CN107765657A - A kind of water utilities intelligent control method and system based on Internet of Things - Google Patents

Abstract

The present invention relates to water utilities monitoring technology field, proposes a kind of water utilities intelligent control method and system based on Internet of Things.Methods described includes：Internet of Things adapter gathers the field data related to sewage disposal, and the field data is transmitted to Internet of Things cloud platform；The Internet of Things cloud platform receives, stores the field data, and carries out standardization processing to the field data；The monitoring server carries out big data analysis and processing to the field data from the field data after Internet of Things cloud platform acquisition standardization processing.Said process obtains field data by Internet of Things adapter first, then field data is uploaded to Internet of Things cloud platform and carries out standardization processing, finally by monitoring server from Internet of Things cloud platform obtain standardization processing after field data, and big data analysis and processing are carried out to field data, reach the integration of data acquisition, data transfer and data processing, and then realize the monitoring of overall importance and management of sewage disposal.

Description

A kind of water utilities intelligent control method and system based on Internet of Things

Technical field

The present invention relates to water utilities monitoring technology field, more particularly to a kind of water utilities intelligent control method based on Internet of Things and System.

Background technology

Sewage disposal refers to it is purified for the water quality requirement for reaching sewage to drain into a certain water body or reusing Process, it is the important process of urban development construction.The equipment that sewage disposal needs use is numerous, and handling process is complicated, main Process procedure includes：Grid, regulation homogeneous, primary sedimentation, hydrolysis acidification, anaerobic reaction, aerobic reaction and secondary precipitation etc..With The development of sewage disposal technology, the mechanization of sewage disposal and automaticity improve constantly, and used equipment is also more next It is more, it can be largely classified into following a few classes：Special equipment, common apparatus, electric equipment and instrumentation devices.At sewage Reason technological process and device class be can see, and sewage disposal is made up of pipeline, engineering, various equipment and detecting instrument One organic whole.

At present, although most domestic city has had a sewage disposal system, most sewage disposal systems from Dynamicization degree is not high, and is confined to single-point monitoring or LAN monitoring, does not form system for unified management of overall importance.

The content of the invention

In view of this, the embodiments of the invention provide a kind of water utilities intelligent control method and system based on Internet of Things, energy Enough realize the monitoring of overall importance and management of sewage disposal.

The first aspect of the embodiment of the present invention provides a kind of water utilities intelligent control method based on Internet of Things, applied to bag Include the water utilities intelligent monitor system of Internet of Things adapter, Internet of Things cloud platform and monitoring server, the water utilities intelligent monitoring side Method includes：

The Internet of Things adapter gathers the field data related to sewage disposal, and the field data is transmitted to institute State Internet of Things cloud platform；

The Internet of Things cloud platform receives, stores the field data, and carries out standardization processing to the field data；

The monitoring server from the Internet of Things cloud platform obtain standardization processing after the field data, and to institute State field data and carry out big data analysis and processing.

The second aspect of the embodiment of the present invention provides a kind of water utilities intelligent monitor system based on Internet of Things, including：

Internet of Things adapter, for gathering the field data related to sewage disposal, and by the field data transmit to Internet of Things cloud platform；

Internet of Things cloud platform, standardization processing is carried out for receiving the field data, and to the field data；

Monitoring server, it is and right for the field data after obtaining standardization processing from the Internet of Things cloud platform The field data carries out big data analysis and processing.

Water utilities intelligent control method provided in an embodiment of the present invention based on Internet of Things, is adapted to applied to including Internet of Things The water utilities intelligent monitor system of device, Internet of Things cloud platform and monitoring server, the water utilities intelligent control method include：The thing Networking adapter gathers the field data related to sewage disposal, and the field data is transmitted to the Internet of Things cloud and put down Platform；The Internet of Things cloud platform receives, stores the field data, and carries out standardization processing to the field data；It is described Monitoring server enters from the field data after Internet of Things cloud platform acquisition standardization processing to the field data Row big data is analyzed and processing.Said process is obtained the field data related to sewage disposal by Internet of Things adapter first, so These field datas are uploaded to Internet of Things cloud platform afterwards and carry out standardization processing, are finally put down by monitoring server from Internet of Things cloud Platform obtains the field data after standardization processing, and big data analysis and processing are carried out to the field data, reaches several According to the integration of collection, data transfer and data processing, and then realize the monitoring of overall importance and management of sewage disposal.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, below will be to embodiment or description of the prior art In the required accompanying drawing used be briefly described, it should be apparent that, drawings in the following description be only the present invention some Embodiment, for those of ordinary skill in the art, without having to pay creative labor, can also be according to these Accompanying drawing obtains other accompanying drawings.

