CN116109222B - Industrial Internet of things system, control method and medium for matching regulation and control of product materials - Google Patents

Abstract

The invention discloses an industrial Internet of things system, a control method and a medium for supporting regulation and control of product materials, wherein the industrial Internet of things system comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted; the service platform is arranged in a rear-split platform type mode, the management platform is arranged in a centralized mode, and the sensing network platform is arranged in an independent mode. The control method is applied to the Internet of things system. The internet of things system can automatically analyze, classify and process materials based on order information according to the internet of things structure designed by the five platforms, and automatically execute corresponding logistics matching operation through the object platform, so that the data processing amount and difficulty in the product manufacturing process are reduced, the investment of data processing equipment and the data processing time are reduced, and the product manufacturing efficiency is improved through the automatic regulation and control of the order information corresponding to the required material matching regulation and control through the internet of things.

Description

Industrial Internet of things system, control method and medium for matching regulation and control of product materials

Technical Field

The invention relates to an intelligent manufacturing technology, in particular to an industrial Internet of things system, a control method and a medium for matching and controlling product materials.

Background

In various fields, such as the field of pharmaceutical manufacturing, the field of beverage manufacturing, the field of food manufacturing, and the field of chemical manufacturing, many products are prepared from a plurality of materials according to specific components through various processes, such as fruit-flavored carbonated beverages, wherein tens of raw materials including fruit grains, pigments, additives, saccharides and the like can be involved, the raw materials need to be prepared in advance and added according to required proportions during preparation, while at the same time, a beverage enterprise may have tens of beverage products of the same, similar or different types, and the raw materials and components of the beverage products have more or less differences, thus requiring more logistics equipment for material transportation, supply, distribution and the like during preparation.

In the actual manufacturing process, enterprises can manufacture various products of the same or different types at the same time, the prior art classifies the products according to the products, so that materials are prepared for manufacturing, but due to the fact that the products are of various types, more equipment is needed for supporting in the early stage, or more production lines are needed for blending, the cost is increased, the corresponding regulation and control of the materials is difficult, the span is wide, and a plurality of problems are brought to enterprise operation.

On the basis of the prior art, the enterprises find that a lot of materials are actually shared by different products or that certain materials are actually the same kind of materials, based on the fact that a lot of enterprises use the characteristics to carry out centralized matching on the same or similar materials, logistics is more centralized, but because of the diversity of products and raw materials, when different products with different quantities are required to be produced, a great deal of manpower is required to acquire different amounts of different raw materials and the order of the amounts of the different raw materials, time and the like, so that the materials are prepared and fed in advance, the cost and the working hours are increased, and the production task of certain products is also carried out in a temporary added emergency task or the alternate of different tasks, so that the difficulty of acquiring the use amount is increased.

Based on the method, the convenience, operability and timeliness in the material regulation and control process are the problems which need to be solved urgently by combining the material composition condition and the product production condition of similar products and further analyzing and processing.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an industrial Internet of things system for supporting regulation and control of product materials, which can automatically analyze, classify and process materials based on order information according to an Internet of things structure designed by five platforms, automatically execute corresponding logistics supporting operation through an object platform, further automatically regulate and control the materials required by the order information corresponding to the material supporting regulation and control through the Internet of things, reduce data processing capacity and difficulty in the product manufacturing process, reduce data processing equipment investment and data processing time, and improve product manufacturing efficiency.

The invention is realized by the following technical scheme: industrial Internet of things system for supporting regulation and control of product materials, comprising: the system comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted from top to bottom;

the service platform is arranged in a rear-split platform type mode, the management platform is arranged in a centralized mode, and the sensing network platform is arranged in an independent mode; the rear sub-platform type arrangement means that the service platform is provided with a main platform and a plurality of sub-platforms, the plurality of sub-platforms respectively store and process data of different types or different receiving objects sent by the user platform, and the main platform gathers the data of the plurality of sub-platforms, stores and processes the data and transmits the data to the management platform; the centralized arrangement means that the management platform receives data uniformly, processes the data uniformly and sends the data uniformly; the independent arrangement means that the sensing network platform stores, processes and/or transmits data of different object platforms by adopting different platforms; the object platform is logistics equipment matched with the execution materials;

after the user platform obtains order information of one or more products to be produced, respectively sending the order information to sub-platforms of the corresponding service platforms; the order information at least comprises product names, specifications and quantity;

