CN207304620U - Industrial equipment revertive control system based on Internet of Things - Google Patents

Abstract

The utility model is suitable for internet of things field, there is provided a kind of industrial equipment revertive control system based on Internet of Things, including：N number of Internet of Things application service system, cloud platform and K adapter；N number of Internet of Things application service system is connected with the cloud platform respectively；The K adapters are connected with the cloud platform respectively；K I/O modules of the adapter respectively with multiple industrial equipments to be controlled are connected；The Internet of Things application service system sends control instruction to cloud platform；The cloud platform receives the control instruction, and the control instruction is sent to the data collection station docked with the industrial equipment to be controlled；The data collection station receives the control instruction, and the control instruction is sent to the industrial equipment to be controlled；The N and K are positive integer.The utility model can realize the Reverse Turning Control to industrial equipment.

Description

Industrial equipment revertive control system based on Internet of Things

Technical field

The utility model belongs to internet of things field, more particularly to a kind of industrial equipment Reverse Turning Control based on Internet of Things System.

Background technology

With the fast development of technology of Internet of things, technology of Internet of things is gradually spread in industrial equipment.For example, boiler Internet of Things, compressor Internet of Things etc..In the prior art, industrial Internet of Things typically by collection industrial equipment data message, These data messages are uploaded into Cloud Server, then carry out Internet of Things upper layer application, carry out the monitoring and management of industrial equipment. During realizing the present invention, inventor has found, effectively and safely long-range in can not achieve in the prior art for industrial Internet of Things The function of reverse operating industrial equipment.

Utility model content

In view of this, the utility model embodiment provides a kind of industrial equipment revertive control system based on Internet of Things, The technology of Reverse Turning Control industrial equipment is unable to solve the industrial equipment revertive control system based on Internet of Things in the prior art to ask Topic.

The utility model embodiment provides a kind of industrial equipment revertive control system based on Internet of Things, including：N number of Internet of Things Net application service system, cloud platform and K data collection station；N number of Internet of Things application service system respectively with the cloud Platform is connected；The K data collection stations are connected with the cloud platform respectively；K data collection stations respectively with it is more The I/O modules of a industrial equipment to be controlled are connected；

The Internet of Things application service system sends control instruction to cloud platform；

The cloud platform receives the control instruction, and by the control instruction send to the industrial equipment to be controlled The data collection station of docking；

The data collection station receives the control instruction, and the control instruction is sent to the industry to be controlled Equipment；

The N and K are positive integer.

Optionally, the Internet of Things application service system includes the instruction key-press module for sending control instruction.

Optionally, the system also includes：It is described by N number of Internet of Things application service system, the cloud platform and K The time synchronization module of data collection station time synchronization, the time synchronization module take with N number of Internet of Things application respectively Business system, the cloud platform are connected with the K data collection stations by ntp network time protocol, make the Internet of Things should Keep synchronous with the time of service system, the cloud platform and the data collection station.

Optionally, the data collection station further includes the key switch for controlling the data collection station state.

Optionally, the data collection station includes programmable module, and the programmable module is used to receive user setting The data collection station data capture logic and data acquisition protocol.

Optionally, the data collection station includes data transmit-receive module, data communication interface and processor module；It is described Data transmit-receive module is connected with the data communication interface and the processor module respectively；The data communication interface with it is described Industrial equipment to be controlled is connected.

Further, the system also includes detection module, the detection module respectively with the industrial equipment and described Data communication interface connects.

Further, the data collection station further includes locating module, the locating module and the processor module Connection.

Further, the data collection station further includes networking module, the networking module and the processor module Connection.

Optionally, the data collection station further includes the debugging interface for debugging the data collection station.

Existing beneficial effect is the utility model embodiment compared with prior art：The utility model embodiment passes through thing Working application service system sends control instruction to cloud platform, cloud platform by control instruction send to industrial equipment to be controlled Corresponding data collection station, final data acquisition terminal send control instruction to industrial equipment to be controlled.So as to fulfill right The Reverse Turning Control of industrial equipment to be controlled.

Brief description of the drawings

, below will be to embodiment or the prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing is briefly described needed in description, it should be apparent that, drawings in the following description are only that this practicality is new Some embodiments of type, for those of ordinary skill in the art, without having to pay creative labor, can be with Other attached drawings are obtained according to these attached drawings.