Fig. 1 is a kind of structure chart of water utilities intelligent monitor system based on Internet of Things provided in an embodiment of the present invention；

Fig. 2 is a kind of water utilities intelligence of water utilities intelligent monitor system applied to shown in Fig. 1 provided in an embodiment of the present invention The flow chart of monitoring method.

Embodiment

In describing below, in order to illustrate rather than in order to limit, it is proposed that such as tool of particular system structure, technology etc Body details, thoroughly to understand the embodiment of the present invention.However, it will be clear to one skilled in the art that there is no these specific The present invention can also be realized in the other embodiments of details.In other situations, omit to well-known system, device, electricity Road and the detailed description of method, in case unnecessary details hinders description of the invention.

The embodiments of the invention provide a kind of water utilities intelligent control method and system based on Internet of Things, sewage can be realized The monitoring of overall importance of processing and management.

Referring to Fig. 1, a kind of water utilities intelligent monitor system based on Internet of Things provided in an embodiment of the present invention includes：

Internet of Things adapter 101, for gathering the field data related to sewage disposal, and the field data is transmitted To Internet of Things cloud platform；

Internet of Things cloud platform 102, standardization processing is carried out for receiving the field data, and to the field data；

Monitoring server 103, for the field data after obtaining standardization processing from the Internet of Things cloud platform, and Big data analysis and processing are carried out to the field data.

The water utilities intelligent monitor system can be divided into following three layers by systemic-function：(Internet of Things is adapted to data collection layer Device), Data support (Internet of Things cloud platform) and application layer (monitoring server).

Wherein, the Internet of Things adapter 101 is a communication gate, for gathering the live number related to sewage disposal According to can be with any wired or wireless communication modes and field data provider (such as intelligence sensor or programmable control Device processed) connection, such as the communication modes such as Ethernet, 422 serial ports, RS232 interface, RS485 interfaces or WIFI.Collecting scene After data, these field datas are sent to a default Internet of Things cloud platform and are managed.

Further, the Internet of Things adapter 101 can include：

First data acquisition module, the live number that the sensor interface for directly docking collection Sewage Disposal obtains According to, and the form of the field data is converted into the data format for meeting the Internet of Things cloud platform specification；

Second data acquisition module, the I/O module interfaces for the controller by docking Sewage Disposal gather sensing The field data that device obtains, and the form of the field data is converted into the data lattice for meeting the Internet of Things cloud platform specification Formula.

Internet of Things adapter 101 itself does not produce data, and it can be by controlling with the controller on industrial equipment, PLC etc. Molding block docks, and obtains the data (state, event, alarm) in control module；It can also directly external sensor, camera For gathering the data on industrial equipment periphery, such as temperature, humidity, image information.It is right after Internet of Things adapter gets data These data mart modelings arrange, and format so that the code requirement of Internet of Things cloud platform described in these data fits, finally by these Data are sent to the Internet of Things cloud platform.

Further, Internet of Things adapter 101 is a programmable equipment, supports what the industry such as modbus, PPi was commonly used Communication protocol, it can be docked by RS485, RS232 or CAN mode with various types of industrial equipments.

Further, Internet of Things adapter 101 can also receive the director data that the Internet of Things cloud platform is sent, and receive this Corresponding parsing is done after a little director datas, and according to the result of parsing, is sent to the controller at sewage disposal scene, allows them to go Manipulate some executing agencies (such as valve, blower fan or illuminating lamp etc.).

The Internet of Things cloud platform 102 is a network data platform, is sended over for receiving Internet of Things adapter 101 The related field data of sewage disposal, and standardization processing is carried out to the field data.Internet of Things cloud platform 102 can be same When receive the field data that multiple Internet of Things adapters transmit, and can obtain on the basis of platform specification is met more The different types of field data of kind.The standardization processing mainly includes：Data analysis, data storage, data preparation and classification, Interrelated and logic rules foundation of different types of data etc..Internet of Things cloud platform 102 can also be by the scene of storage Data are supplied to upper application system, such as monitoring server 103.

