CN113448693A - SAAS cloud platform of digital factory - Google Patents

Abstract

The SAAS cloud platform of the digital factory provided by the invention has the following steps of: the micro service component is used for receiving a micro service component selected by a user from the micro service component pool; the service registration center: the system comprises a micro service component register module, a service instance register module and a service instance register module, wherein the micro service component register module is used for registering a micro service component selected by a user and generating one or more service instances; the micro service component registration module is used for registering the micro service component corresponding to the service instance in the re-registration instruction when receiving the re-registration instruction; distributed transaction control service: the system comprises a register center, a register server and a register server, wherein the register server is used for monitoring the state of a service instance, generating a re-register instruction containing the service instance if the state is abnormal, and sending the re-register instruction to the service register center; the container service is used to package and publish service instances. The platform realizes modularization and software of model algorithms.

Description

SAAS cloud platform of digital factory

Technical Field

The invention belongs to the technical field of computers, and particularly relates to a SAAS cloud platform of a digital factory.

Background

With the continuous innovation and pervasion of a new generation of information communication technology, a new round of industrial revolution is emerging in the global scope, the manufacturing industry is advancing to a new stage of system reconstruction, dynamic change and paradigm migration, extension and expansion in the direction of digitization, networking and intellectualization are accelerated, a new system of manufacturing industry is being constructed by everything interconnection, software definition, platform support, data intelligence and network cooperation, and the new system also becomes an improvement point of the global new round of industry competition.

The essence of the digital transformation is to solve the uncertainty of the complex platform with the automatic flow of data in the world defined by "data + algorithm" to optimize the resource allocation efficiency. The basic contradiction of digital transformation is the contradiction between the global optimization requirement of an enterprise and the fragmentation supply.

For manufacturing enterprises, digital transformation does not evolve along a route diagram of automation, digitization, networking and intelligence, and the core problem is how the enterprise goes from local optimization to global optimization. SaaS (Software-as-a-Service) is a completely innovative Software application model. However, the existing industrial software is more in a traditional delivery mode, that is, a manufacturer deploys a software product to a plurality of client terminals in an enterprise through License to achieve delivery, so that the problems of large investment in the early stage of local deployment of the manufacturing enterprise, long implementation period, difficulty in after-sale service of the software and the like exist. And the driving force of the SaaS market is always foreign experience rather than the real demand of domestic enterprises, and many SaaS companies do not realize the real communication with users, so that the products cannot meet the real demand of the users.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a SAAS cloud platform of a digital factory, which realizes modularization and software of a model algorithm.

A digital plant SAAS cloud platform, comprising:

a unified authentication portal: the micro service component is used for receiving a micro service component selected by a user from the micro service component pool;

the service registration center: the system comprises a micro service component register module, a service instance register module and a service instance register module, wherein the micro service component register module is used for registering a micro service component selected by a user and generating one or more service instances; the micro service component registration module is used for registering the micro service component corresponding to the service instance in the re-registration instruction when receiving the re-registration instruction;

distributed transaction control service: the system comprises a register center, a register server and a register server, wherein the register server is used for monitoring the state of a service instance, generating a re-register instruction containing the service instance if the state is abnormal, and sending the re-register instruction to the service register center;

container service: for packaging and publishing service instances.

Preferably, the micro-service component comprises one or a combination of the following:

the system comprises an order management component, a customer management component, a product management component, a code management component, a picture document management component, a BOM management component, a process route component, a process card component, a working hour management component, a main data management component, a material management component, an equipment management component, a task scheduling component, a factory structure management component, a warehouse management component and an after-sales maintenance component.