The method comprises the steps that a sub-platform of a service platform receives corresponding order information, obtains total data of all components of a product to be produced based on the order information, classifies the components to form a component table, associates the order information with the component table, and then sends the order information and the component table to a main platform of the service platform;

after receiving all the component tables, the main platform of the service platform converts all the component tables into configuration files which can be identified by the management platform, the sensor network platform and the object platform, and packages and sends all the configuration files to the management platform;

after receiving the packed data, the management platform extracts component tables in all configuration files, classifies the same or similar components into a classified data table and stores the classified data table, wherein the classified data table at least comprises total data of each component under classification and data total of all total data, each component is associated with order information, and the classified data table is sent to a sub-platform of a sensing network platform corresponding to the classification;

the sub-platforms of the sensing network platform receive the corresponding classified data table and send the classified data table to the object platform corresponding to the classification;

the object platform receives the categorized data table and performs a material matching operation based on the aggregate data for each component of the categorized data table or the aggregate data for each categorization.

Based on the technical scheme, the order information also comprises a time node to be produced;

after the management platform forms a classification data table, the time node to be produced is used as additional information to be associated with the total data of each component;

when the object platform executes the material matching operation based on the total data of each component of the classification data table, the object platform firstly extracts the time nodes to be produced and sequentially executes the material matching operation based on the early and late sequences of the time nodes to be produced.

Based on the technical scheme, after the object platform receives the classified data table, the object platform performs stock quantity comparison based on the total data quantity:

when the comparison result is that the total data amount is smaller than the stock amount, performing material matching operation based on total data or total data amount of each component of the classification data table; or alternatively, the first and second heat exchangers may be,

when the comparison result is that the total data amount is larger than the stock amount, the object platform calculates the replenishment amount based on the total data amount and the stock amount, and the replenishment amount is used as replenishment data to be sequentially sent to a sub-platform and a user platform of the service platform corresponding to the order information with the latest time node to be produced through the corresponding sensing network platform, the management platform and the total platform of the service platform.

Based on the technical scheme, after the object platform performs the material matching operation, the task completion information is uploaded to the sub-platform and the management platform of the corresponding sensor network platform; the task completion information at least comprises order information and order material matching information;

The management platform acquires the corresponding classification category in the task completion information based on the order information, deletes the corresponding classification data table, converts all the task completion information into configuration files which can be identified by the user platform and the service platform after all the task completion information is received and all the classification data tables are deleted, and packages and sends the configuration files to the total platform of the corresponding service platform;

and the total platform of the service platform receives the configuration file, acquires the sub-platform information of the corresponding service platform based on the task completion information, and sends the task completion information to the sub-platform and the user platform of the corresponding service platform.

Based on the technical scheme, when the matched operation of the object platform is abnormal in executing the material matched operation, and the matched operation is failed to be executed, uploading task failure information to the sub-platform and the management platform of the corresponding sensor network platform; the task failure information at least comprises task execution progress, error codes and error time nodes;

after receiving the task failure information, the management platform reserves a corresponding classification data table, finds out one or more order information corresponding to the task execution progress or error time node based on the task execution progress or error time node, and sends the one or more order information as a target item to a total platform of the service platform after being associated with the task failure information;

And the total platform of the service platform receives the task failure information, extracts one or more pieces of order information, takes one or more user platforms corresponding to the one or more pieces of order information as target objects, and sends the task failure information to all the target objects.

Based on the above technical scheme, acquiring total amount data of each component of a product to be produced based on order information, and forming a component table by classifying the components, specifically:

the sub-platform of the service platform stores a product composition table corresponding to the product name and specification;

and after receiving the order information, the sub-platform of the service platform calls a corresponding product composition table based on the product name and the specification, calculates total data of each component of the product to be produced based on the number of the order information on the basis of the product composition table, and stores the total data as a component table.

The invention also discloses a control method of the industrial Internet of things system for supporting and controlling the product materials based on the industrial Internet of things system for supporting and controlling the product materials, wherein the industrial Internet of things system for supporting and controlling the product materials comprises a user platform, a service platform, a management platform, a sensor network platform and an object platform which are interacted in sequence from top to bottom;