Further, the Internet of Things cloud platform 102 can include：

Data categorization module, for being classified according to default rule to the field data；

Corresponding relation building module, for establishing the logic corresponding relation between all kinds of field datas；

Data preparation memory module, for the field data to be arranged and deposited according to the logic corresponding relation Storage.

Internet of Things cloud platform 102 is a very flexible data processing platform (DPP), can compatible a variety of different data class Type, the arrangement for standardizing to data, it is easy to carry out data exchange with system application layer.Moreover, Internet of Things cloud platform 102 is also The control instruction that monitoring server 103 issues can be received, the control instruction is then sent to corresponding Internet of Things adapter 101。

The monitoring server 103 is a data application terminal, is standardized for being obtained from the Internet of Things cloud platform The field data after processing, and big data analysis and processing are carried out to the field data.Specifically, the monitoring service Device is by the way that the data after processing are sent to the water utilities intelligent internet of things system of B/S frameworks, using various types of terminal devices, Such as computer, smart mobile phone or large-size screen monitors terminal, water utilities intelligent internet of things system is entered in a manner of logging in browser.Monitoring server After getting the field data, big data analysis is carried out to these data, the result of Data Analysis Services is with figure, form Or the various modes such as curve are showed on the water utilities intelligent internet of things system interface, are easy to related personnel to show sewage disposal Field situation is monitored.

Further, the monitoring server 103 can be also used for issuing control instruction by the Internet of Things cloud platform To the Internet of Things adapter；So that the Internet of Things adapter parses the control instruction, according to the result of parsing by described in Control instruction is sent to corresponding field controller, and the field controller performs operation corresponding with the control instruction.

Concrete operating principle on the water utilities intelligent monitor system shown in Fig. 1 refer to the correlation of following methods embodiment Explanation.

Referring to Fig. 2, a kind of water utilities intelligent control method based on Internet of Things provided in an embodiment of the present invention is shown, should Method is applied to the water utilities intelligent monitor system shown in Fig. 1, including：

201st, the Internet of Things adapter gathers the field data related to sewage disposal, and the field data is transmitted To the Internet of Things cloud platform；

The field data can be the frequency converter of sewage treatment plant/stand, elevator pump, self priming pump, air blower, ventilation blower, The equipment such as motor-driven valve, vacuum meter and device, grid pond, regulating reservoir (wastewater collection pond), processing pond, sand filter, clear water reserviors, sludge The places such as pond, equipment room, or the basic number that the auxiliary facility such as water supply, draining, distribution, security protection, fire-fighting, communication, illumination provides According to various data such as, operational factor and real-time status.After the Internet of Things adapter collects field data, these are showed Field data is wirelessly transmitted to the Internet of Things cloud platform.

Further, the mode of the Internet of Things adapter collection site data can have following two：(1) directly dock Gather the field data that the sensor interface of Sewage Disposal obtains；(2) by the I/O moulds for the controller for docking Sewage Disposal The field data that block interface collection sensor obtains.For example Internet of Things adapter can be directly connected to Temperature Humidity Sensor, shooting First-class equipment, temperature, humidity and the view data at collection sewage disposal scene；Or can be with the control mould such as all kinds of PLC, DDC Block docks, and obtains state, event and alert data in control module.After field data is got, by the scene The form of data is converted into the data format for meeting the Internet of Things cloud platform specification, sends to the Internet of Things cloud platform.

202nd, the Internet of Things cloud platform is received, stores the field data, and the field data is standardized Processing；

The Internet of Things cloud platform is a flexible high in the clouds data platform, and easily data acquisition is provided for higher level user Channel, after the field data of Internet of Things adapter transmission is received, standardization processing is carried out to these field datas.

Further, the Internet of Things cloud platform can include to the standardization processing of the field data：

(1) the Internet of Things cloud platform is classified according to default rule to the field data；

(2) the logic corresponding relation that the Internet of Things cloud platform is established between all kinds of field datas；

(3) the Internet of Things cloud platform is arranged and stored to the field data according to the logic corresponding relation.