Preferably, the order management component is used for receiving single orders and batch orders, feeding back inventory information when receiving the orders, timely acquiring inventory conditions when a customer places the orders, and carrying out reasonable configuration according to the customer level, the order critical conditions and the inventory conditions of various places; recording the refund and refund conditions in real time;

the client management component is used for analyzing the historical order condition, the order completion condition and the feedback information of the client, performing classification management on the user and setting a regular reminding mechanism to realize user reminding;

the product management component is used for realizing product classification and product information management; visually expressing the product classification levels through a product tree, and managing product information through product attributes, pictures and detailed information maintenance;

the code management component is used for inputting a code rule, generating a corresponding code according to the code rule, automatically associating the code with the existing drawing and realizing unified source management;

the drawing document management component is used for carrying out centralized management on design documents, process documents, production management data and maintenance services in the product research and development process.

Preferably, the BOM management component is configured to complete maintenance of BOMs at different service stages, and issue and reconstruct of BOM data; the evolution history of the BOM is automatically recorded, the rapid difference comparison of various BOMs is realized, and a part cluster is automatically generated; inquiring, counting and summarizing according to preset material inquiry conditions, and generating a corresponding material list report and a material summarizing report;

the process route component is used for describing the production steps and processes for manufacturing each material, determining the production progress, calculating the lead time of the workpiece, and providing the calculation data of the operation MRP, the capacity demand plan and the processing cost;

the process card assembly is used for explaining the work sequence number, the process name, the process content, the process parameters and the operation requirements of a product in each process stage and adopted equipment and process equipment by taking a process as a unit;

the man-hour management component is used for automatically acquiring employee data, work order data and data of each work station, calculating the man-hour cost according to the man-hour unit price model and generating a multi-dimensional data report;

the main data management component is used for inquiring, creating, publishing, archiving, importing in batches, exporting and cleaning main data.

Preferably, the material management component is used for dynamically tracking and monitoring the specification, quantity, position, state, process link, responsible person and tool of various materials of different types, states and forms on the production workshop site according to the material number and the material type;

the equipment management assembly is used for managing the whole life cycle of the equipment, acquiring equipment operation data and production data in real time, monitoring the operation process of the equipment in real time and automatically early warning equipment faults;

the task scheduling component is used for managing material flow or information flow in the production unit in the forms of operation, order, batch and work order, and is used for carrying out whole-course management on batch production scheduling, material operation and purchase application of the production order and production real-time adjustment under resource load;

the factory structure management component is used for managing production organization architectures of factories, departments, workshops, production lines and work centers of enterprises;

the warehouse management component is used for realizing stock management of materials and code scanning and material returning of production;

the after-market repair component is used to record and manage each piece of data associated with an enterprise product.

Preferably, the unified authentication portal is further configured to, when a registration account instruction initiated by a user is received, allocate an exclusive 3-level domain name to the user, and send the exclusive 3-level domain name to the DNS server for recording.

Preferably, the service registry is further configured to, before registering the user-selected micro-service component:

and dividing hardware resources according to the micro service components selected by the user to realize network isolation.

Preferably, the unified authentication portal is further configured to: for the user to access, add and remove published service instances.

Preferably, the distributed transaction control service is further configured to: and if the state is abnormal, generating and storing an abnormal log, suspending the use of the service instance, generating alarm information and sending the alarm information to related personnel.

Preferably, the container service is specifically configured to:

and automatically configuring project paths and MVN according to the exclusive 3-level domain name, configuring remote server paths and scripts, and deploying project shell scripts.

According to the technical scheme, the SAAS cloud platform of the digital factory has the following advantages:

1. industrial microservice development and maintenance has a high degree of flexibility. Each micro service component can be developed and maintained by different development teams by using different languages and tools, and any modification and upgrading can not affect the functions of other parts of the application.

2. The industrial microservice runs decentralized distributed execution. Different micro-service components can be executed in a distributed and parallel mode, the occupancy rate of application resources is relatively small, data and resources among the micro-services are physically isolated from each other, and the failure of a single service only can cause the damage of a single function and can not cause the breakdown of the whole application.