The service platform is arranged in a rear-split platform type mode, the management platform is arranged in a centralized mode, and the sensing network platform is arranged in an independent mode; the rear sub-platform type arrangement means that the service platform is provided with a main platform and a plurality of sub-platforms, the plurality of sub-platforms respectively store and process data of different types or different receiving objects sent by the user platform, and the main platform gathers the data of the plurality of sub-platforms, stores and processes the data and transmits the data to the management platform; the centralized arrangement means that the management platform receives data uniformly, processes the data uniformly and sends the data uniformly; the independent arrangement means that the sensing network platform stores, processes and/or transmits data of different object platforms by adopting different platforms; the object platform is logistics equipment matched with the execution materials;

the control method comprises the following steps:

after the user platform obtains order information of one or more products to be produced, respectively sending the order information to sub-platforms of the corresponding service platforms; the order information at least comprises product names, specifications and quantity;

the method comprises the steps that a sub-platform of a service platform receives corresponding order information, obtains total data of all components of a product to be produced based on the order information, classifies the components to form a component table, associates the order information with the component table, and then sends the order information and the component table to a main platform of the service platform;

After receiving all the component tables, the main platform of the service platform converts all the component tables into configuration files which can be identified by the management platform, the sensor network platform and the object platform, and packages and sends all the configuration files to the management platform;

after receiving the packed data, the management platform extracts component tables in all configuration files, classifies the same or similar components into a classified data table and stores the classified data table, wherein the classified data table at least comprises total data of each component under classification and data total of all total data, each component is associated with order information, and the classified data table is sent to a sub-platform of a sensing network platform corresponding to the classification;

the sub-platforms of the sensing network platform receive the corresponding classified data table and send the classified data table to the object platform corresponding to the classification;

the object platform receives the categorized data table and performs a material matching operation based on the aggregate data for each component of the categorized data table or the aggregate data for each categorization.

The invention also provides a computer readable storage medium, the storage medium stores computer instructions, and when the computer instructions are executed by a processor, the control method of the industrial Internet of things system for matching and controlling the product materials is realized.

Compared with the prior art, the invention has the following beneficial effects: the industrial Internet of things system for supporting regulation and control of product materials is built based on a five-platform structure, wherein the service platforms are arranged in a rear sub-platform mode, different user platforms can interact through sub-platforms of different service platforms, further production order transmission can be carried out for different products or different users, mutual data are not affected, data processing requirements of the sub-platforms are reduced, all data are processed according to specific requirements through a total platform of the service platforms, the management platform is arranged in a centralized mode, the data of the total platform of the service platforms are uniformly processed and transmitted through one independent platform, and accordingly coordination and uniformity of all the data are guaranteed, and finally data are transmitted in a sub-classification mode through a sensing network platform arranged independently, so that simultaneous classified transmission of all the data is achieved, classification of the data is guaranteed, the data can correspond to different object platforms, and independence and reliability of the object platforms are guaranteed.

When the system is used, after the user platform acquires a plurality of order information, the sub-platform of the service platform can acquire total data of all components required by corresponding orders based on the order information to form a component table, the total data of all components are integrated through the total platform of the service platform and then sent to the management platform, and the management platform can acquire classification information, total data information and the like of materials based on the data, so that all the data can be processed and classified to finally form material data of different types, the material data of the corresponding types of all the orders are transmitted through the sub-platform of the sensing network platform corresponding to the classification information, the corresponding object platform can integrate the material data of the corresponding types of all the orders, and the material matching operation of all the orders is realized simultaneously without depending on order classification, so that more convenient and accurate material matching is realized.

Based on the method, the technology of the Internet of things is utilized, the architecture of the Internet of things can be utilized to realize unified matching of materials of a plurality of orders, and the matching of the materials is not carried out by only depending on each order, but is carried out based on the material requirements of all orders, so that the matching process and equipment can be simplified, the manufacturing process time of products is shortened, and the demand, difficulty and cost of material data processing can be reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention. In the drawings:

FIG. 1 is a structural framework diagram of an industrial Internet of things system for product material matched regulation;

fig. 2 is a flow chart of a control method of an industrial internet of things system for product material matched regulation.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present invention and the descriptions thereof are for illustrating the present invention only and are not to be construed as limiting the present invention.

As shown in fig. 1, a first embodiment of the present invention is directed to an industrial internet of things system for product material matching control, including: the system comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted from top to bottom;

The service platform is arranged in a rear-split platform type mode, the management platform is arranged in a centralized mode, and the sensing network platform is arranged in an independent mode; the rear sub-platform type arrangement means that the service platform is provided with a main platform and a plurality of sub-platforms, the plurality of sub-platforms respectively store and process data of different types or different receiving objects sent by the user platform, and the main platform gathers the data of the plurality of sub-platforms, stores and processes the data and transmits the data to the management platform; the centralized arrangement means that the management platform receives data uniformly, processes the data uniformly and sends the data uniformly; the independent arrangement means that the sensing network platform stores, processes and/or transmits data of different object platforms by adopting different platforms; the object platform is logistics equipment matched with the execution materials;

after the user platform obtains order information of one or more products to be produced, respectively sending the order information to sub-platforms of the corresponding service platforms; the order information at least comprises product names, specifications and quantity;

the method comprises the steps that a sub-platform of a service platform receives corresponding order information, obtains total data of all components of a product to be produced based on the order information, classifies the components to form a component table, associates the order information with the component table, and then sends the order information and the component table to a main platform of the service platform;

