CN115204739A - Non-current control production line information management method and system based on industrial Internet of things - Google Patents

Abstract

The invention discloses a non-current management and control production line information management method and system based on an industrial Internet of things, wherein the method comprises the following steps: a user platform generates a production line investigation instruction; the service platform receives a production line investigation instruction and generates a procedure investigation instruction; the management platform receives the procedure investigation instruction and sends the procedure investigation instruction to the sensing network platform, and the information of the non-current control production line is screened out according to the procedure investigation instruction; the sensing network platform sends each procedure research instruction to the corresponding object platform; the object platform receives the procedure investigation instruction, screens out information of a non-current control production line according to the procedure investigation instruction, and transfers the screened information to the service platform; and the service platform receives information of the non-current control production line, compresses data and stores the compressed data. The method is realized based on the system. When the method is applied, information which does not belong to the current control production line can be independently managed, and the system operation efficiency and precision can be improved.

Description

Non-current management and control production line information management method and system based on industrial Internet of things

Technical Field

The invention relates to an intelligent manufacturing technology, in particular to a non-current management and control production line information management method and system based on an industrial Internet of things.

Background

At present, intelligent manufacturing becomes a trend of global advanced manufacturing development, the intelligent manufacturing is gradually fused with the technology of the industrial Internet of things, and data acquisition and control, data analysis and processing are carried out based on the industrial Internet of things. The industrial Internet of things system is used as a foundation and a bridge for intelligent manufacturing, and the high-quality and efficient operation of the industrial Internet of things system is an effective guarantee for production and manufacturing. However, as the current industrial internet of things system suitable for intelligent manufacturing is influenced by factors such as increase of operation time, adjustment of application production lines, adjustment of manufactured products and the like, a large amount of information which does not belong to the current management and control production line is accumulated in the system in the data processing process, and the information is not managed in a standard way, so that the operation efficiency and the accuracy of the system are greatly influenced.

Disclosure of Invention

The invention aims to solve the problem that the operation efficiency and the accuracy are influenced by the fact that a large amount of information which does not belong to the current control production line is not managed in a standard mode in the existing industrial Internet of things system suitable for intelligent manufacturing, and provides an information management method of the non-current control production line based on the industrial Internet of things. The invention also discloses a system for realizing the non-current management and control production line information management method based on the industrial Internet of things.

The purpose of the invention is mainly realized by the following technical scheme:

the information management method of the non-current management and control production line based on the industrial Internet of things is realized based on a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted; the method comprises the following steps:

s1, generating a production line investigation instruction by a user platform according to production line investigation information input by a user and sending the production line investigation instruction to a service platform;

s2, the service platform receives the production line investigation instruction, generates process investigation instructions with the same number as the production line processes based on the production line investigation instruction and the production line processes, stores the process investigation instructions and sends the process investigation instructions to the management platform;

s3, the management platform receives and stores the procedure investigation instruction and sends the procedure investigation instruction to the sensing network platform, and the step S4 is switched to; the management platform screens out control information, object platform parameter configuration information and object platform perception information corresponding to the management platform but not the current control production line according to the procedure research instruction, and transfers the control information, the object platform parameter configuration information and the object platform perception information to the service platform, and then the step S6 is carried out;

s4, the sensing network platform receives and processes the procedure investigation instruction, and sends each processed procedure investigation instruction to the corresponding object platform;

s5, the object platform receives the procedure investigation instruction, screens out control information, object platform parameter configuration information and object platform sensing information corresponding to the object platform of the non-current control production line according to the procedure investigation instruction, and transfers the screened information to the service platform after sequentially passing through the sensing network platform and the management platform;

and S6, the service platform receives control information, object platform parameter configuration information and object platform sensing information corresponding to the management platform and the object platform of the non-current management and control production line, and stores the compressed data.