3. The method meets the requirements of industrial SaaS on quick operation and maintenance, continuous iteration and quick adaptation to the individual needs of customers, and protects the existing investment of the customers. The industrial SaaS development is carried out in a digital factory SaaS cloud platform based on an industrial micro-service module, the advantages of access, resource elastic configuration, cloud deployment and operation and the like of a platform mass developer can be effectively played by means of the characteristics of parallel development and distributed operation of industrial micro-services, the characteristics of independent isolation and flexible calling of the industrial micro-services can be utilized, and the problems of rapid operation and maintenance, continuous iteration, personalized customization and the like of the industrial SaaS are solved.

The essence of the industrial micro-service is software and tool of experience knowledge, the industrial micro-service framework provides an optimal technical means for knowledge conversion and reuse of enterprise digital transformation, modular components such as algorithms, models and knowledge can be called and arranged in a building block mode, high-efficiency industrial SaaS software development, deployment, operation and maintenance are realized, and the revolution of industrial software development modes is driven.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a flowchart of a method executed by a SAAS cloud platform of a digital factory according to an embodiment of the present invention.

Fig. 2 is an architecture diagram of a digital factory SAAS cloud platform according to a second embodiment of the present invention.

Fig. 3 is a schematic view of a usage scenario of a digital factory SAAS cloud platform according to a second embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby. It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

As used in this specification and the appended claims, the term "if" may be interpreted contextually as "when", "upon" or "in response to a determination" or "in response to a detection". Similarly, the phrase "if it is determined" or "if a [ described condition or event ] is detected" may be interpreted contextually to mean "upon determining" or "in response to determining" or "upon detecting [ described condition or event ]" or "in response to detecting [ described condition or event ]".

The first embodiment is as follows:

a digital plant SAAS cloud platform, see fig. 1, comprising:

a unified authentication portal: the micro service component is used for receiving a micro service component selected by a user from the micro service component pool;

the service registration center: the system comprises a micro service component register module, a service instance register module and a service instance register module, wherein the micro service component register module is used for registering a micro service component selected by a user and generating one or more service instances; the micro service component registration module is used for registering the micro service component corresponding to the service instance in the re-registration instruction when receiving the re-registration instruction;

distributed transaction control service: the system comprises a register center, a register server and a register server, wherein the register server is used for monitoring the state of a service instance, generating a re-register instruction containing the service instance if the state is abnormal, and sending the re-register instruction to the service register center;

container service: for packaging and publishing service instances.

Specifically, when the service registry registers the micro service components, the service registry creates corresponding service instances according to the selected micro service components, and completes registration service, and the code is as follows:

instance is then constructed by registration, the code is as follows: instance frommregistration (registration);

finally, a registration request is sent, the code being as follows:

namingService.registerInstance(serviceId,group,instance)；

preferably, the unified authentication portal is further configured to, when a registration account instruction initiated by a user is received, allocate an exclusive 3-level domain name to the user, and send the exclusive 3-level domain name to the DNS server for recording.

Specifically, after the user registers an account at the unified authentication portal, a unique exclusive 3-level domain name is allocated to the user, and a record is automatically added to the DNS server. And selecting and purchasing one or more micro service components from the micro service component pool by the user according to the self requirement.

Preferably, the service registry is further configured to, before registering the user-selected micro-service component:

and dividing hardware resources according to the micro service components selected by the user to realize network isolation.

Preferably, the unified authentication portal is further configured to: for the user to visit, add and remove the service instance that has already been released, the code is as follows:

Map<String,String>params＝new HashMap<String,String>(2)；

Map<String,String>bodyMap＝new HashMap<String,String>(2)；

params.put("username",username)；

bodyMap.put("password",password)；

String url＝"http://"+server+contextPath+LOGIN_URL；

preferably, the distributed transaction control service is further configured to: and if the state is abnormal, generating and storing an abnormal log, suspending the use of the service instance, generating alarm information and sending the alarm information to related personnel.