After receiving all the component tables, the main platform of the service platform converts all the component tables into configuration files which can be identified by the management platform, the sensor network platform and the object platform, and packages and sends all the configuration files to the management platform;

after receiving the packed data, the management platform extracts component tables in all configuration files, classifies the same or similar components into a classified data table and stores the classified data table, wherein the classified data table at least comprises total data of each component under classification and data total of all total data, each component is associated with order information, and the classified data table is sent to a sub-platform of a sensing network platform corresponding to the classification;

the sub-platforms of the sensing network platform receive the corresponding classified data table and send the classified data table to the object platform corresponding to the classification;

the object platform receives the categorized data table and performs a material matching operation based on the aggregate data for each component of the categorized data table or the aggregate data for each categorization.

It should be noted that, as a physical architecture of the industrial internet of things system, it specifically includes: the user platform is configured as a terminal device and interacts with a user; the service platform is configured as a first server, receives the instruction of the user platform, sends the instruction to the management platform, extracts information needed by the user platform from the management platform, and sends the information to the user platform; the management platform is configured as a second server, controls the operation of the object platform and receives feedback data of the object platform; the sensing network platform is configured to be a communication network and a gateway and is used for interaction between the object platform and the management platform; the object platform is configured to execute logistics equipment matched with the materials. Since this part belongs to a more common architecture in the prior art, the present embodiment is not redundant.

It should be noted that, in this embodiment, the corresponding order information of different user platforms only corresponds to the sub-platforms of the independent service platforms, so as to form independent data lines corresponding to one another, data between the different independent data lines cannot be interacted, and each independent data line corresponds to one different order information independently, for example, the order information is 01, then the corresponding data only can be transmitted and processed through the sub-platform 01 of the corresponding service platform, the order information is 02, then the corresponding data only can be transmitted and processed through the sub-platform 02 of the corresponding service platform, and the downlink data of the order information is 01 cannot be transmitted and processed through the sub-platform 02 of the service platform, so as to form independent paths, and similarly, the classification data table is distributed to the sub-platform of the corresponding classified sensor network platform through classification information, so as not to transmit data through the sub-platforms of other different classified sensor network platforms.

In the prior art, enterprises can manufacture various products of the same or different types at the same time, the prior art classifies the products and prepares materials for manufacturing, but due to the fact that the products are of various types, more equipment is needed for supporting in the early stage, or more production lines are needed for blending, the cost is increased, the corresponding regulation and control of the materials is difficult, the span is wide, and a plurality of problems are brought to enterprise operation. On the basis of the prior art, the enterprises find that a lot of materials are actually shared by different products or that certain materials are actually the same kind of materials, based on the fact that a lot of enterprises use the characteristics to carry out centralized matching on the same or similar materials, logistics is more centralized, but because of the diversity of products and raw materials, when different products with different quantities are required to be produced, a great deal of manpower is required to acquire different amounts of different raw materials and the order of the amounts of the different raw materials, time and the like, so that the materials are prepared and fed in advance, the cost and the working hours are increased, and the production task of certain products is also carried out in a temporary added emergency task or the alternate of different tasks, so that the difficulty of acquiring the use amount is increased.

On the basis, the industrial internet of things system for supporting regulation and control of product materials of the embodiment is built based on a five-platform structure, the service platforms are distributed in a rear split platform mode, interaction with different user platforms can be achieved through split platforms of different service platforms, production order sending can be achieved according to different products or different users, mutual data do not affect each other, data processing requirements of the split platforms are reduced, all data are processed according to specific requirements through a total platform of the service platforms, the management platform is distributed in a centralized mode, data of the total platform of the service platforms are uniformly processed and transmitted through one independent platform, accordingly, coordination and unification of all the data are guaranteed, finally, data are sent through a sensing network platform reclassification mode of independent arrangement, simultaneous classified transmission of all the data can be achieved, data classification and correspondence with different object platforms are guaranteed, and independence and reliability of the object platforms are guaranteed.