For above-mentioned steps (1), field data can be specifically divided into real-time status data, event data and alarm number According to etc. a variety of different types of data.The real-time status data is used for the virtual condition for representing field apparatus current time, than Such as position, temperature, pressure, electric current, water level and energy consumption.The event data is event caused by equipment in current time period Information, such as switching on and shutting down, cancel closedown and the action of certain executing agency etc..The alert data refers to the generation of current time period equipment The alarm behavior crossed, such as over voltage alarm, high current alarm, overload-alarm and high temperature alarm etc..

For above-mentioned steps (2), the logic corresponding relation established between all kinds of field datas, for example establish data Between incidence relation, one Early-warning Model of structure, carry out threshold value control and boundary condition etc. be set.Generally speaking, it is exactly Analysis and arrangement is carried out to data, organized with associating.For example, the field data collected includes temperature X and pressure Y, at this Logic corresponding relation " as XY ＞ threshold value Z, exporting warning message " can be set in Internet of Things cloud platform.Therefore, the Internet of Things Net cloud platform can provide two kinds of data, and a kind of is the objective data (such as temperature and pressure in example) directly collected, Another kind be by internal logic associate caused by logical data (such as warning message in example).

For above-mentioned steps (3), Internet of Things cloud platform carries out whole according to the logic corresponding relation to the field data Manage and store, be easy to these data being supplied to the application system of higher level.

203rd, the monitoring server from the Internet of Things cloud platform obtain standardization processing after the field data, and Big data analysis and processing are carried out to the field data；

The monitoring server from the Internet of Things cloud platform obtain standardization processing after the field data, and to institute State field data and carry out big data analysis and processing, major function includes remote monitoring, fault management, video are checked, history number It is investigated that see, warning system, equipment control and system configuration etc..

Further, the monitoring server, which carries out big data analysis and processing to the field data, to include：

(1) monitoring server is carried out big to the field data related to field apparatus real-time parameter got Data analysis, the result that big data is analyzed are shown in a manner of default on user terminal displays screen；

(2) monitoring server carries out big data point to the field data related to production performance got Analysis, obtains the assessment result of sewage disposal produced on-site performance；

(3) monitoring server carries out big data point to the field data related to operation costs got Analysis, obtains the assessment result of sewage disposal scene operation costs；

(4) field data progress big data analysis with environmental correclation of the monitoring server to getting, is obtained To the assessment result of sewage disposal site environment.

For above-mentioned steps (1), the field data related to field apparatus real-time parameter mainly includes field apparatus All kinds of operational factors and real-time status.Described be shown in a manner of default on user terminal displays screen mainly includes PC The modes such as end, cell phone application end, large-size screen monitors and browser.User can log in the water utilities intelligent things of B/S frameworks in display terminal Net system, after checking the real-time running data of all sewage disposal devices and carrying out big data analyzing and processing to these data Data, management is monitored to sewage disposal scene.

For above-mentioned steps (2), the field data related to production performance mainly including sewage treatment plant/entering of standing Water and index (sewage), water yield and index (water purification), water consumption, power consumption, dosage and sludge quantity etc. are with producing performance Related basic data, and the data such as the operational factor of relevant device and real-time status.These field datas are carried out to count greatly According to analysis, the assessment result of sewage disposal produced on-site performance is obtained.The assessment result can export in an arbitrary manner, be easy to Administrative staff understand sewage disposal system production performance situation, so as to take rational treatment measures, reach Optimizing manufacture and The purpose of lifting sewage treatment effeciency.

For above-mentioned steps (3), the field data related to operation costs mainly includes the use for sewage treatment plant/stand Water, power consumption, gas consumption, dosage and the basic data related to operation costs such as artificial, and the operation of relevant device The data such as parameter and real-time status.Big data analysis is carried out to these field datas, obtains sewage disposal scene operation costs Assessment result.The assessment result can export in an arbitrary manner, be easy to administrative staff understand sewage disposal system operation into This situation, so as to take rational treatment measures, reach the purpose for reducing cost of sewage disposal.

For above-mentioned steps (4), the inflow for sewage treatment plant/stand mainly is included with the field data of environmental correclation And index (sewage), water yield and index (water purification), water consumption, power consumption, gas consumption, dosage, sludge quantity, carbon emission amount, The basic data related to environmental performance such as temperature, humidity and noise, and the operational factor of relevant device and real-time status etc. Data.Big data analysis is carried out to these field datas, obtains the assessment result of sewage disposal site environment.The assessment result can To export in an arbitrary manner, it is easy to administrative staff to understand the environmental aspect of sewage disposal system, so as to take rational processing Measure, reach environmental protection and save the purpose of the energy.

