CN111127147A

CN111127147A - Cloud sharing collaborative manufacturing platform

Info

Publication number: CN111127147A
Application number: CN201911315055.0A
Authority: CN
Inventors: 庞观士; 胡钢; 沈航; 陈志列; 林诗美; 陈超
Original assignee: EVOC Intelligent Technology Co Ltd
Current assignee: Yanxiang Smart Iot Technology Co ltd
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-05-08

Abstract

The invention provides a cloud sharing collaborative manufacturing platform, which comprises: the system comprises a demand module, a complete machine module, a cooperation module, a supply module and a platform center module; the demand module sends user demands to the platform center module, and receives information returned by the platform center module and sends the information to the user; the whole machine module receives the user requirement of the platform center module and sends the user requirement to a whole machine manufacturer, and the order receiving information of the whole machine manufacturer is sent to the platform center module; the whole machine module sends the cooperation requirement or supply requirement of a whole machine manufacturer to the platform center module, and receives the information of the platform center module and sends the information to the whole machine manufacturer; the cooperation module receives cooperation requirements of the platform center module and sends the cooperation requirements to cooperation manufacturers, and order receiving information of the cooperation manufacturers is collected and returned to the platform center module; the supply module receives the supply demand sent by the platform center module and sends the supply demand to the supplier, and the order receiving information of the supplier is collected and returned to the platform center module. The invention can improve the flexibility of meeting the user requirements and reduce the resource waste.

Description

Cloud sharing collaborative manufacturing platform

Technical Field

The invention relates to the technical field of intelligent manufacturing, in particular to a cloud sharing collaborative manufacturing platform.

Background

At present, the industrial chain of the electronic industry has a plurality of links, including product research and development, demand forecast, production and manufacturing, purchasing and material preparation, front-to-back connection and other links, and has the problems of long inventory turnover period, low demand forecast accuracy, low plan executable rate, high variation rate, overlong production period, missing market opportunity, low overall business efficiency of the industrial chain and the like. With the wide application and development of information technology in enterprises, the working mode of modern manufacturing industry has been developed from the traditional closed door vehicle-building mode to the cross-platform, cross-enterprise and cross-region collaborative manufacturing mode, and it is becoming more and more important that the manufacturing enterprises achieve the common goal of enterprise benefit win-win through mutual cooperation and collaboration. The servitization of manufacturing, the innovation capability based on knowledge, the aggregation and cooperation capability of various manufacturing resources and the environmental friendliness become key elements of the competitive power of the current enterprises and the trend of informatization development of the manufacturing industry. With the increase of the production demand of the personalized product market, the customization degree of the product is higher and higher, the product has higher requirements on the design level, the manufacturing capability and the service content of a manufacturing enterprise, and the development of the personalized market is seriously restricted by the problems of insufficient design, production, manufacturing and management capabilities and the like of the existing enterprise.

Disclosure of Invention

The cloud sharing collaborative manufacturing platform provided by the invention can fully utilize resources and avoid the idle resources.

The invention provides a cloud sharing collaborative manufacturing platform, which comprises: the system comprises a demand module, a complete machine module, a cooperation module, a supply module and a platform center module;

the demand module is used for acquiring user demands and sending the user demands to the platform center module, receiving information returned by the platform center module and sending the information to the user;

the complete machine module is used for receiving the user requirements sent by the platform center module, sending the user requirements to complete machine manufacturers meeting preset conditions, collecting order receiving information of the complete machine manufacturers and returning the order receiving information to the platform center module; the complete machine module is also used for receiving the cooperation requirement or the supply requirement of the complete machine manufacturer and sending the cooperation requirement or the supply requirement to the platform center module, and receiving the information returned by the platform center module and sending the information to the complete machine manufacturer;

the cooperation module is used for receiving cooperation requirements sent by the platform center module, sending the cooperation requirements to cooperation manufacturers meeting preset conditions, collecting order receiving information of the cooperation manufacturers and returning the order receiving information to the platform center module;

the supply module is used for receiving the supply demand sent by the platform center module, sending the supply demand to a supplier meeting preset conditions, collecting order receiving information of the supplier and returning the order receiving information to the platform center module.

Optionally, the system further comprises an order management module, wherein the order management module collects messages sent by the demand module, the complete machine module, the cooperation module, the supply module and the platform center module and updates the order state according to the messages sent by the demand module, the complete machine module, the cooperation module, the supply module and the platform center module.

Optionally, the order management module generates a multi-level tree diagram according to the messages sent by the demand module, the whole module, the collaboration module, the supply module and the platform center module, where the multi-level tree diagram is used to represent a demand decomposition state and a demand completion progress of the user demand.

Optionally, the whole machine module is provided with a whole machine manufacturer storage unit, and the whole machine manufacturer storage unit is used for storing whole machine manufacturer information and a product list provided by a whole machine manufacturer;

the cooperation module is provided with a cooperation manufacturer storage unit, and the cooperation manufacturer storage unit is used for storing cooperation manufacturer information and a requirement capability list of a cooperation manufacturer;

the supply module is provided with a supplier storage unit which is used for storing supplier information and a demand capability list of a supplier.