When the system is used, after the user platform acquires a plurality of order information, the sub-platform of the service platform can acquire total data of all components required by corresponding orders based on the order information to form a component table, the total data of all components are integrated through the total platform of the service platform and then sent to the management platform, and the management platform can acquire classification information, total data information and the like of materials based on the data, so that all the data can be processed and classified to finally form material data of different types, the material data of the corresponding types of all the orders are transmitted through the sub-platform of the sensing network platform corresponding to the classification information, the corresponding object platform can integrate the material data of the corresponding types of all the orders, and the material matching operation of all the orders is realized simultaneously without depending on order classification, so that more convenient and accurate material matching is realized.

On the basis, one or more user platforms can receive order information of more than one product to be produced, the product to be produced can be the same product, the same type of product or completely different or different types of product, so that the product of each user platform can have the same or different parts in material requirements.

It should be noted that, the same or similar materials are classified uniformly, that is, according to the needs of enterprises, regulations or the properties, functions and the like of the materials, an independent material can be used as a classification, or similar materials can be used as similar materials as a classification, for example, when preparing beverage products, the main materials are required to be classified separately according to the tastes of the beverages, the other additives such as saccharides, vitamins and the like can be respectively used as a classification separately, for example, different multidimensional vitamins can be uniformly supplied as a classification, and the materials are mixed and processed in advance according to the needs by utilizing a liquid supply tank, and only quantitative determination is needed in the process of configuration; for example, different types of amino acids (such as glycine, alanine, valine, leucine, asparagine, glutamine, threonine, aspartic acid and the like) belong to amino acid substances and are organic compounds containing basic amino groups and acidic carboxyl groups, so that the different types of amino acid materials can be classified into one type, and the same type of equipment can be used for supplying when the amino acid materials are configured (the ratio of various types of amino acids required by the configuration can be configured in advance according to requirements), so that the flow and the configuration time and difficulty are simplified. It should be noted that, the user platform in this embodiment may be a desktop computer, a tablet computer, a notebook computer, a mobile phone, or other electronic devices capable of implementing data processing and data communication, which is not limited herein. In a specific application, the first server and the second server may be a single server, or may be a server cluster, which is not limited herein. It should be understood that the data processing procedure mentioned in this embodiment may be performed by a processor of the server, and the data stored in the server may be stored in a storage device of the server, such as a hard disk or a memory. In a specific application, the sensor network platform may use multiple groups of gateway servers, or multiple groups of intelligent routers, which are not limited herein. It should be understood that the data processing procedure mentioned in the embodiments of the present application may be processed by the processor of the gateway server, and the data stored in the gateway server may be stored in the storage device of the gateway server, such as the hard disk and the SSD.

In specific application, the specific implementation time of each product to be produced needs to be considered sometimes, and then the execution time of each order can be determined according to the starting time, the finishing time, the delivery time, the acceptance time, the delivery time and the like of the product to be produced so as to meet the production time requirement.

Based on this, the order information further includes a time node to be produced; after the management platform forms a classification data table, the time node to be produced is used as additional information to be associated with the total data of each component; when the object platform executes the material matching operation based on the total data of each component of the classification data table, the object platform firstly extracts the time nodes to be produced and sequentially executes the material matching operation based on the early and late sequences of the time nodes to be produced. Through the mode, when the object platform executes material matching operation, matching time of corresponding components can be obtained according to the production time node, and matching can be sequentially carried out according to the matching time of each component, so that the matching with the production time of a product is ensured.

In some embodiments, since detailed information of an order cannot be pre-known in advance, and thus a demand amount and a demand time of a material cannot be known, when a matching operation is performed by the object platform, the object platform may not perform the matching operation because the stock amount of the material cannot meet the demand, and based on this, in this embodiment:

After the object platform receives the classified data table, the object platform performs stock quantity comparison based on the total data quantity: when the comparison result is that the total data amount is smaller than the stock amount, performing material matching operation based on total data or total data amount of each component of the classification data table; or when the comparison result is that the data total amount is larger than the stock amount, the object platform calculates the replenishment amount based on the data total amount and the stock amount, and the replenishment amount is used as replenishment data to be sequentially sent to a sub-platform and a user platform of one or more service platforms corresponding to order information with the latest time node to be produced through the corresponding sensing network platform, the management platform and the total platform of the service platform.

After the object platform sends the replenishment data to the user platform, the material matching of other components can be executed, and the corresponding user platform can conduct material replenishment in advance according to the replenishment data, so that the replenishment can be conducted in advance to meet the matching operation when the object platform executes the matching of the order components, the cost and the time are saved, and the completion time of each matching operation is ensured.