Furthermore, the service platform adopts centralized arrangement, and the centralized arrangement refers to that the platform uniformly receives data, uniformly processes the data and uniformly sends the data; the management platform is arranged in a rear sub-platform mode, the rear sub-platform mode means that the management platform is provided with a main platform and a plurality of sub-platforms, control information and object platform parameter configuration information are transmitted from the sub-platforms to the main platform, and sensing information is transmitted from the main platform to the sub-platforms; the sensing network platform adopts independent arrangement, wherein the independent arrangement means that the sensing network platform is provided with a plurality of sub-platforms, and each sub-platform corresponds to one object platform to perform data storage, data processing and/or data transmission;

each process investigation instruction is transmitted to the main platform by the sub-platform of the management platform when being transmitted by the management platform, the sub-platform of the management platform for transmitting the process investigation instruction only correspondingly transmits one process investigation instruction, and the management platform screens out control information, object platform parameter configuration information and object platform perception information which are not corresponding to the management platform of the current control production line according to the process investigation instruction and carries out on the sub-platform; each procedure investigation instruction is directly transmitted by a sub-platform of the sensing network platform when the sensing network platform transmits the procedure investigation instruction, and the sub-platform of the sensing network platform transmitting the procedure investigation instruction only correspondingly transmits one procedure investigation instruction.

Furthermore, each sub-platform of the management platform stores data related to each product produced by the current management and control production line from production to production ending in a centralized manner in the sub-platform; and each object platform stores the data related to each product which is produced by the current control production line from production to production ending in a centralized manner.

Furthermore, when there are multiple non-current control production lines, each non-current control production line has the same number of process investigation instructions as the number of the processes of the non-current control production line.

Further, before the service platform performs data compression and storage in step S6, the received information of the management platform and the object platform is divided according to the data related to production line commissioning to production ending corresponding to each type of product, so that the data related to the same type of product and the same production line are located in the same information management data group, wherein the name of each information management data group is named by the corresponding product style and the corresponding production line serial number.

Further, the step S6 further includes deleting the repeated control information, the repeated object platform parameter configuration information, and the repeated object platform sensing information in each information management data group, and deleting data not classified into the information management data group.

Further, before the service platform stores data in step S6, the service platform also feeds back the name of each group of information management data groups to be stored to the user platform, the user platform generates a storage canceling instruction according to storage canceling information input by the user, or generates a storage confirming instruction according to storage confirming information input by the user, and sends the storage confirming instruction to the service platform, and the service platform receives the storage canceling instruction, cancels storage, and deletes the information management data group, or receives the storage confirming instruction, and stores the compressed information management data group.

Further, after receiving the storage confirmation instruction, the service platform compares the name of the information management data group which is confirmed by the user to be stored with the name of the information management data group stored by the service platform, and directly stores the information management data group which is confirmed by the user if the same information management data group name does not exist; if the same information management data group name exists, information with the same information management data group name is generated and fed back to a user platform, the user platform generates a cancel storage instruction according to cancel storage information input by a user, generates a cover storage instruction according to cover storage information input by the user, or generates a confirmation common storage instruction according to confirmation common storage information input by the user and sends the confirmation common storage instruction to a service platform, and the service platform receives the cancel storage instruction, cancels storage and deletes the information management data group, receives the cover storage instruction, stores the information management data group and deletes the original same-name information management data group, or receives the confirmation common storage instruction, adds a number to the information management data group, and stores the compressed information management data group.

Further, the non-current management and control production line information management method based on the industrial Internet of things further comprises a data comparison and calling step when a new production line is configured, wherein the data comparison and calling step comprises the following steps:

the user platform generates a production line comparison instruction according to production line comparison information input by a user and sends the production line comparison instruction to the service platform; the service platform receives a production line comparison instruction and compares whether the stored compressed data of the service platform has data consistent with newly configured production line products and procedures, if not, the data comparison and calling step is finished, if yes, the information of the matched data is sent to the user platform, the user platform confirms whether the inquired data is called according to user input information, and when the calling is confirmed, the service platform decompresses the inquired data and sends the decompressed data to the management platform; the management platform receives and stores the decompressed query data and sends the decompressed query data to an object platform corresponding to each procedure through the sensing network platform; and the object platform receives the decompressed query data and completes configuration.