Fig. 1 is the structure diagram of the industrial equipment revertive control system provided in this embodiment based on Internet of Things；

Fig. 2 is the data flow signaling diagram of the industrial equipment Reverse Turning Control method provided in this embodiment based on Internet of Things.

Embodiment

In being described 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, to understand thoroughly the utility model embodiment.However, it will be clear to one skilled in the art that there is no these The utility model can also be realized in the other embodiments of detail.In other situations, omit to well-known system, The detailed description of device, circuit and method, in case unnecessary details hinders the description of the utility model.

In order to illustrate technical solution described in the utility model, illustrated below by specific embodiment.

In the utility model embodiment, the Internet of Things application service system, includes but not limited to smart mobile phone, tablet Computer, PC ends, large-size screen monitors end and the B/S Framework Softwares logged in by browser, can be with by the Internet of Things application service system All docking industrial equipment real-time running datas are checked in realization, carry out equipment management, workform management, life cycle management, alarm Information, historical data, rights management etc..

The industrial equipment, is boiler, compressor, air compressor machine, generating set, fire-fighting security device, industrial burner, change Frequency device, new-energy automobile, PLC, elevator, chemical mechanical equipment, heating and ventilating equipment, sewage disposal device etc..

The cloud platform, is industrial data basis cloud platform, can realize preserve data collection station send report data, Safeguard a series of incidence relation, Early-warning Model, threshold value control, boundary condition setting etc. logic rules and energy will be upper The data of report are arranged, are organized, are associated, counted, analyzed；The cloud platform can also be according to logic rules input by user, shape Into a series of bar trigger mechanism, corresponding function is realized.

Please refer to Fig.1, Fig. 1 is the industrial equipment revertive control system structure provided in this embodiment based on industrial Internet of Things Block diagram, the system include：N number of Internet of Things application service system 101, cloud platform 102 and K data collection station 103.N number of institute Internet of Things application service system 101 is stated respectively with the cloud platform to be connected；K data collection stations 103 respectively with it is described Cloud platform 102 is connected；The K data collection stations 103 are connected with multiple industrial equipments to be controlled respectively；The N and K are Positive integer.

Specifically, I/O module of the data collection station respectively with multiple industrial equipments to be controlled is connected, for example, Data collection station passes through the I/O moulds with the measuring instrument and meter in industrial equipment to be controlled, sensor, controller or switch board Block is connected, to obtain device data.The I/O modules can be RS485 bus I/O modules, RS232 bus I/O modules, CAN bus I/O modules, Ethernet bus I/O modules etc..

The Reverse Turning Control method for realizing industrial equipment to be controlled is：The Internet of Things application service system 101 is used to send Control instruction is to cloud platform 102；The cloud platform 102 is used to receive the control instruction, and by the control instruction send to The data collection station 103 docked with the industrial equipment to be controlled；The data collection station 103 is used to receive the control Instruction, and the control instruction is sent to the industrial equipment 104 to be controlled, so as to fulfill to industrial equipment 104 to be controlled Reverse Turning Control.

After Internet of Things application service system 101 sends control instruction to cloud platform 102, the first feedback information of return, first Feedback message is used to characterize whether the Internet of Things application service system transmission control instruction succeeds to the cloud platform, first time Feedback message include but not limited to instruct sends successfully, instruction transmission fail and network timeout.

Control instruction includes the data collection station identification information, and cloud platform 102 receives Internet of Things application service system After the control instructions that system 101 is sent, according to the identification information of data collection station in control instruction, control instruction is sent to pair The data collection station 103 answered, avoids control instruction from sending mistake, meanwhile, cloud platform 102 returns to the second feedback message to Internet of Things Net application service system 101.Second feedback message include but not limited to instruct sends successfully, instruction transmission fail and network surpass When.

Control instruction includes the industrial equipment identification information to be controlled, and industrial equipment identification information to be controlled is to be controlled Industrial equipment identifies ID, and control instruction is corresponding with industrial equipment to be controlled mark ID, and an industrial equipment 104 to be controlled corresponds to more A control instruction, and industrial equipment to be controlled mark ID can be stored by different data store organisations, such as order Storage organization, Linked Storage Structure, the form such as queue of the tables of data of different structure or different structure are stored in Internet of Things application In the database of service system 101 or cloud platform 102.Industrial equipment mark ID to be controlled is unique.Industrial equipment mark to be controlled ID is that device address, device name and the equipment reported by Internet of Things application service system 101 according to data collection station 103 is used What the information such as way were defined and distributed, each type industrial equipment mark ID to be controlled has respective classification, and for every A industrial equipment has its unique identification code again.