Further, after above-mentioned steps (1) to (4), can also comprise the following steps (5).

(5) assessment result of the monitoring server according to the sewage disposal produced on-site performance, the sewage disposal The assessment result of live operation costs and the assessment result of the sewage disposal site environment determine control instruction, and by the control System instruction is issued to each field apparatus at sewage disposal scene by the Internet of Things cloud platform.

, can be according to these after the assessment result of sewage disposal produced on-site performance, operation costs and environment is obtained Assessment result determines rational control instruction, and the control instruction is issued into sewage disposal by the Internet of Things cloud platform shows Each field apparatus so that field apparatus performs action according to control instruction, reach improvement produce performance, operation costs and The purpose of environment.

Further, in addition to above-mentioned several big data analytic function modules, developer can exist according to the actual requirements Other functional modules are developed on the monitoring server, realize that miscellaneous function is imitated using the field data got Fruit, such as Realtime Alerts and the output of big data chart etc..

Further, after step 203,204 to 205 can also be comprised the following steps.

204th, the monitoring server issues control instruction to the Internet of Things adapter by the Internet of Things cloud platform；

The monitoring server can also issue all kinds of control instructions in addition to checking field data to field apparatus.Control System instruction is issued to the Internet of Things adapter by the Internet of Things cloud platform first, if now there is multiple Internet of Things adapters The Internet of Things cloud platform is connected to, then the control instruction can be issued to Internet of Things corresponding to the field apparatus to be controlled and be adapted to Device, i.e., the connected Internet of Things adapter of field controller corresponding with the field apparatus to be controlled.Specifically, the monitoring clothes Communication between business device and the Internet of Things cloud platform can be realized by way of internet.

205th, the Internet of Things adapter parses the control instruction, is sent the control instruction according to the result of parsing To corresponding field controller, so that the field controller performs operation corresponding with the control instruction.

The Internet of Things adapter parses the control after the control instruction that the Internet of Things cloud platform is sent is received Instruction, is sent to corresponding field controller, so that the field controller is held according to the result of parsing by the control instruction Row operation corresponding with the control instruction.

Specifically, the communication between the Internet of Things adapter and the Internet of Things cloud platform, can pass through gsm wireless number Realized according to transmission.Communication uses MQTT agreements, and MQTT agreements are an efficient asynchronous communications protocols based on message, That is the Internet of Things cloud platform all data, is packaged into one " message body ", and with the method for 3DES symmetric cryptographies This message body is encrypted, is transmitted after encryption with MQTT agreements.

Further, in some cases, the APN modes that gsm wireless can also be used to communicate, this mode may insure The security being wirelessly transferred between Internet of Things adapter and Internet of Things cloud platform.Under APN modes, it can select without using 3DES Symmetric cryptography, communication traffic can be so substantially reduced, improve communication efficiency.

Water utilities intelligent control method provided in an embodiment of the present invention based on Internet of Things, is adapted to applied to including Internet of Things The water utilities intelligent monitor system of device, Internet of Things cloud platform and monitoring server, the water utilities intelligent control method include：The thing Networking adapter gathers the field data related to sewage disposal, and the field data is transmitted to the Internet of Things cloud and put down Platform；The Internet of Things cloud platform receives, stores the field data, and carries out standardization processing to the field data；It is described Monitoring server enters from the field data after Internet of Things cloud platform acquisition standardization processing to the field data Row big data is analyzed and processing.Said process is obtained the field data related to sewage disposal by Internet of Things adapter first, so These field datas are uploaded to Internet of Things cloud platform afterwards and carry out standardization processing, are finally put down by monitoring server from Internet of Things cloud Platform obtains the field data after standardization processing, and big data analysis and processing are carried out to the field data, reaches several According to the integration of collection, data transfer and data processing, and then realize the monitoring of overall importance and management of sewage disposal.

It should be understood that the size of the sequence number of each step is not meant to the priority of execution sequence in above-mentioned each embodiment, respectively The execution sequence of process should determine that the implementation process without tackling the embodiment of the present invention forms any with its function and internal logic Limit.