The system for realizing the non-current management and control production line information management method based on the industrial Internet of things comprises a user platform, a centralized arrangement service platform, a post-branch platform type arrangement management platform, an independent arrangement sensing network platform and an object platform which are sequentially interacted; wherein:

the user platform is used for generating a production line investigation instruction according to the production line investigation information input by the user and sending the production line investigation instruction to the service platform;

the service platform is used for receiving the production line investigation instruction, generating process investigation instructions with the same number as the production line processes based on the production line investigation instruction and the production line processes, storing the process investigation instructions and sending the process investigation instructions to the management platform; the system comprises a management platform, an object platform, a data compression module, a data storage module, a data processing module and a data processing module, wherein the management platform and the object platform are used for receiving control information, object platform parameter configuration information and object platform sensing information corresponding to the management platform and the object platform of a non-current control production line, compressing data and storing the compressed data;

the management platform is used for receiving and storing the procedure investigation instruction and sending the procedure investigation instruction to the sensing network platform; the system comprises a management platform, a service platform, a management platform and a management platform, wherein the management platform is used for acquiring process investigation instructions;

the sensing network platform is used for receiving and processing the procedure investigation instruction and sending each processed procedure investigation instruction to the corresponding object platform;

and the object platform is used for receiving the procedure investigation instruction, screening out control information, object platform parameter configuration information and object platform sensing information which are not corresponding to the object platform of the current control production line according to the procedure investigation instruction, and transferring the screened information to the service platform after sequentially passing through the sensing network platform and the management platform.

In conclusion, compared with the prior art, the invention has the following beneficial effects: (1) When the system is applied, the system is realized based on the five platform structures of the user platform, the service platform, the management platform, the sensing network platform and the object platform, which are proposed by the applicant of the application, wherein the user platform is used for realizing man-machine interaction, the service platform is mainly used for information transfer between the user platform and the management platform and information management of a non-current control production line, and more management platforms and object platforms are mainly used for controlling the current control production line in the system control process.

(2) The service platform adopts centralized arrangement, intensively manages the information of the non-current control production line, and is convenient for information calling during subsequent production line configuration; the management platform is arranged in a post-split platform mode, each split platform of the management platform independently controls information related to different processes of a current control production line, information transmission and processing efficiency can be guaranteed, and non-current control production line information existing in each split platform of the management platform is transferred to the service platform in a post-split platform mode, so that no transition flow exists, and bidirectional transfer efficiency of the non-current control production line information during transfer between the management platform and the service platform can be improved; the sensing network platforms are arranged independently, the object platform and the sensing network platforms are arranged on the sub-platforms of different sensing network platforms when information transmission is carried out on each process, and the information transmission efficiency between the management platform and the object platform can be improved.

(3) According to the invention, through the data comparison and calling steps, the newly configured production line information can be compared with the non-current control production line information used by the system through comparing the data stored by the service platform when the production line is newly configured, and when the newly configured production line is compared with the used production line, the data calling can be directly carried out, so that the flow is simpler when the new production line is configured, and the configuration efficiency of the new production line can be further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a system architecture diagram of one embodiment of the present invention;

FIG. 2 is a flow chart of an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and the accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not used as limiting the present invention.

Example 1:

as shown in fig. 1, the non-current management and control production line information management system based on the industrial internet of things comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted; wherein: the user platform is configured as a terminal device interacting with a user, receives and processes user input information, sends the processed information to the service platform, and displays the information sent by the service platform to the user; the service platform is configured as a first server, receives and processes the information sent by the user platform, sends the information to the management platform, acquires the information required by the user from the management platform, processes the information and sends the information to the user platform; the management platform is configured as a second server, receives and stores the information sent by the service platform to control the object platform to carry out parameter configuration, generates an instruction to control the object platform to operate, and receives and stores the perception information sent by the object platform; a sensor network platform configured as a gateway and a communication network for the management platform to interact with the object platform; the system comprises an object platform, a production line device and a production line sensor, wherein the production line device is configured to execute manufacturing, the production line sensor is used for acquiring data, parameter configuration information sent by the management platform is received to realize configuration, an instruction of the management platform is received to run, and sensing information is sent to the management platform through the sensing network platform.