After data collection station 103 receives the control instruction that cloud platform 102 is sent, according to industry to be controlled in control instruction Control instruction, is sent to the to be controlled industrial equipment corresponding with industrial equipment identification information to be controlled, kept away by equipment identification information Exempt from control instruction and send mistake, meanwhile, data collection station 103 returns to the 3rd feedback message to cloud platform 102, Internet of Things application Service system 101 can obtain the 3rd feedback message from cloud platform 102.3rd feedback message include but not limited to instruct send into Work(, instruction send failure and network timeout.

In the present embodiment, Internet of Things application service system 101 has unified programming interface, using unified long-range control System, remote management interface and secondary development function.Varied in hardware device configuration, different application fields is widely different In the case of, the system remains to provide unified programming interface and programmed environment, so as to substantially reduce Internet of Things application and development Cost and time.Internet of Things application service system 101 is a business development platform, possesses abundant complete Internet of Things basis work( Energy component and Application development environ-ment, can substantially reduce development time and the development cost of Internet of Things application.Internet of Things application service System 101 also has consistent data storage and data access mode, improves data sharing abilities, the number between different industries Possibility is provided according to shared.Internet of Things application service system 101 uses unified remote control and remote management interface, even if row Industry application is different, Internet of Things can be also managed collectively using identical management software, greatly promote managing for Internet of Things Property and maintainability, it might even be possible to accomplish the unified management and maintenance of whole Internet of Things.Internet of Things application service system 101 also has Standby data storage, equipment resource management, monitoring of tools, life cycle management, accessory management, equipment location information management, contract The functions such as management, data statistics.

User enters Internet of Things application service system 101 by terminal device logs, and terminal device includes but not limited to move Dynamic intelligent terminal such as smart mobile phone, tablet computer, or PC ends, large-size screen monitors end, desktop computer, laptop etc..Terminal device Locally-installed client software by C/S frameworks or the web application by B/S frameworks, logging into Internet of Things should With service system 101.Internet of Things application service system 101 includes multiple application modules, such as equipment resource management, Supervision Control, data statistic analysis, data storage, life cycle management, accessory management, equipment location information management, contract management, client Relation management, enterprise information management, enterprise performance management, Production Lifecycle Management etc., in display interface by using these Application module realizes related internet of things functional.

Cloud platform 102 provide data collection station is authenticated, receive data collection station transmission uplink message and Data or instruction (downlink message) are sent to data collection station.Cloud platform 102 also realize by uplink message data (or pass through Data after processing) stored；And original uplink message data (or data after treatment) are swapped, are divided Issue the Internet of Things application service system 101 of needs.

Data collection station 103 itself does not produce data, it by with the control mould such as the controller on industrial equipment, PLC Block docks, and obtains the data in control module and classifies, and such as splits data into state, event, alarm classification.It Can directly external sensor, shooting it is first-class, for gathering the data on industrial equipment periphery, such as temperature, humidity, image letter Breath.After data collection station 103 gets these data, by processing and sorting, format, become to meet cloud platform 102 and receive Specification data mode, and issue cloud platform 102.Meanwhile data collection station can also receive the instruction number of cloud platform 102 According to after receiving these data, data collection station can do corresponding parsing, and being set as a result, being sent to industry according to parsing It is standby.

Data collection station 103 can be docked with any industrial equipment, industrial equipment for example boiler, compressor set, generator, Wind turbines, sewage disposal device, fire-fighting equipment, monitoring device, detecting instrument instrument, any fortune used on factory lines Row equipment etc..Data collection station 103 can realize that the received data message of docking is combed, classified, and tables of data into Row is perfect.And data collection station 103 includes programmable module, user can redefine data acquisition by LUA scripts The data capture logic and data acquisition protocol of terminal.One cloud platform 102 can be with multiple Internet of Things application service systems 101 are connected, and a cloud platform 102 can be connected with multiple data collection stations 103, each data collection station 103 and can be with It is connected 104 with multiple industrial equipments.

Optionally, the Internet of Things application service system 101 includes the instruction button for sending control instruction.Pressed by instruction Key module sends control instruction, can send control instruction by triggering the specific combination button of keyboard.Control instruction include but It is not limited to shutdown command, lock machine instruction, timing shutdown instruction, timing start-up instruction, parameter regulation finger joint, alarm command, parameter Timing detection instruction, state timing detection instruction.