It is apparent to those skilled in the art that for convenience of description and succinctly, only with above-mentioned each work( Can unit, module division progress for example, in practical application, can be as needed and by above-mentioned function distribution by different Functional unit, module are completed, i.e., the internal structure of described device are divided into different functional units or module, more than completion The all or part of function of description.Each functional unit, module in embodiment can be integrated in a processing unit, also may be used To be that unit is individually physically present, can also two or more units it is integrated in a unit, it is above-mentioned integrated Unit can both be realized in the form of hardware, can also be realized in the form of SFU software functional unit.In addition, each function list Member, the specific name of module are not limited to the protection domain of the application also only to facilitate mutually distinguish.

It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, the corresponding process in preceding method embodiment is may be referred to, will not be repeated here.

In the above-described embodiments, the description to each embodiment all emphasizes particularly on different fields, and is not described in detail or remembers in some embodiment The part of load, it may refer to the associated description of other embodiments.

Those of ordinary skill in the art are it is to be appreciated that the list of each example described with reference to the embodiments described herein Member and algorithm steps, it can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually Performed with hardware or software mode, application-specific and design constraint depending on technical scheme.Professional and technical personnel Described function can be realized using distinct methods to each specific application, but this realization is it is not considered that exceed The scope of the present invention.

In embodiment provided by the present invention, it should be understood that disclosed apparatus and method, others can be passed through Mode is realized.For example, system embodiment described above is only schematical, for example, the division of the module or unit, Only a kind of division of logic function, can there is an other dividing mode when actually realizing, such as multiple units or component can be with With reference to or be desirably integrated into another system, or some features can be ignored, or not perform.It is another, it is shown or discussed Mutual coupling or direct-coupling or communication connection can be by some interfaces, the INDIRECT COUPLING of device or unit or Communication connection, can be electrical, mechanical or other forms.

The unit illustrated as separating component can be or may not be physically separate, show as unit The part shown can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple On NE.Some or all of unit therein can be selected to realize the mesh of this embodiment scheme according to the actual needs 's.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, can also That unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated list Member can both be realized in the form of hardware, can also be realized in the form of SFU software functional unit.

If the integrated unit is realized in the form of SFU software functional unit and is used as independent production marketing or use When, it can be stored in a computer read/write memory medium.Based on such understanding, the present invention realizes above-described embodiment side All or part of flow in method, by computer program the hardware of correlation can also be instructed to complete, described computer Program can be stored in a computer-readable recording medium, and the computer program can be achieved above-mentioned each when being executed by processor The step of individual embodiment of the method..Wherein, the computer program includes computer program code, the computer program code Can be source code form, object identification code form, executable file or some intermediate forms etc..The computer-readable medium can With including：Can carry any entity or device of the computer program code, recording medium, USB flash disk, mobile hard disk, magnetic disc, CD, computer storage, read-only storage (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), electric carrier signal, telecommunication signal and software distribution medium etc..It should be noted that the computer The content that computer-readable recording medium includes can carry out appropriate increase and decrease according to legislation in jurisdiction and the requirement of patent practice, such as In some jurisdictions, according to legislation and patent practice, computer-readable medium does not include being electric carrier signal and telecommunications letter Number.

Embodiment described above is merely illustrative of the technical solution of the present invention, rather than its limitations；Although with reference to foregoing reality Example is applied the present invention is described in detail, it will be understood by those within the art that：It still can be to foregoing each Technical scheme described in embodiment is modified, or carries out equivalent substitution to which part technical characteristic；And these are changed Or replace, the essence of appropriate technical solution is departed from the spirit and scope of various embodiments of the present invention technical scheme, all should Within protection scope of the present invention.

Claims (10)

1. a kind of water utilities intelligent control method based on Internet of Things, applied to including Internet of Things adapter, Internet of Things cloud platform and The water utilities intelligent monitor system of monitoring server, it is characterised in that the water utilities intelligent control method includes：

The Internet of Things adapter gathers the field data related to sewage disposal, and the field data is transmitted to the thing Networking cloud platform；

The Internet of Things cloud platform receives, stores the field data, and carries out standardization processing to the field data；

The monitoring server from the Internet of Things cloud platform obtain standardization processing after the field data, and to described existing Field data carries out big data analysis and processing.