Specifically, the service registration center sends health check to the service instance at regular time, automatically saves the related log when abnormality occurs, suspends the instance when the threshold value is exceeded, sends warning to related personnel, saves the snapshot, and re-registers the micro service component through the micro service component pool, and the code is as follows: HEALTHCHECK-interval 5 m-timeout 3s CMD loop-fhttp:// localhost/| exit 1;

the platform also provides a service upgrading function, acquires a new version of the micro-service component from the micro-service component pool, registers the micro-service component, shunts the original service part flow and continuously increases, and determines the final switching or rollback according to the monitoring condition. The upgrade strategy is as follows:

preferably, the container service is specifically configured to:

and automatically configuring project paths and MVN according to the exclusive 3-level domain name, configuring remote server paths and scripts, and deploying project shell scripts.

Specifically, the platform automatically configures project paths and MVN through domain name addresses assigned by a unified authentication portal, configures remote server paths and scripts, and deploys project shell scripts, wherein the codes are as follows: ps-ef | grep "port ═ 9090" | awk { 'print $2' } | xargs kill-9nohup java-dspring.application.name ═ WLYUN-dspring.profiles.active ═ drive-dserver. port ═ 9090-jar-Xms1024M-Xmx1536M-XX: 153msize ═ 1024M-XX: MaxPerm Size 1536M WLYUN-admin.

The platform can also pull remote code for packaging, and deploy the service instance through the script of the remote server, so far, the container service automation packaging deployment and the publishing of the web application are completed.

According to the SAAS cloud platform of the digital factory, a micro-service architecture is used as a main software development mode, industrial micro-services realize modularization and software of a mechanism model algorithm, industrial SaaS development and operation in the cloud platform are supported, and compared with a traditional industrial software platform, the SAAS cloud platform has the following advantages:

1. industrial microservice development and maintenance has a high degree of flexibility. Each micro service component can be developed and maintained by different development teams by using different languages and tools, and any modification and upgrading can not affect the functions of other parts of the application.

2. The industrial microservice runs decentralized distributed execution. Different micro-service components can be executed in a distributed and parallel mode, the occupancy rate of application resources is relatively small, data and resources among micro-services are physically isolated from each other, and the failure of a single service only causes the damage of a single function and does not cause the breakdown of the whole application.

3. The method meets the requirements of industrial SaaS on quick operation and maintenance, continuous iteration and quick adaptation to the individual needs of customers, and protects the existing investment of the customers. The industrial SaaS development is carried out in a digital factory SaaS cloud platform based on an industrial micro-service module, the advantages of access, resource elastic configuration, cloud deployment and operation and the like of a platform mass developer can be effectively played by means of the characteristics of parallel development and distributed operation of industrial micro-services, the characteristics of independent isolation and flexible calling of the industrial micro-services can be utilized, and the problems of rapid operation and maintenance, continuous iteration, personalized customization and the like of the industrial SaaS are solved.

The essence of the industrial micro-service is software and tool of experience knowledge, the industrial micro-service framework provides an optimal technical means for knowledge conversion and reuse of enterprise digital transformation, modular components such as algorithms, models and knowledge can be called and arranged in a building block mode, high-efficiency industrial SaaS software development, deployment, operation and maintenance are realized, and the revolution of industrial software development modes is driven.

Example two:

embodiment two adds the definition of the micro service component on the basis of embodiment one.

The platform defines a component pool containing 16 core industrial micro-service components, rapidly helps enterprises to build a cloud digital factory based on a latest micro-service architecture system on a Docker + kubernets industrial PaaS platform, and provides convenient and efficient platform service for production and operation of the enterprises. Each industrial micro service component pool component can be specifically combined according to the actual digitization current state requirement of an enterprise, a front-end unified authentication portal selects the micro service components, then one or more service instances are generated through registration service of a service registration center, and a container service engine is called to automatically package and release the service instances required by a client.