As shown in fig. 2, when the information management system of the non-current management and control production line based on the industrial internet of things is applied, the method includes the following steps: s1, a user platform generates a production line investigation instruction according to production line investigation information input by a user and sends the production line investigation instruction to a service platform; s2, the service platform receives the production line investigation instruction, generates process investigation instructions with the same number as the production line processes based on the production line investigation instruction and the production line processes, stores the process investigation instructions and sends the process investigation instructions to the management platform; s3, the management platform receives and stores the procedure investigation instruction and sends the procedure investigation instruction to the sensing network platform, and the step S4 is switched to; the management platform screens out control information, object platform parameter configuration information and object platform perception information corresponding to the management platform of a non-current management and control production line according to the procedure research instruction, transfers the control information, the object platform parameter configuration information and the object platform perception information to the service platform, and then transfers the step S6; s4, the sensing network platform receives and processes the procedure investigation instruction, and sends each processed procedure investigation instruction to the corresponding object platform; s5, the object platform receives the procedure investigation instruction, screens out control information, object platform parameter configuration information and object platform sensing information corresponding to the object platform of the non-current control production line according to the procedure investigation instruction, and transfers the screened information to the service platform after sequentially passing through the sensing network platform and the management platform; and S6, the service platform receives control information, object platform parameter configuration information and object platform sensing information corresponding to the management platform and the object platform of the non-current management and control production line, and stores the compressed data.

The currently managed production line in this embodiment includes a system-managed running production line and a system-managed temporarily-stopped production line, and the non-currently managed production line in this embodiment is a production line that has been managed and operated by the system but is no longer managed and controlled at present. In this embodiment, the production line investigation information input by the user is information for controlling production line investigation, the production line investigation instruction is a control instruction for acquiring information of a non-currently controlled production line, and the process investigation instruction is a control instruction for acquiring control information, parameter configuration information of an object platform, and sensing information of the object platform corresponding to each process of the non-currently controlled production line. In this embodiment, when the control information, the object platform parameter configuration information, and the object platform sensing information, which are stored in the management platform and the object platform and correspond to the non-current control production line, are transferred to the service platform, the management platform and the object platform do not store corresponding information any more after the non-current control production line information stored in the management platform and the object platform is transferred.

In the embodiment, when the step S2 is specifically implemented, when there are multiple non-current control production lines, each non-current control production line generates the same number of process investigation instructions as that of the process, that is, when there are two or more non-current control production lines related to the same process, the embodiment generates the same number of process investigation instructions as that of the process of the production line, so as to avoid information loss when information of each non-current control production line is acquired. In this embodiment, the data compressed in step S6 is control information, object platform parameter configuration information, and object platform sensing information corresponding to the management platform and the object platform of the non-current management and control production line transferred to the service platform, and the data compression method is implemented based on the prior art, and in actual application, whether encryption compression is performed can be determined according to whether confidentiality needs to be increased.

The user platform of this embodiment adopts an intelligent electronic device such as a desktop computer, a tablet computer, a notebook computer, and a mobile phone to implement data processing and data communication, which is not described herein again. The information processing procedure mentioned in this embodiment may be processed by the processors of the terminal device and the server, and the server is provided with a corresponding database for storing data, and the database may be stored in a storage device of the server, such as a memory of a hard disk. The object platform parameter configuration information comprises production line equipment operation data, manufacturing process data, sensor parameter adjustment information, and product data such as blank samples, semi-finished products, finished products and the like corresponding to each stage. The perception information acquired by the object platform comprises production line equipment operation data, manufacturing process data and data acquired by the sensor. In specific implementation, based on the fact that production line equipment and production line sensors applied to processes in different production lines are different, the number of the corresponding object platforms is multiple, and each object platform is provided with corresponding production line equipment and corresponding production line sensors.

In the specific implementation, after the system is confirmed not to control a certain production line any more, a user inputs production line research information on a user platform to generate a control instruction to control the non-current control production line information stored in the management platform and the object platform to be transferred to the service platform, and the service platform stores the transferred information to reduce the load of the management platform and the object platform.

Example 2:

this embodiment is further defined on the basis of embodiment 1 as follows: the service platform of this embodiment adopts centralized arrangement, and centralized arrangement refers to that the platform receives data, processes data and sends data in a unified manner. In this embodiment, the service platform receives and processes the information based on the first server implementation. The management platform of this embodiment adopts the post platform arrangement of branch, and the post platform arrangement of branch means the management platform is provided with total platform and a plurality of branch platforms, and control information and object platform parameter configuration information transmission are transmitted to total platform by branch platform, and perception information transmission is transmitted to branch platform by total platform. In this embodiment, the main platform of the management platform is configured as a second main server, the sub-platforms thereof are configured as second sub-servers, the main platform of the management platform receives and processes data based on the second main server, and the sub-platform of the management platform receives and processes data based on the second sub-server. The sensing network platform of the embodiment adopts independent arrangement, wherein the independent arrangement means that the sensing network platform is provided with a plurality of sub-platforms, and each sub-platform corresponds to one object platform to perform data processing and/or data transmission. In this embodiment, the sensor network platform is configured as a gateway server, and the sensor network platform receives and processes information based on the gateway server.