2. the water utilities intelligent control method based on Internet of Things as described in claim 1, it is characterised in that also include：

The monitoring server issues control instruction to the Internet of Things adapter by the Internet of Things cloud platform；

The Internet of Things adapter parses the control instruction, the control instruction is sent to according to the result of parsing corresponding to Field controller, so that the field controller performs operation corresponding with the control instruction.

3. the water utilities intelligent control method based on Internet of Things as described in claim 1, it is characterised in that the Internet of Things is fitted Orchestration, which gathers the field data related to sewage disposal, to be included：

The Internet of Things adapter directly docks the field data that the sensor interface of collection Sewage Disposal obtains, and by described in The form of field data is converted into the data format for meeting the Internet of Things cloud platform specification；

Or

The scene that the data acquisition unit gathers sensor and obtained by docking the I/O module interfaces of the controller of Sewage Disposal Data, and the form of the field data is converted into the data format for meeting the Internet of Things cloud platform specification.

4. the water utilities intelligent control method based on Internet of Things as described in claim 1, it is characterised in that the Internet of Things cloud Platform includes to the standardization processing of the field data：

The Internet of Things cloud platform is classified according to default rule to the field data；

The logic corresponding relation that the Internet of Things cloud platform is established between all kinds of field datas；

The Internet of Things cloud platform is arranged and stored to the field data according to the logic corresponding relation.

5. the water utilities intelligent control method based on Internet of Things as any one of Claims 1-4, it is characterised in that institute State monitoring server includes to field data progress big data analysis with processing：

The monitoring server carries out big data point to the field data related to field apparatus real-time parameter got Analysis, the result that big data is analyzed are shown in a manner of default on user terminal displays screen；

The monitoring server carries out big data analysis to the field data related to production performance got, obtains dirt The assessment result of water process produced on-site performance；

The monitoring server carries out big data analysis to the field data related to operation costs got, obtains dirt The assessment result of water process scene operation costs；

Field data progress big data analysis with environmental correclation of the monitoring server to getting, is obtained at sewage Manage the assessment result of site environment.

6. the water utilities intelligent control method based on Internet of Things as described in claim 5, it is characterised in that the monitoring service Device, which carries out big data analysis and processing to the field data, also to be included：

The monitoring server is according to the assessment result of the sewage disposal produced on-site performance, the operation of sewage disposal scene The assessment result of cost and the assessment result of the sewage disposal site environment determine control instruction, and the control instruction is led to Cross each field apparatus that the Internet of Things cloud platform is issued to sewage disposal scene.

A kind of 7. water utilities intelligent monitor system based on Internet of Things, it is characterised in that including：

Internet of Things adapter, for gathering the field data related to sewage disposal, and the field data is transmitted to Internet of Things Net cloud platform；

Internet of Things cloud platform, standardization processing is carried out for receiving the field data, and to the field data；

Monitoring server, for the field data after obtaining standardization processing from the Internet of Things cloud platform, and to described Field data carries out big data analysis and processing.

8. the water utilities intelligent monitor system based on Internet of Things as described in claim 7, it is characterised in that the monitoring service Device is additionally operable to issue control instruction to the Internet of Things adapter by the Internet of Things cloud platform；The Internet of Things adapter is also For parsing the control instruction, the control instruction is sent to by corresponding field controller according to the result of parsing, so that The field controller performs operation corresponding with the control instruction.

9. the water utilities intelligent monitor system based on Internet of Things as described in claim 7, it is characterised in that the Internet of Things is fitted Orchestration includes：

First data acquisition module, the field data that the sensor interface for directly docking collection Sewage Disposal obtains, and The form of the field data is converted into the data format for meeting the Internet of Things cloud platform specification；

Second data acquisition module, the I/O module interfaces collection sensor for the controller by docking Sewage Disposal obtain The field data taken, and the form of the field data is converted into the data format for meeting the Internet of Things cloud platform specification.

10. the water utilities intelligent monitor system based on Internet of Things as any one of claim 7 to 9, it is characterised in that institute Stating Internet of Things cloud platform includes：

Data categorization module, for being classified according to default rule to the field data；

Corresponding relation building module, for establishing the logic corresponding relation between all kinds of field datas；

Data preparation memory module, for the field data to be arranged and stored according to the logic corresponding relation.