It should be noted that, when the stock quantity is far smaller than the total data quantity, the stock quantity may not be able to satisfy the material matching operation of multiple orders, so that the quantity of the orders that can be satisfied may need to be calculated based on the stock quantity at this time, and the remaining orders need to be supplemented with the corresponding supplementing quantities through multiple user platforms in the above manner.

It should be noted that some materials are configured according to a pre-required proportion, such as various types of amino acids mentioned above, which can be configured in advance according to a proportion required by a human body or a product object to form a type of materials, such as amino acid mixture materials, so that when the object platform receives the categorized data table and performs a matching operation on the basis of the total data amount in each categorization of the categorized data table, the categorized corresponding amino acid mixture materials, such as the total data amount, can be configured directly according to the categorized data amount when the configuration is performed, without considering the problem of replenishment of single amino acid in the categorization, and thus the process can be simplified, and the replenishment amount is very convenient when the replenishment amount is calculated.

When the object platform is used in concrete application, after the material matching operation is completed, uploading task completion information to the sub-platform and the management platform of the corresponding sensor network platform; the task completion information at least comprises order information and order material matching information;

the management platform acquires the corresponding classification category in the task completion information based on the order information, deletes the corresponding classification data table, converts all the task completion information into configuration files which can be identified by the user platform and the service platform after all the task completion information is received and all the classification data tables are deleted, and packages and sends the configuration files to the total platform of the corresponding service platform;

And the total platform of the service platform receives the configuration file, acquires the sub-platform information of the corresponding service platform based on the task completion information, and sends the task completion information to the sub-platform and the user platform of the corresponding service platform.

Based on the above, the user platform can know the material matching condition of the corresponding order according to the task completion information, so as to realize the process and result control, and the order material matching information can comprise the material matching time length, the time period, the completion degree, the completion equipment model and the like when the user platform is applied specifically.

In some embodiments, when the object platform performs matching, due to equipment failure, program error, improper operation, leakage and the like, the matching operation of the object platform may be abnormal, based on the fact that:

when the matching operation of the object platform is abnormal to cause the matching operation to fail, uploading task failure information to the sub-platform and the management platform of the corresponding sensor network platform; the task failure information at least comprises task execution progress, error codes and error time nodes;

after receiving the task failure information, the management platform reserves a corresponding classification data table, finds out one or more order information corresponding to the task execution progress or error time node based on the task execution progress or error time node, and sends the one or more order information as a target item to a total platform of the service platform after being associated with the task failure information;

And the total platform of the service platform receives the task failure information, extracts one or more pieces of order information, takes one or more user platforms corresponding to the one or more pieces of order information as target objects, and sends the task failure information to all the target objects.

The user platform can timely acquire abnormal conditions of material matching corresponding to order information issued by the user platform, so that the user platform can timely and rapidly process the abnormal conditions, and smooth matching is ensured.

In some embodiments, total amount data of each component of the product to be produced is acquired based on the order information, and a component table is formed by classifying the components, specifically:

the sub-platform of the service platform stores a product composition table corresponding to the product name and specification;

and after receiving the order information, the sub-platform of the service platform calls a corresponding product composition table based on the product name and the specification, calculates total data of each component of the product to be produced based on the number of the order information on the basis of the product composition table, and stores the total data as a component table.

As shown in fig. 2, the second embodiment of the present invention is based on the above industrial internet of things system for product material matching regulation, and further provides a control method of the industrial internet of things system for product material matching regulation, where the control method includes the following steps:

S1, after a user platform obtains order information of one or more products to be produced, sending the order information to sub-platforms of a corresponding service platform respectively; the order information at least comprises product names, specifications and quantity;

s2, receiving corresponding order information by a sub-platform of the service platform, acquiring total data of each component of the product to be produced based on the order information, classifying the components to form a component table, and transmitting the order information and the component table to a main platform of the service platform after associating;

s3, after the total platform of the service platform receives all the component tables, converting all the component tables into configuration files which can be identified by the management platform, the sensor network platform and the object platform, and packaging and sending all the configuration files to the management platform;

s4, after receiving the packed data, the management platform extracts component tables in all configuration files, classifies the same or similar components into a classification data table and stores the classification data table, wherein the classification data table at least comprises total data of each component under classification and data total of all total data, each component is associated with order information, and the classification data table is sent to a sub-platform corresponding to the classified sensing network platform;

S5, receiving a corresponding classification data table by a sub-platform of the sensing network platform and sending the corresponding classification data table to an object platform corresponding to the classification;

and S6, the object platform receives the classification data table and executes material matching operation based on total data of each component of the classification data table or total data of each classification.