Referring to fig. 2 and 3, the microservice component includes one or a combination of the following:

the system comprises an order management component, a customer management component, a product management component, a code management component, a picture document management component, a BOM management component, a process route component, a process card component, a working hour management component, a main data management component, a material management component, an equipment management component, a task scheduling component, a factory structure management component, a warehouse management component and an after-sales maintenance component.

The order management component is used for receiving single orders and batch orders, feeding back inventory information while receiving the orders, timely acquiring inventory conditions when a customer places the orders, and reasonably configuring the platform according to the customer level, the order critical conditions, the inventory conditions of various places and the like. And on the other hand, the refund and refund conditions are recorded in real time, and the emergency is processed in time.

The customer management component comprises historical order conditions, order completion conditions, feedback information of customers and the like of the customers, and classifies and manages the customers according to corresponding data analysis, such as VIP customers, general customers, potential customers and the like; on the other hand, a regular reminding mechanism is adopted, and the birthday and the holiday of the client are reminded on time, so that the client relationship is effectively maintained.

The product management component solves the problems that the product has multiple series, complex models and variable pricing, and brings great difficulty to the product management work; by building a product tree, the classification of products is clarified. "contract/order", "quote" are chosen more or less according to the products on the product tree; and secondly, establishing a detailed product information file, such as the name, the model, the code, the price and the like of the product, so that the product is convenient to treat and inquire.

The code management component is a key activity for abstracting product information in order to simplify the processing of the product information, two sets of coding platforms of simple coding and complex coding are realized, the code management component realizes the rule input of coding and the code output generated according to the rule, the management of the existing coding is realized, the existing coding can be automatically associated with the existing drawing, the unified source management is realized, and the acquisition of the coding has corresponding flow and authority to control.

The image document management component performs centralized management and control on design documents, process documents, production management data, maintenance service and other information in the product research and development process, provides good document classification control for designers, and facilitates users to distinguish different document types and execute respective checking processes. Such as technical drawings, design documents, general documents, tooling drawings, planning classes, reporting classes, planning files, control files, quality records, FMEA, experience trainings, and the like.

The BOM management component supports the maintenance of BOMs in different business stages, including early BOMs, EBOMs, P/MBOMs, cost BOMs, purchase BOMs, other BOMs and the like, and the distribution and reconstruction of BOM data. The evolution history of the BOM is automatically recorded, the rapid difference comparison of various BOMs is realized, the part cluster is automatically generated, and the part type and attribute management is realized. And inquiring, counting and summarizing according to various material inquiry conditions, and generating corresponding various reports such as a material list report, a material summarizing report and the like.

The process route component is used to describe the production steps and processes for manufacturing each material and to determine a detailed production schedule. Calculating the lead time of the workpiece and providing the calculation data of the running MRP; providing computing data for a capacity demand plan (CRP); standard man-hour data for calculating the machining cost is provided.

The process card assembly takes a process as a unit, and specifies the work sequence number, the process name, the process content, the process parameters, the operation requirements, the adopted equipment and process equipment and the like of a product (or a part and a component) in a certain process stage, and the card comprises a process drawing, a processing cutter, a measuring tool, equipment, positioning and the like of the process.

The man-hour management component realizes that reported data is copied and converted into platform automatic acquisition and automatic data grabbing by manpower based on employee data, work order data, data of each work station and the like, provides powerful guarantee for real-time performance and authenticity of the reported data, automatically calculates final man-hour cost according to a man-hour unit price model platform through automatic receiving/acquiring man-hour data, and generates a multi-dimensional data report, such as: staff/ID, work order, project, shift, time axis, date, etc. dimensions. The inquiry terminal is arranged in the workshop, so that the staff can inquire the current piece counting or performance wages in real time, know the labor intensity of the staff in real time and stimulate the working enthusiasm and working attitude of the staff, and the integral production working efficiency of the factory is improved.