Please refer to Fig.2, Fig. 2 is the signaling of industrial equipment Reverse Turning Control of the realization based on Internet of Things provided in this embodiment Figure, as shown in the figure, Internet of Things application service system further includes logic control and subscription services module and display module, logic control It is connected respectively with display module and instruction key-press module with subscription services module.By instructing key-press module to trigger the logic control System sends control instruction to cloud platform with subscription services module, returns to the first feedback message, and show first time in display module Present message, the first feedback message be used to characterizing the Internet of Things application service system send control instruction to the cloud platform whether Success, including but not limited to instruction sends successfully, instruction transmission fail and network timeout.After cloud platform receives control instruction, root According to the identification information of the data collection station in control instruction, control instruction is sent to the identification information with data collection station Corresponding data collection station, and the second feedback message is returned to Internet of Things application service system, shown in display module, its In, the second feedback message is used to characterize the cloud platform and send the control instruction to the industrial equipment to be controlled to dock Data collection station whether succeed, including but not limited to instruction sends successfully, instruction transmission unsuccessfully and network timeout.Data are adopted After collection terminal receives control instruction, the identification information of the industrial equipment to be controlled in control instruction, control instruction is sent out The to be controlled industrial equipment corresponding with the identification information of industrial equipment to be controlled is sent to, industrial equipment to be controlled performs control and refers to Order, and the 3rd feedback message of return to cloud platform, Internet of Things application service system can obtain the 3rd feedback message from cloud platform And shown in display module, wherein, the 3rd feedback message sends the control instruction for characterizing the data collection station Whether succeed to the industrial equipment to be controlled, including but not limited to instruction sends successfully, instruction transmission unsuccessfully and network timeout. So far, the Reverse Turning Control to industrial equipment to be controlled is realized.The utility model can utilize returning for Reverse Turning Control with this solution Whether feedback message overall understanding control instruction performs and failure cause.

Optionally, the system also includes：By N number of the Internet of Things application service system 101, the cloud platform 102 and K The time synchronization module of a 103 time synchronization of the data collection station, the time synchronization module respectively with N number of Internet of Things Net application service system 101, the cloud platform 102 and K a data collection station 103 are connected by ntp network time protocol Connect, the time of the Internet of Things application service system, the cloud platform and the data collection station is kept synchronous.

In the present embodiment, by Network Time Protocol (Network Time Protocol, NTP) by Internet of Things application 103 time synchronization of service system 101, cloud platform 102 and data collection station.Specifically, the industrial equipment based on Internet of Things is anti- Include time synchronization module to control system, the time synchronization module respectively with Internet of Things application service system 101, cloud platform 102 are connected with data collection station 103, and the time synchronization module is by Internet of Things application service system 101,102 and of cloud platform The time synchronization of data collection station 103, i.e., by Internet of Things application service system 101, cloud platform 102 and data collection station 103 time is arranged to the same time in same time zone.Time synchronization module is specially NTP intermediate servers (NTP Relay Server), NTP intermediate servers with the ntp server (NTP Server) with the standard time by communicating to obtain standard Time, NTP Relay Server are after NTP Server synchronization time, then make Internet of Things application service system 101, cloud platform 102 and 103 time synchronization of data collection station.Specifically, the Internet of Things application service system 101, cloud platform 102 and data Acquisition terminal 103 can according to demand, by Network Time Protocol (Network Time Protocol, NTP) respectively with it is described NTP intermediate servers communication, so that the respective time it is synchronous with the time holding in NTP intermediate servers.The Internet of Things should Time synchronization can be carried out every prefixed time interval with service system 101, cloud platform 102 and data collection station 103, or In device power-up by 103 time synchronization of Internet of Things application service system 101, cloud platform 102 and data collection station.

As a kind of possible implementation of the present embodiment, the control instruction includes the instruction term of validity.The data are adopted Collection terminal 103 receives the control instruction, and the data collection station 103 detects that current time is located at the described instruction term of validity In period, the data collection station 103 sends the control instruction to the industrial equipment 104 to be controlled.