The third embodiment of the invention also provides a computer readable storage medium, wherein the storage medium stores computer instructions, and when the computer instructions are executed by a processor, the control method of the industrial Internet of things system for matching and controlling the product materials is realized.

Those of ordinary skill in the art will appreciate that the elements and algorithm steps described in connection with the embodiments disclosed herein may be embodied in electronic hardware, in computer software, or in a combination of the two, and that the elements and steps of the examples have been generally described in terms of function in the foregoing description to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of the units is merely a logical function division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. In addition, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices, or elements, or may be an electrical, mechanical, or other form of connection.

The elements described as separate components may or may not be physically separate, and as such, those skilled in the art will appreciate that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, where the elements and steps of the examples are generally described functionally in the foregoing description of the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In addition, each functional unit in the embodiments of the present invention may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention is essentially or a part contributing to the prior art, or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a grid device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-only memory (ROM), a random access memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (6)

1. Industrial Internet of things system for supporting regulation and control of product materials, comprising: the system comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted from top to bottom; it is characterized in that the method comprises the steps of,

the service platform is arranged in a rear-split platform type mode, the management platform is arranged in a centralized mode, and the sensing network platform is arranged in an independent mode; the rear sub-platform type arrangement means that the service platform is provided with a main platform and a plurality of sub-platforms, the plurality of sub-platforms respectively store and process data of different types or different receiving objects sent by the user platform, and the main platform gathers the data of the plurality of sub-platforms, stores and processes the data and transmits the data to the management platform; the centralized arrangement means that the management platform receives data uniformly, processes the data uniformly and sends the data uniformly; the independent arrangement means that the sensing network platform stores, processes and/or transmits data of different object platforms by adopting different platforms; the object platform is logistics equipment matched with the execution materials;

After the user platform obtains order information of one or more products to be produced, respectively sending the order information to sub-platforms of the corresponding service platform; the order information at least comprises product names, specifications and quantity;

the method comprises the steps that a sub-platform of a service platform receives corresponding order information, obtains total data of all components of a product to be produced based on the order information, classifies the components to form a component table, associates the order information with the component table, and then sends the order information and the component table to a main platform of the service platform;

after receiving all the component tables, the main platform of the service platform converts all the component tables into configuration files which can be identified by the management platform, the sensor network platform and the object platform, and packages and sends all the configuration files to the management platform;

after receiving the packed data, the management platform extracts component tables in all configuration files, classifies the same or similar components into a classified data table and stores the classified data table, wherein the classified data table at least comprises total data of each component under classification and data total of all total data, each component is associated with order information, and the classified data table is sent to a sub-platform of a sensing network platform corresponding to the classification;

The sub-platforms of the sensing network platform receive the corresponding classified data table and send the classified data table to the object platform corresponding to the classification; the object platform receives the classification data table and executes material matching operation based on total data of each component of the classification data table or total data of each classification;

after the object platform executes the material matching operation, uploading task completion information to the sub-platform and the management platform of the corresponding sensor network platform; the task completion information at least comprises order information and order material matching information; the management platform acquires the corresponding classification category in the task completion information based on the order information, deletes the corresponding classification data table, converts all the task completion information into configuration files which can be identified by the user platform and the service platform after all the task completion information is received and all the classification data tables are deleted, and packages and sends the configuration files to the total platform of the corresponding service platform;

the general platform of the service platform receives the configuration file, acquires sub-platform information of the corresponding service platform based on the task completion information, and sends the task completion information to the sub-platform and the user platform of the corresponding service platform; when the matching operation of the object platform is abnormal to cause the matching operation to fail, uploading task failure information to the sub-platform and the management platform of the corresponding sensor network platform;

The task failure information at least comprises task execution progress, error codes and error time nodes;

after receiving the task failure information, the management platform reserves a corresponding classification data table, finds out one or more order information corresponding to the task execution progress or error time node based on the task execution progress or error time node, and sends the one or more order information as a target item to a total platform of the service platform after being associated with the task failure information;

and the total platform of the service platform receives the task failure information, extracts one or more pieces of order information, takes one or more user platforms corresponding to the one or more pieces of order information as target objects, and sends the task failure information to all the target objects.

2. The industrial internet of things system of claim 1, wherein the order information further comprises a time to produce node; after the management platform forms a classification data table, the time node to be produced is used as additional information to be associated with the total data of each component; when the object platform executes the material matching operation based on the total data of each component of the classification data table, the object platform firstly extracts the time nodes to be produced and sequentially executes the material matching operation based on the early and late sequences of the time nodes to be produced.