When the method is applied, for the current operation production line controlled by the system, control information and object platform parameter configuration information are transmitted in the management platform from the branch platforms to the main platform, information sent to the object platform by the user platform can be processed on the branch platforms of the management platform, and information related to the process of controlling each branch platform is independently processed, so that the control efficiency of the system can be improved; the perception information is transmitted to the sub-platforms from the main platform when transmitted in the management platform, so that the management platform can conveniently and independently feed back the perception information to the user platform after uniformly receiving the perception information, the perception information is fed back to the user aiming at a single procedure, and the user can look over the perception information more visually.

After the management platform of this embodiment receives the procedure investigation instruction, each procedure investigation instruction is transmitted to the main platform by the sub-platform of the management platform when the management platform transmits the procedure investigation instruction, the sub-platform of the management platform transmitting the procedure investigation instruction only correspondingly transmits one procedure investigation instruction, and the management platform screens out the control information, the object platform parameter configuration information and the object platform sensing information which are not currently corresponding to the management platform of the control production line according to the procedure investigation instruction and then performs on the sub-platform. Each procedure investigation instruction of the embodiment is directly transmitted by the sub-platform of the sensing network platform when the sensing network platform transmits the procedure investigation instruction, and the sub-platform of the sensing network platform transmitting the procedure investigation instruction only correspondingly transmits one procedure investigation instruction.

On the basis of the existing industrial Internet of things system, the method further optimizes the structural layout modes of the service platform, the management platform and the sensing network platform, so that after the procedure investigation instruction is sent to the management platform, the management platform executes a processing program efficiently, the transfer efficiency of the embodiment to the information of the management platform, which is not the current management and control production line, is accelerated, and the influence of the management platform on the management and control of the current management and control production line can be reduced. The service platform of the embodiment mainly undertakes the information transfer task of the user platform and the management platform and the information storage task of the non-current management and control production line, and adopts centralized arrangement to facilitate unified management of the information of the non-current management and control production line and facilitate information retrieval when a new production line is configured. The sensor network platform of the embodiment mainly undertakes the information transmission tasks of the management platform and the object platform, and adopts independent arrangement, so that the information corresponding to each process can be efficiently transmitted on the sensor network platform.

Example 3:

this embodiment is further defined on the basis of embodiment 2 as follows: each sub-platform of the management platform of the embodiment stores the data related to each product produced by the current management and control production line from production to production ending in a centralized manner; each object platform of the embodiment stores the data related to each product which is produced by the current management and control production line from production to production ending in a centralized manner. So, when this embodiment was used, can realize management platform and object platform's production line information according to the independent management of production line process at the management and control in-process for when the follow-up not use of current management and control production line, it is more convenient to shift the production line information of management platform and object platform to the service platform.

Example 4:

this embodiment is further defined by any one of embodiments 1 to 3 as follows: in this embodiment, before the service platform performs data compression and storage in step S6, the received management platform and object platform information are divided according to the data related to production line production to production end corresponding to each product, so that the data related to the same product and the same production line belong to the same information management data group, where the name of each information management data group is named by the corresponding product style and production line serial number. In this embodiment, when data compression is completed, the compressed file has the same name as the information management data group corresponding to the compressed file, and the production line serial number is a serial number set according to the sequence of production line configuration time when a production line is configured. Therefore, when the method is applied, when information of a non-current control production line needs to be inquired or a new production line is subsequently configured to call the information management data set, the inquiry or calling of a certain production line can be carried out according to the name of the information management data set, so that the inquiry and calling efficiency can be improved when the method is applied.

Example 5:

this example is further defined on the basis of example 4 as follows: step S6 in this embodiment further includes deleting the repeated control information, the repeated object platform parameter configuration information, and the repeated object platform sensing information in each information management data group, and deleting data that is not classified into the information management data group. When the system is applied, control information and object platform parameter configuration information generated by a user platform need to be transmitted to the object platform through the service platform, the management platform and the sensing network platform in sequence and stored in the management platform and the object platform, sensing information obtained by the object platform needs to be fed back to the user platform through the sensing network platform, the management platform and the service platform in sequence and stored in the management platform and the object platform, the management platform and the object platform can store the same information at the same time, and the embodiment can save the storage space of the service platform by eliminating repeated information and storing the information.