The main data management component comprises main data inquiring, main data creating, main data releasing, main data filing, main data batch importing, data exporting and main data cleaning. Default definition metadata such as personnel, material groups, material types, materials, equipment types, equipment models and production equipment are provided, and enterprise management personnel can also extend the main data according to the specific conditions of the enterprise. The platform management personnel can uniformly maintain the main data of all digital factories in the data management. Each master data can be assigned to a different role to manage, and configure a different navigation portal to use.

The material management component carries out dynamic tracking, monitoring, information acquisition and management on the specification, the quantity, the position, the state, the process links, responsible persons, tool matching and other information of various materials of different types, states and forms on the production workshop site according to the material number and the material type, and comprises raw and auxiliary materials, work-in-process products, finished products, self-made parts, standard parts, finished accessories, external cooperation parts and the like.

The equipment management assembly manages the whole life cycle of the equipment, and acquires the operation data and the production data of the equipment in real time through the transformation of equipment networking and equipment communication, so that the real-time monitoring of the operation process of the equipment and the automatic early warning of equipment faults are realized, the equipment keeps good operation, the utilization rate of resources and the equipment is improved, the production potential is excavated, and the benefit of enterprises is improved.

The production schedule of the task scheduling component manages material flow or information flow in the production unit in the form of jobs, orders, lots, batches, and work orders. When an event occurs in a workshop, certain task processing work needs to be carried out in real time, certain constraint is required to be carried out, and scheduling information is a task arrangement sequence according to the constraint. The production scheduling can adjust the specified plan of a factory workshop, process the reworked products and the waste products, and control the quantity of the products in process at each point by a buffer management method. The whole-course management of production such as batch production arrangement of production orders, material operation and purchase application, real-time production adjustment under resource load and the like is covered. The management, the cooperation and the optimization of the production process are realized, the delivery capacity of enterprises is effectively improved, and the production efficiency and the yield are improved. Based on the operation data acquisition, transmission and statistical analysis of each process and station on site, convenient and efficient communication and cooperation are realized, and order progress follow-up and delivery management are realized; based on data monitoring and tracing of factors such as work orders, materials, periods, working procedures and quality, automatic statistical analysis of production KPI indexes such as products in process, yield, badness and production period is realized, targeted improvement is assisted, and management efficiency and level are improved; based on factors such as productivity, materials, real-time working conditions, duration of products in process, urgent single insertion order and the like, auxiliary production scheduling optimization is realized, and on-site production is effectively guided.

The factory structure management component covers production organizations of various levels of factories, departments, workshops, production lines, work centers and the like of enterprises. The definition, maintenance and the upper and lower level incidence relation of the enterprise production organization structure are realized. Including multiple plants of an enterprise. The subordinate production departments and the subordinate production workshops of each factory. And a plurality of production lines in the workshop comprise an automatic production line and a process layout production line. Each work center under each production line is used as an independent production unit and can be composed of one or more devices, one or more employees and other production resources. And forming a production organization framework of an enterprise through layer-by-layer data maintenance.

Warehouse management subassembly including the stock management of main material, production sweep a yard and lead the material returned, through sweeping yard warehouse entry and exit assurance action and the uniformity of document, avoid because of the material profit and loss that the later stage mends the order and leads to. The warehouse management of materials and finished products for industrial enterprises solves the typical problems of original operation mode, excessive dependence on people, low efficiency, high possibility of errors, difficult realization of first-in first-out, difficult management of personnel and the like in the warehouse management through logistics technology application such as full bar code management, refined warehouse location, performance management, strategy management and the like.

The after-market components may record and manage each piece of data associated with an enterprise product, including product technical parameters (equipment ledger, equipment manufacturer, equipment model, equipment serial number, bill of materials, etc.) and operational data (service start time, supplier contract, etc.). In addition, corresponding electronic documents (such as equipment drawings, installation instructions and equipment related pictures) can be added to any product of the enterprise, and the document and maintenance data related to the product can be searched at any time in the whole life cycle of the product after sale.