3. The industrial internet of things system of claim 2, wherein the object platform, upon receiving the categorized data table, performs inventory comparison based on the total amount of data: when the comparison result is that the total data amount is smaller than the stock amount, performing material matching operation based on total data or total data amount of each component of the classification data table; or when the comparison result is that the data total amount is larger than the stock amount, the object platform calculates the replenishment amount based on the data total amount and the stock amount, and the replenishment amount is used as replenishment data to be sequentially sent to a sub-platform and a user platform of one or more service platforms corresponding to order information with the latest time node to be produced through the corresponding sensing network platform, the management platform and the total platform of the service platform.

4. The industrial internet of things system according to claim 1, wherein the total amount data of each component of the product to be produced is obtained based on the order information, and the component table is formed by classifying the components, specifically: the sub-platform of the service platform stores a product composition table corresponding to the product name and specification; and after receiving the order information, the sub-platform of the service platform calls a corresponding product composition table based on the product name and the specification, calculates total data of each component of the product to be produced based on the number of the order information on the basis of the product composition table, and stores the total data as a component table.

5. The industrial Internet of things system for supporting and controlling the product materials comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted from top to bottom; it is characterized in that the method comprises the steps of,

the service platform is arranged in a rear-split platform type mode, the management platform is arranged in a centralized mode, and the sensing network platform is arranged in an independent mode; the rear sub-platform type arrangement means that the service platform is provided with a main platform and a plurality of sub-platforms, the plurality of sub-platforms respectively store and process data of different types or different receiving objects sent by the user platform, and the main platform gathers the data of the plurality of sub-platforms, stores and processes the data and transmits the data to the management platform; the centralized arrangement means that the management platform receives data uniformly, processes the data uniformly and sends the data uniformly; the independent arrangement means that the sensing network platform stores, processes and/or transmits data of different object platforms by adopting different platforms; the object platform is logistics equipment matched with the execution materials;

the control method comprises the following steps:

After the user platform obtains order information of one or more products to be produced, respectively sending the order information to sub-platforms of the corresponding service platforms; the order information at least comprises product names, specifications and quantity;

the method comprises the steps that a sub-platform of a service platform receives corresponding order information, obtains total data of all components of a product to be produced based on the order information, classifies the components to form a component table, associates the order information with the component table, and then sends the order information and the component table to a main platform of the service platform;

after receiving all the component tables, the main platform of the service platform converts all the component tables into configuration files which can be identified by the management platform, the sensor network platform and the object platform, and packages and sends all the configuration files to the management platform;

after receiving the packed data, the management platform extracts component tables in all configuration files, classifies the same or similar components into a classified data table and stores the classified data table, wherein the classified data table at least comprises total data of each component under classification and data total of all total data, each component is associated with order information, and the classified data table is sent to a sub-platform of a sensing network platform corresponding to the classification;

The sub-platforms of the sensing network platform receive the corresponding classified data table and send the classified data table to the object platform corresponding to the classification;

the object platform receives the classification data table and executes material matching operation based on total data of each component of the classification data table or total data of each classification;

after the object platform executes the material matching operation, uploading task completion information to the sub-platform and the management platform of the corresponding sensor network platform; the task completion information at least comprises order information and order material matching information;

the management platform acquires the corresponding classification category in the task completion information based on the order information, deletes the corresponding classification data table, converts all the task completion information into configuration files which can be identified by the user platform and the service platform after all the task completion information is received and all the classification data tables are deleted, and packages and sends the configuration files to the total platform of the corresponding service platform;

the general platform of the service platform receives the configuration file, acquires sub-platform information of the corresponding service platform based on the task completion information, and sends the task completion information to the sub-platform and the user platform of the corresponding service platform; when the matched operation of the object platform fails due to abnormal execution of the matched operation of the material, uploading task failure information to a sub-platform and a management platform of the corresponding sensor network platform;

The task failure information at least comprises task execution progress, error codes and error time nodes;

after receiving the task failure information, the management platform reserves a corresponding classification data table, finds out one or more order information corresponding to the task execution progress or error time node based on the task execution progress or error time node, and sends the one or more order information as a target item to a total platform of the service platform after being associated with the task failure information;

and the total platform of the service platform receives the task failure information, extracts one or more pieces of order information, takes one or more user platforms corresponding to the one or more pieces of order information as target objects, and sends the task failure information to all the target objects.

6. A computer readable storage medium storing computer instructions which, when executed by a processor, implement a method of controlling an industrial internet of things system for matched regulation of product materials according to claim 5.

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