to the user data center through the communication unit 33. The control center can check the data of the water selling records and check the actual water adding quantity of the user. If the communication unit 33 cannot upload due to signal problems or system failures, the processed data is stored in the data storage module 344 by the processor 342, and is output to the communication unit 33 through the bus for uploading after the failure is resolved or the signal is enhanced by the processor 342. And meanwhile, the whole control is output and displayed by the display screen. And finally, the user pulls the water intake pipe of the water truck off the quick joint of the fire hydrant until the whole water adding process is finished. Therefore, the functions of identity authentication of a water adding user, self-service water adding, water quantity metering, real-time fee deduction, state remote transmission, remote management and the like are realized.

From the above description, the intelligent water service pipe network micro-electricity wireless water adding control system provided by the embodiment of the invention is used for an automatic integrated management device for self-service water taking, metering management, micro-electricity control and wireless transmission of urban tap water, reclaimed water under pressure, non-pressure pipe networks, automatic irrigation of farmlands and water replenishing of rivers and lakes. The problem of present extensive metering mode of water use trade is solved, make present water intaking management more meticulous and more do benefit to the using water wisely in city.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The terms "upper", "lower", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention is not limited to any single aspect, nor is it limited to any single embodiment, nor is it limited to any combination and/or permutation of these aspects and/or embodiments. Moreover, each aspect and/or embodiment of the present invention may be utilized alone or in combination with one or more other aspects and/or embodiments thereof.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. The utility model provides a wisdom water utilities pipe network micro-electricity wireless control system that adds water which characterized in that includes: the system comprises a power supply device, a camera device, a water selling device and a metering control device;

2. The intelligent water service pipe network micro-wireless water adding control system according to claim 1, further comprising: overhauling the device;

3. The intelligent water service pipe network micro-wireless water adding control system according to claim 2, further comprising: a fire hydrant on the ground;

4. The intelligent water service pipe network micro-wireless water adding control system according to any one of claims 1-3, wherein the water selling device comprises: the system comprises an inverter, a storage battery, a communication unit and a control unit;

5. The intelligent water service pipe network micro-wireless water adding control system according to claim 4, wherein the water selling device further comprises: a box body switch alarm;

6. The intelligent water service pipe network micro-wireless water adding control system according to claim 4, wherein the water selling device further comprises: a routing inspection button;

7. The intelligent water service pipe network micro-wireless water adding control system according to claim 4, wherein the control unit comprises: the system comprises a power management module, a processor, a clock module, a data storage module, a display screen, a radio frequency card read-write module, a level conversion module and an emergency button module;

8. The intelligent water service pipe network micro-wireless water adding control system according to any one of claims 1-3, wherein the metering control device comprises: an electric valve and a water meter;

9. The intelligent water service pipe network micro-wireless water adding control system according to claim 8, wherein the metering control device further comprises: a displacement sensor and a liquid level sensor;

10. The intelligent water service pipe network micro-wireless water adding control system according to claim 8, wherein the metering control device further comprises: a pressure sensor;