The platform is a software scheme based on a cloud architecture, management optimization and data visualization can be achieved in the whole process from order access to finished product delivery, a closed-loop data flow which is formed from orders, research and development design, processes, production and manufacturing, logistics storage and after-sale maintenance of a whole manufacturing business chain is opened can be formed, data integration and business integration are achieved more easily, unified technical architecture, automatic operation and maintenance, quick and quick response to customer demands are achieved, and a new architecture system which is guided by user operation is constructed.

The platform provides a uniform digital thread base, so that each industrial micro-service and industrial SaaS service functional assembly can be used independently, and more complex and comprehensive industrial digital solutions such as C2M factory digitization, remote equipment maintenance, inspection tour and the like can be built by combining the industrial micro-service and industrial SaaS service functional assemblies like building blocks, so that the platform has the maximum flexibility and expandability. Manufacturing enterprises in different industries can build own personalized industrial internet application scenes by utilizing the modularized components, good use experience is brought to vast users through the advantages of concise and visual user interfaces, modularized component subscription, high configurability, strong expandability and the like, the online period is rapidly deployed, and the complete standard interface enables rapid integration among SaaS platforms.

For a brief description of the platform provided by the embodiment of the present invention, the corresponding contents in the foregoing embodiments may be referred to.

Example three:

example three is illustrated on the basis of the above examples.

At present, the digitization of a large number of manufacturing enterprises can be mainly divided into two cases:

case 1: manufacturing enterprises with traditional production modes basically have no IT platform support, are informationized or white paper, and need to comprehensively bring various platforms online and integrate the platforms into a unified enterprise SaaS platform to realize intelligent manufacturing.

Case 2: part of IT platforms (traditional information software, mainly ERP platforms) are introduced, and in such a case, enterprises often find or develop related information solutions in related business fields such as product management, process planning or production and manufacturing.

No matter which type of discrete manufacturing enterprise belongs to, the platform provides a modular matrix type functional product, so that a light-weight full-flow function can be realized, and the solution is as follows

Case 1: and selecting micro-service SaaS components in all business fields of orders, design, research and development, processes, manufacture, service and the like to form a complete set of digital factory SaaS solution, and realizing full-flow digitalization from order access to finished product shipment and after-sale maintenance.

Case 2: the enterprise can select all or part of service field digital factory SaaS components required by the service according to actual requirements of the enterprise, and the SaaS components are integrated with the existing platform of the enterprise, so that the enterprise in the manufacturing industry can be quickly helped to build a cloud digital factory of the enterprise. For example, the existing ERP platform of a client realizes the informatization of orders, manufacture and after-sales services, and the invention can only select micro-service SaaS components in the fields of design, research and development and process business from the SaaS cloud platform of the digital factory to realize integration and integration with the existing informatization platform, thereby protecting the existing informatization investment of the client and widening the future digital transformation range.

For a brief description of the platform provided by the embodiment of the present invention, the corresponding contents in the foregoing embodiments may be referred to.

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

Claims (10)

1. A digital factory SAAS cloud platform, comprising:

a unified authentication portal: the micro service component is used for receiving a micro service component selected by a user from the micro service component pool;

the service registration center: the system comprises a micro service component register module, a service instance register module and a service instance register module, wherein the micro service component register module is used for registering a micro service component selected by a user and generating one or more service instances; the micro service component registration module is used for registering the micro service component corresponding to the service instance in the re-registration instruction when receiving the re-registration instruction;

distributed transaction control service: the system comprises a register center, a register server and a register server, wherein the register server is used for monitoring the state of a service instance, generating a re-register instruction containing the service instance if the state is abnormal, and sending the re-register instruction to the service register center;

container service: for packaging and publishing service instances.

2. The digital plant SAAS cloud platform of claim 1, wherein said microservice component comprises one or a combination of:

the system comprises an order management component, a customer management component, a product management component, a code management component, a picture document management component, a BOM management component, a process route component, a process card component, a working hour management component, a main data management component, a material management component, an equipment management component, a task scheduling component, a factory structure management component, a warehouse management component and an after-sales maintenance component.