In the present embodiment, the term of validity of instruction instructs the effective period, for example, the instruction term of validity is 12:00 to 18：00, i.e., 12:00 to 18：In 00 this period, control instruction is effective instruction.Data collection station 103 receives control After system instruction, whether detection current time is within the period of the instruction term of validity, if data collection station 103 detects currently Control instruction in the instruction term of validity, is then sent to industrial equipment 104 to be controlled, and return instruction is sent successfully by the time Information is to cloud platform 101, if data collection station 103 detects that current time in the instruction term of validity, does not send control To industrial equipment 104 to be controlled, information to cloud platform 101, the instruction for returning to message transmission failure sends the letter of failure for system instruction Breath includes the reason for instruction sends failure, i.e., control instruction is expired.

The implementation alternatively possible as the present embodiment, the control instruction include time for each instruction；The number The control instruction is received according to acquisition terminal 103, and the control instruction is sent to the industrial equipment 104 to be controlled, tool Body includes：The data collection station 103 receives the control instruction, and the data collection station 103 detects current time Performed positioned at described instruction before time or described instruction perform the time, the data collection station 103 is by the control instruction Send to the industrial equipment 104 to be controlled.

In the present embodiment, time for each instruction, that is, industrial equipment to be controlled performs the time of control instruction, such as instructs It is 14 to perform the time:00, i.e., industrial equipment 104 to be controlled is 14:00 performs control instruction.Data collection station 103 receives After control instruction, whether detection current time is before instruction time or time for each instruction, if detecting current time Before instruction time or time for each instruction, then control instruction is sent to industrial equipment 104 to be controlled, and return and refer to Order sends successful information to cloud platform 101, industrial equipment 104 to be controlled and is held after receiving control instruction in time for each instruction Row control instruction.If data collection station 103 detects that current time was located at after time for each instruction, control is not sent and is referred to Order returns to message and sends the information to fail to cloud platform 101, instruct the packet for sending failure to industrial equipment 104 to be controlled The reason for instruction sends failure is included, i.e. it is expired to perform the time for control instruction.

Based on above-described embodiment, by setting the validity of control instruction time, and control instruction is allowed in special time Perform, realize the Reverse Turning Control of the industrial equipment based on time dimension.

Optionally, the data collection station 103, which further includes, controls the button of 103 state of data collection station to open Close.103 state of data collection station includes open state and off-mode, and opening for data collection station is controlled by key switch Open and close.When 104 maintenance, repair of industrial equipment to be controlled, data collection station 103 can be turned off manually, keep away Exempt from data collection station 103 causes production accident to industrial equipment 104 to be controlled transmission control instruction.

The programmable module is used for the data capture logic and data for receiving the data collection station of user setting Acquisition protocols.

Optionally, the data collection station 103 includes data transmit-receive module, data communication interface and processor module. The data transmit-receive module is connected with the data communication interface and the processor module respectively；The data communication interface with The industrial equipment to be controlled is connected.

In the present embodiment, data transmit-receive module includes but not limited to TJA1040 chips, MAX485 chips and MAX232 cores Piece, data communication interface include but not limited to CAN interface, RS485 interfaces or RS232 interface, processor module include but It is not limited to STM32 405 or STM32 407.Data transmit-receive module connects data communication interface and processor module respectively.Data Acquisition terminal 103 is connected by data communication interface with industrial equipment 104 to be controlled, realizes data collection station 103 and to be controlled The data interaction of industrial equipment 104 processed.Processor module is used to access cloud platform by multiple network communication modes, realizes data Data interaction between acquisition terminal 103 and cloud platform 102.

The data transmit-receive module of data collection station 103 receives the control instruction that cloud platform 102 is sent, data transmit-receive module Control instruction is parsed, obtains analysis result, analysis result is sent to industry to be controlled by data communication interface and is set Standby 104, so as to fulfill the Reverse Turning Control to industrial equipment 104 to be controlled.

Industrial equipment revertive control system based on industrial Internet of Things can also be by the facility information of industrial equipment to be controlled Send to Internet of Things application service system, realize the real-time monitoring to industrial equipment 104 to be controlled, specific implementation is：Number The facility information of the industrial equipment to be controlled 104 is obtained according to acquisition terminal 103；The data collection station 103 is set described Standby information is sent to the cloud platform 102；The Internet of Things application service system obtains the equipment letter from the cloud platform 102 Breath.

Further, the system also includes detection module, the detection module respectively with the industrial equipment and described Data communication interface connects.