Example 6:

this embodiment is further defined on the basis of embodiment 4 or embodiment 5 as follows: in this embodiment, before the service platform stores data, the service platform further feeds back names of each group of information management data groups to be stored to the user platform, the user platform generates a storage canceling instruction according to storage canceling information input by a user, or generates a storage confirming instruction according to storage confirming information input by the user, and sends the storage confirming instruction to the service platform, and the service platform receives the storage canceling instruction to cancel storage and deletes the information management data group, or receives the storage confirming instruction to store the compressed information management data group. The control information input by the user platform is the cancel storage information and the confirm storage information, and the control instruction generated by the user platform based on the control information is the cancel storage instruction and the confirm storage instruction. When the method is applied, the production line information corresponding to the product which is determined not to be produced can be directly deleted when the user confirms that the production line information does not need to be stored, and further the space of the service platform can be saved.

Example 7:

this embodiment is further defined on the basis of embodiment 6 as follows: the service platform of this embodiment compares the name of the information management data group that is confirmed by the user to be stored with the name of the information management data group already stored in the service platform after receiving the storage confirmation instruction, and directly stores the information management data group that is confirmed by the user if the same information management data group name does not exist; if the same information management data group name exists, information with the same information management data group name is generated and fed back to a user platform, the user platform generates a cancel storage instruction according to cancel storage information input by a user, generates a coverage storage instruction according to coverage storage information input by the user, or generates a confirmation common storage instruction according to confirmation common storage information input by the user and sends the confirmation common storage instruction to a service platform, and the service platform receives the cancel storage instruction, cancels storage and deletes the information management data group, receives the coverage storage instruction, stores the information management data group and deletes the original same-name information management data group, or receives the confirmation common storage instruction, adds a number to the information management data group and stores the compressed information management data group. The numbering in this embodiment is implemented by using arabic numerals, and numbering is performed in sequence according to the storage sequence, in order to distinguish the serial numbers of different information management data sets with the same name. The common storage information is control information input by a user through a user platform, and the common storage canceling instruction, the common storage covering instruction and the common storage confirming instruction are control instructions generated by the user platform based on the control information. When the method is applied, for the same production line which is separated from the system control for two times or more, the method of information management data group name comparison can be adopted, and a user confirms whether the information of the latest production line separated from the system control is stored or not, so that the problem that a large amount of similar compressed data without substantive significance is stored together to cause space waste is avoided, and more important similar compressed data can be stored together.

Example 8:

this embodiment is further defined on the basis of any one of embodiments 1 to 7 as follows: when the method is applied, the method further comprises the steps of data comparison and calling when a new production line is configured, and the specific implementation steps are as follows: the user platform generates a production line comparison instruction according to production line comparison information input by a user and sends the production line comparison instruction to the service platform; the service platform receives a production line comparison instruction and compares whether the stored compressed data of the service platform has data consistent with newly configured production line products and procedures, if not, the data comparison and calling step is finished, if so, the information of the matched data is sent to the user platform, the user platform confirms whether the inquired data is called according to user input information, and when the calling is confirmed, the service platform decompresses the inquired data and sends the decompressed data to the management platform; the management platform receives and stores the decompressed query data and sends the decompressed query data to an object platform corresponding to each procedure through the sensing network platform; and the object platform receives the decompressed query data and completes configuration. The production line comparison information is information for controlling production line comparison, and the production line comparison instruction is a control instruction generated according to the production line comparison information. In the embodiment, when the specific query is performed, the query may be performed according to the process corresponding to the production line and the product produced by the production line, and when the data stored in the service platform includes the information management data group name, the query may also be performed based on the information management data group name.

The embodiment further illustrates a data comparison and calling method for a newly configured production line, by querying a production line with consistent matching, if a corresponding production line is not queried, the new production line configuration is completed according to the parameter requirements of an actual production line, when the corresponding production line is queried, data calling can be directly performed, each process configuration is performed based on the called data, and if fine tuning is performed, corresponding adjustment is completed according to the actual requirements, so that the configuration efficiency of the new production line can be improved.