3. The digital plant SAAS cloud platform of claim 2,

the order management component is used for receiving single orders and batch orders, feeding back stock information when receiving the orders, acquiring the stock condition in time when a client places the orders, and carrying out reasonable configuration according to the client level, the order critical condition and the stock conditions of various places; recording the refund and refund conditions in real time;

the client management component is used for analyzing the historical order condition, the order completion condition and the feedback information of the client, performing classification management on the user and setting a regular reminding mechanism to realize user reminding;

the product management component is used for realizing product classification and product information management; performing product classification level expression through a product tree, and performing product information management through product attribute, picture and detailed information maintenance;

the code management component is used for inputting a code rule, generating a corresponding code according to the code rule, automatically associating the code with the existing drawing and realizing unified source management;

the drawing document management component is used for carrying out centralized management on design documents, process documents, production management data and maintenance services in the product research and development process.

4. The digital plant SAAS cloud platform of claim 2,

the BOM management component is used for completing the maintenance of BOMs in different service stages and the distribution and reconstruction of BOM data; the evolution history of the BOM is automatically recorded, the rapid difference comparison of various BOMs is realized, and a part cluster is automatically generated; inquiring, counting and summarizing according to preset material inquiry conditions, and generating a corresponding material list report and a material summarizing report;

the process route component is used for describing the production steps and processes for manufacturing each material, determining the production progress, calculating the lead time of the workpiece, and providing the calculation data of the operation MRP, the capacity demand plan and the processing cost;

the process card assembly is used for explaining the work sequence number, the process name, the process content, the process parameters and the operation requirements of a product in each process stage and adopted equipment and process equipment by taking a process as a unit;

the man-hour management component is used for automatically acquiring employee data, work order data and data of each work station, calculating the man-hour cost according to the man-hour unit price model and generating a multi-dimensional data report;

the main data management component is used for inquiring, creating, publishing, archiving, importing in batches, exporting and cleaning main data.

5. The digital plant SAAS cloud platform of claim 2,

the material management component is used for dynamically tracking and monitoring the specification, quantity, position, state, process links, responsible persons and tools of various materials with different types, states and forms on the production workshop site according to the material number and the material type;

the equipment management assembly is used for managing the whole life cycle of the equipment, acquiring equipment operation data and production data in real time, monitoring the operation process of the equipment in real time and automatically early warning equipment faults;

the task scheduling component is used for managing material flow or information flow in the production unit in the forms of operation, order, batch and work order, and is used for carrying out whole-course management on batch production scheduling, material operation and purchase application of the production order and production real-time adjustment under resource load;

the factory structure management component is used for managing production organization architectures of factories, departments, workshops, production lines and work centers of enterprises;

the warehouse management component is used for realizing stock management of materials and code scanning and material returning of production;

the after-market repair component is used to record and manage each piece of data associated with an enterprise product.

6. The digital plant SAAS cloud platform of claim 1,

the unified authentication portal is further used for distributing an exclusive 3-level domain name for the user when a registration account instruction initiated by the user is received, and sending the exclusive 3-level domain name to the DNS server for recording.

7. The digital plant SAAS cloud platform of claim 1,

the service registry, prior to registering the user-selected microservice component, is further configured to:

and dividing hardware resources according to the micro service components selected by the user to realize network isolation.

8. The digital plant SAAS cloud platform of claim 1,

the unified authentication portal is further configured to: for the user to access, add and remove published service instances.

9. The digital plant SAAS cloud platform of claim 1,

the distributed transaction control service is further to: and if the state is abnormal, generating and storing an abnormal log, suspending the use of the service instance, generating alarm information and sending the alarm information to related personnel.

10. The digital plant SAAS cloud platform of claim 3,

the container service is specifically configured to:

and automatically configuring project paths and MVN according to the exclusive 3-level domain name, configuring remote server paths and scripts, and deploying project shell scripts.

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