In the present embodiment, data communication interface is connected with detection module, and detection module is used to detect the work to be controlled The facility information of industry equipment, detection module include but not limited to device controller, device control module, sensor, camera, PLC, facility information include but not limited to the data messages such as the temperature of equipment, humidity, image, pressure.Processor module is to data The information gathering of transceiver module sending device instructs, and data transmit-receive module receiving device information gathering instruction, data communication interface leads to The facility information that detection module obtains industrial equipment to be controlled is crossed, and facility information is sent to data transmit-receive module, data and is received Hair module pre-processes facility information, facility information is converted into the acceptable authority data of cloud platform, and equipment is believed Breath is classified, and facility information is sent to processor according to classification, processor again by facility information according to classification send to Cloud platform 102, Internet of Things application service system 101 include logic control and subscription services module and display module, logic control Facility information is obtained from cloud platform 102 with subscription services module, and is shown in the display module of Internet of Things application service system 101 Show, above is Internet of Things application service system 101 obtains the mode of facility information.

In the present embodiment, Internet of Things application service system 101 sends control instruction to cloud platform according to facility information 102.Logic control receives the logic control rule of user setting and instruction rule, logic control rule with subscription services module Refer to the rule being controlled to industrial equipment to be controlled, instruction rule refers to the control instruction issued, includes but not limited to：Close Machine, make a phone call, send out mail, send short messages.For example, certain compressor producer needs to be controlled certain a compressor, at three Or more in the case of compressor and machine, continuous 30 points when when parameter alpha=pressure (MPa)/temperature (° K) if in summer It is necessary to send halt instruction to compressor when clock exceedes threshold value, and warning mail is sent to specified mailbox, then, this control Logic processed can write one section of LUA code, entrust to the logic control to go to run with subscription services module, once there is this Situation, the logic control will send halt instruction with subscription services module from trend compressor.The logic control and foot This service module realizes logic control service, is not only the logical services of a single-point, it or a global logical services.

Optionally, the data collection station 103 further includes locating module, the locating module and the processor module Connection.Locating module includes GPS chip and gps antenna, and gps antenna is connected with GPS chip and processor module respectively.Positioning mould Block obtains the positional information of industrial equipment 104 to be controlled, and the positional information is sent to cloud platform 102, Internet of Things application Service system 101 obtains the positional information from the cloud platform 102, and by the positional information in Internet of Things application service system The display module of system is shown, so as to realize the position positioning to industrial equipment 104 to be controlled.

Further, the data collection station 103 further includes networking module, the networking module and the processor die Block connects.Networking module includes but not limited to ethernet module, WIFI module, gsm module, and networking module connects with processor module Connect, realize the connection between data collection station 103 and cloud platform 102.

Further, the data collection station also 103 includes call module, the call module and the processor die Block connects.Call module includes microphone and loudspeaker, and processor module is connected with microphone and loudspeaker, makes data acquisition whole Realize call function in end 103.

Optionally, the data collection station 103 further includes the debugging interface for debugging the data collection station.Institute State debugging interface and include but not limited to jtag interface, UART interface and USB interface.Debugging interface is used for tester, is used for Carry out the application of function such as equipment installation, debugging, download program, extension or the firmware renewal of data collection station 103.

Optionally, the data collection station further includes SIM card slot.Sim card slot may be inserted into SIM card, pass through SIM card Data collection station 103 is set to realize the identification of user identity.

Optionally, the data collection station 103 further includes power supply module, for powering to data collection station 103, supplies Electric module includes power outlet and power module, and power module can be DCDC power modules.

Those of ordinary skill in the art may realize that each exemplary mould described with reference to the embodiments described herein Block and algorithm steps, 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 solution.Professional technician 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 utility model.

In embodiment provided by the utility model, it should be understood that disclosed device/Internet of Things application service system System and method, can realize by another way.For example, device described above/Internet of Things application service system is implemented Example is only schematical, for example, the division of the module or module, is only a kind of division of logic function, when actually realizing There can be other dividing mode, such as multiple module or components can combine or be desirably integrated into another system, or one A little features can be ignored, or not perform.Another, shown or discussed mutual coupling or direct-coupling or communication connect It can be by some interfaces, the INDIRECT COUPLING or communication connection of device or module to connect, and can be electrical, machinery or other shapes Formula.

The module illustrated as separating component may or may not be physically separate, be shown as module The component shown may or may not be physical module, you can with positioned at a place, or can also be distributed to multiple On mixed-media network modules mixed-media.Some or all of module therein can be selected to realize the mesh of this embodiment scheme according to the actual needs 's.