In the description of the embodiments above, relational terms such as first, second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, including not only those elements but also other elements not expressly listed or inherent to such processes, methods, articles, or apparatus. Those skilled in the art will clearly understand that the technical solutions described in the embodiments disclosed herein can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better embodiment. With this understanding in mind, aspects of the present invention may be embodied in the form of a software product stored on a computer-readable storage medium, such as Random Access Memory (RAM), read Only Memory (ROM), programmable Read Only Memory (PROM), erasable Programmable Read Only Memory (EPROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory, a hard disk, a CD-ROM, a floppy disk, a cassette, magnetic media, optical media, and other computer-readable storage media, including instructions to cause a device (e.g., a cell phone, a computer, a server, a network device, etc.) to perform methods according to various embodiments of the present invention.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only examples of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The information management method of the non-current management and control production line based on the industrial Internet of things is realized based on a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted; the method is characterized by comprising the following steps:

s1, a user platform generates a production line investigation instruction according to production line investigation information input by a user and sends the production line investigation instruction to a service platform;

s2, the service platform receives the production line investigation instruction, generates process investigation instructions with the same number as the production line processes based on the production line investigation instruction and the production line processes, stores the process investigation instructions and sends the process investigation instructions to the management platform;

s3, the management platform receives and stores the procedure investigation instruction and sends the procedure investigation instruction to the sensing network platform, and the step S4 is switched to; the management platform screens out control information, object platform parameter configuration information and object platform perception information corresponding to the management platform of a non-current management and control production line according to the procedure research instruction, transfers the control information, the object platform parameter configuration information and the object platform perception information to the service platform, and then transfers the step S6;

s4, the sensing network platform receives and processes the procedure investigation instructions, and sends each processed procedure investigation instruction to a corresponding object platform;

s5, the object platform receives the procedure investigation instruction, screens out control information, object platform parameter configuration information and object platform sensing information corresponding to the object platform of the non-current control production line according to the procedure investigation instruction, and transfers the screened information to the service platform after sequentially passing through the sensing network platform and the management platform;

and S6, the service platform receives control information, object platform parameter configuration information and object platform sensing information corresponding to the management platform and the object platform of the non-current management and control production line, and stores the compressed data.

2. The information management method for the non-current management and control production line based on the industrial internet of things is characterized in that the service platform adopts centralized arrangement, and the centralized arrangement refers to that the platform uniformly receives data, uniformly processes the data and uniformly sends the data; the management platform is arranged in a rear sub-platform mode, the rear sub-platform mode means that the management platform is provided with a main platform and a plurality of sub-platforms, control information and object platform parameter configuration information are transmitted from the sub-platforms to the main platform, and sensing information is transmitted from the main platform to the sub-platforms; the sensing network platform adopts independent arrangement, wherein the independent arrangement means that the sensing network platform is provided with a plurality of sub-platforms, and each sub-platform corresponds to one object platform to perform data storage, data processing and/or data transmission;

each process investigation instruction is transmitted to the main platform by the sub-platform of the management platform when being transmitted by the management platform, the sub-platform for transmitting the process investigation instruction by the management platform only correspondingly transmits one process investigation instruction, and the management platform screens out control information, object platform parameter configuration information and object platform perception information which are not corresponding to the management platform of the current control production line according to the process investigation instruction and carries out on the sub-platform; each procedure research instruction is directly transmitted by a sub-platform of the sensor network platform when transmitted by the sensor network platform, and the sub-platform of the sensor network platform for transmitting the procedure research instruction only correspondingly transmits one procedure research instruction.

3. The information management method for the non-current management and control production line based on the industrial internet of things according to claim 2, wherein each sub-platform of the management platform stores data related to each product produced by the current management and control production line from production to production ending in a centralized manner; and each object platform stores the data related to each product which is produced by the current control production line from production to production ending in a centralized manner.

4. The information management method for the non-current management and control production line based on the industrial internet of things according to claim 1, wherein when a plurality of non-current management and control production lines exist, each non-current management and control production line has the same number of process investigation instructions as the number of the processes.