In addition, each function module in each embodiment of the utility model can be integrated in a processing module, Can be that modules are individually physically present, can also two or more modules be integrated in a module.It is above-mentioned integrated Module can both be realized in the form of hardware, can also be realized in the form of software function module.

If the integrated module/module realized in the form of software function module and as independent production marketing or In use, it can be stored in a computer read/write memory medium.Based on such understanding, the utility model is realized above-mentioned All or part of flow in embodiment method, can also instruct relevant hardware to complete by computer program, described Computer program can be stored in a computer-readable recording medium, which, can be real when being executed by processor The step of existing above-mentioned each 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 can Reading medium can include：Any entity or device of the computer program code, recording medium, USB flash disk, mobile hard can be carried 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..Need what is illustrated It is that the content that the computer-readable medium includes can be fitted according to legislation in jurisdiction and the requirement of patent practice When increase and decrease, such as in some jurisdictions, according to legislation and patent practice, computer-readable medium, which does not include electric carrier wave, to be believed Number and telecommunication signal.

Embodiment described above is only to illustrate the technical solution of the utility model, rather than its limitations；Although with reference to before Embodiment is stated the utility model is described in detail, it will be understood by those of ordinary skill in the art that：It still can be with Modify to the technical solution described in foregoing embodiments, or equivalent substitution is carried out to which part technical characteristic；And These modifications are replaced, and the essence of appropriate technical solution is departed from the spirit of various embodiments of the utility model technical solution And scope, it should be included within the scope of protection of this utility model.

Claims (10)

1. A kind of 1. industrial equipment revertive control system based on Internet of Things, it is characterised in that including：

   N number of Internet of Things application service system, cloud platform and K data collection station；N number of Internet of Things application service system point It is not connected with the cloud platform；The K data collection stations are connected with the cloud platform respectively；The K data acquisitions are whole The I/O modules respectively with multiple industrial equipments to be controlled are held to be connected；

   The Internet of Things application service system sends control instruction to cloud platform；

   The cloud platform receives the control instruction, and the control instruction is sent to the industrial equipment to be controlled and is docked Data collection station；

   The data collection station receives the control instruction, and the control instruction is sent to the industry to be controlled and is set It is standby；

   The N and K are positive integer.
2. 2. the industrial equipment revertive control system based on Internet of Things as claimed in claim 1, it is characterised in that the Internet of Things Application service system includes the instruction key-press module for sending control instruction.
3. 3. the industrial equipment revertive control system based on Internet of Things as claimed in claim 1, it is characterised in that the system is also Including：By N number of Internet of Things application service system, the cloud platform and K data collection station time synchronizations when Between synchronization module, the time synchronization module respectively with N number of Internet of Things application service system, the cloud platform and K institute State data collection station to connect by ntp network time protocol, make the Internet of Things application service system, the cloud platform and institute The time for stating data collection station keeps synchronous.
4. 4. the industrial equipment revertive control system based on Internet of Things as claimed in claim 1, it is characterised in that the data are adopted Collection terminal further includes the key switch for controlling the data collection station state, and the data collection station state includes start shape State and off-mode.
5. 5. the industrial equipment revertive control system based on Internet of Things as claimed in claim 1, it is characterised in that the data are adopted Collection terminal includes programmable module, and the data for the data collection station that the programmable module is used to receive user setting are adopted Logic of sets and data acquisition protocol.
6. 6. the industrial equipment revertive control system based on Internet of Things as claimed in claim 1, it is characterised in that the data are adopted Collection terminal includes data transmit-receive module, data communication interface and processor module；The data transmit-receive module respectively with the number It is connected according to communication interface with the processor module；The data communication interface is connected with the industrial equipment to be controlled.
7. 7. the industrial equipment revertive control system based on Internet of Things as claimed in claim 6, it is characterised in that the system is also Including detection module, the detection module is connected with the industrial equipment and the data communication interface respectively.
8. 8. the industrial equipment revertive control system based on Internet of Things as claimed in claim 6, it is characterised in that the data are adopted Collection terminal further includes locating module, and the locating module is connected with the processor module.
9. 9. the industrial equipment revertive control system based on Internet of Things as claimed in claim 6, it is characterised in that the data are adopted Collection terminal further includes networking module, and the networking module is connected with the processor module.
10. 10. such as industrial equipment revertive control system of claim 1 to 9 any one of them based on Internet of Things, it is characterised in that The data collection station further includes the debugging interface for debugging the data collection station.