5. The information management method for the non-current management and control production line based on the industrial internet of things according to claim 1, wherein before the service platform performs data compression and storage in step S6, the received information of the management platform and the object platform is divided according to the data related to production line production from production line commissioning to production ending corresponding to each product, so that the data related to the same product and the same production line belong to the same information management data group, wherein the name of each information management data group is named by the corresponding product style and the production line serial number.

6. The information management method for the non-current management and control production line based on the industrial internet of things according to claim 5, wherein the step S6 further comprises deleting repeated control information, repeated object platform parameter configuration information and repeated object platform perception information in each group of information management data groups, and deleting data which are not classified into the information management data groups.

7. The information management method for the non-current management and control production line based on the industrial internet of things according to claim 5, wherein before the service platform stores data, the service platform feeds back names of each group of information management data groups to be stored to the user platform, the user platform generates a storage canceling instruction according to storage canceling information input by a user or generates a storage confirming instruction according to storage confirming information input by the user and sends the storage confirming instruction to the service platform, and the service platform receives the storage canceling instruction, cancels storage and deletes the information management data groups or receives the storage confirming instruction, stores the compressed information management data groups.

8. The non-current management and control production line information management method based on the industrial internet of things according to claim 7, wherein the service platform receives a storage confirmation instruction, then compares the name of the information management data group which is confirmed by a user to be stored with the name of the information management data group stored by the service platform, and if the same information management data group name does not exist, directly stores the information management data group which is confirmed by the user; if the same information management data group name exists, information with the same information management data group name is generated and fed back to a user platform, the user platform generates a cancel storage instruction according to cancel storage information input by a user, generates a cover storage instruction according to cover storage information input by the user, or generates a confirmation common storage instruction according to confirmation common storage information input by the user and sends the confirmation common storage instruction to a service platform, and the service platform receives the cancel storage instruction, cancels storage and deletes the information management data group, receives the cover storage instruction, stores the information management data group and deletes the original same-name information management data group, or receives the confirmation common storage instruction, adds a number to the information management data group, and stores the compressed information management data group.

9. The information management method for the non-current management and control production line based on the industrial internet of things according to any one of claims 1 to 8, characterized by further comprising a data comparison and calling step when a new production line is configured, wherein the data comparison and calling step comprises:

the user platform generates a production line comparison instruction according to production line comparison information input by a user and sends the production line comparison instruction to the service platform; the service platform receives a production line comparison instruction and compares whether the stored compressed data of the service platform has data consistent with newly configured production line products and procedures, if not, the data comparison and calling step is finished, if yes, the information of the matched data is sent to the user platform, the user platform confirms whether the inquired data is called according to user input information, and when the calling is confirmed, the service platform decompresses the inquired data and sends the decompressed data to the management platform; the management platform receives and stores the decompressed query data and sends the decompressed query data to an object platform corresponding to each procedure through the sensing network platform; and the object platform receives the decompressed query data and completes configuration.

10. The system for realizing the non-current management and control production line information management method based on the industrial internet of things is characterized by comprising a user platform, a centralized arrangement service platform, a post-branch platform type arrangement management platform, an independent arrangement sensing network platform and an object platform which are sequentially interacted; wherein:

the user platform is used for generating a production line investigation instruction according to the production line investigation information input by the user and sending the production line investigation instruction to the service platform;

the service platform is used for receiving the production line investigation instruction, generating process investigation instructions with the same number as the production line processes based on the production line investigation instruction and the production line processes, storing the process investigation instructions and sending the process investigation instructions to the management platform; the system comprises a management platform, an object platform, a data compression module, a data storage module, a data processing module and a data processing module, wherein the management platform and the object platform are used for receiving control information, object platform parameter configuration information and object platform sensing information corresponding to the management platform and the object platform of a non-current management and control production line, and storing the data after data compression;

the management platform is used for receiving and storing the procedure investigation instruction and sending the procedure investigation instruction to the sensing network platform; the system comprises a management platform, a service platform and a management platform, wherein the management platform is used for acquiring process investigation instructions and object platform parameter configuration information;

the sensing network platform is used for receiving and processing the procedure investigation instruction and sending each processed procedure investigation instruction to the corresponding object platform;

and the object platform is used for receiving the procedure investigation instruction, screening out control information, object platform parameter configuration information and object platform sensing information which are not corresponding to the object platform of the current control production line according to the procedure investigation instruction, and transferring the screened information to the service platform after sequentially passing through the sensing network platform and the management platform.

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