Optionally, the system further comprises a product release module, wherein the product release module is used for collecting product release information of the whole manufacturer, the cooperation manufacturer and the supplier;

the whole manufacturer storage unit, the cooperation manufacturer storage unit and the supplier storage unit respectively collect product release information of the whole manufacturer, the cooperation manufacturer and the supplier and respectively update a product list provided by the whole manufacturer, a demand capability list of the cooperation manufacturer and a demand capability list of the supplier.

Optionally, the requirement module further includes a requirement partitioning unit, where the requirement partitioning unit is configured to partition the user requirement into a plurality of sub-requirements, and the sub-requirements at least include one unit of user requirement product.

Optionally, the complete machine module is in communication with an MES system of a complete machine manufacturer, and the complete machine module is provided with an operation unit; and the operation unit acquires MES system information of the whole manufacturer, and screens qualified whole manufacturers according to the MES system information to distribute sub-requirements.

Optionally, the system further comprises a demand display module, wherein the demand display module is used for displaying the undistributed sub-demands, collecting the order receiving information of the undistributed sub-demands, and sending the order receiving information to the whole machine module.

Optionally, the system further comprises a credit management module, wherein the credit management module is used for collecting credit information of the demand module, the complete machine module, the cooperation module and the supply module and updating credit states according to the credit information.

Optionally, the communication between the demand module and the user, the communication between the complete machine module and the complete machine manufacturer, the communication between the cooperation module and the cooperation manufacturer, and the communication between the supply module and the supplier all adopt an asymmetric encryption mode for communication.

The cloud sharing collaborative manufacturing platform can acquire online requirements in real time, screen suitable complete machine manufacturers, collaborative manufacturers and suppliers, and send the requirement information to corresponding manufacturers, and each manufacturer can receive orders and produce according to self conditions, so that the order sending efficiency can be improved. Meanwhile, due to the fact that the screening conditions are preset in the screening process, the situation that one manufacturer is heavy and difficult to complete and the other manufacturer is idle can be avoided, the resource utilization rate can be improved, and the resource is prevented from being idle.

Drawings

FIG. 1 is a block diagram of an embodiment of a cloud-shared collaborative manufacturing platform according to the invention;

FIG. 2 is a frame diagram of a relationship between an order management module and other modules according to an embodiment of the cloud sharing collaborative manufacturing platform;

FIG. 3 is a relational framework diagram of a product publishing module and other modules according to an embodiment of the cloud sharing collaborative manufacturing platform of the present invention;

fig. 4 is a relational framework diagram of the point management module and other modules according to the embodiment of the cloud-sharing collaborative manufacturing platform.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a cloud sharing collaborative manufacturing platform, including: the system comprises a demand module, a complete machine module, a cooperation module, a supply module and a platform center module;

The embodiment is developed around the core idea of "sharing", namely resource sharing, information sharing, service sharing, product sharing and data sharing. Based on the idea of sharing, transactions are generated, collaboration is generated, and value is generated.

In order to support the operation of the electronic industry co-modulation cloud building, a standard internet cloud platform architecture is required to be adopted, and the standard internet cloud platform architecture comprises application and data separation, high-availability deployment, load balancing and the like.

From the infrastructure of the cloud platform, products and services provided by existing mature cloud server providers can be utilized.

The electronic industry collaborative cloud platform establishes bidirectional value exchange among suppliers, collaborating manufacturers, complete machine manufacturers and users, can achieve resource acquisition and resource supply, forms a self-operated electronic industry chain ecological internet platform, and achieves the purposes of user requirements, product design, research and development and flexible production and manufacturing.

The electronic industry collaborative cloud platform establishes upstream and downstream collaborative development, production and manufacturing environments among enterprise teams and suppliers and partners in the electronic industry, realizes safe and confidential transmission of related product design information, improves collaborative design capacity of electronic industry manufacturers and suppliers and partners, and brings more people and teams into an electronic industry product innovation system.

The cloud sharing collaborative manufacturing platform can acquire online requirements in real time, screen suitable complete machine manufacturers, collaborative manufacturers and suppliers, send requirement information to corresponding manufacturers, and enable the manufacturers to receive orders and produce the orders according to self conditions, so that the order sending efficiency can be improved. Meanwhile, due to the fact that the screening conditions are preset in the screening process, the situation that one manufacturer is heavy and difficult to complete and the other manufacturer is idle can be avoided, the resource utilization rate can be improved, and the resource is prevented from being idle.

Optionally, as shown in fig. 2, the cloud sharing collaborative manufacturing platform of this embodiment further includes an order management module, where the order management module collects messages sent by the user module, the complete machine module, the collaboration module, the supply module, and the platform center module, and updates an order state according to the messages sent by the demand module, the complete machine module, the collaboration module, the supply module, and the platform center module.

The order management module collects messages sent by the demand module, the whole machine module, the cooperation module and the supply module in real time, an order is established according to the messages, for example, when the demand module receives a user demand, a new order matched with the user demand is established, when the demand module sends the user demand to the whole machine module, the whole machine module sends the user demand to a whole machine manufacturer and is accepted by the whole machine manufacturer, the state of the order is updated to be an order accepting state of the whole machine manufacturer, when the whole machine manufacturer decomposes the user demand into a plurality of cooperation demands and supply demands, the order forms a plurality of task states according to a tree diagram form, for example, a first cooperation demand order accepting state, a second cooperation demand proceeding state, a third cooperation demand waiting order accepting state and the like. And when the cooperation requirement or the supply requirement with the latest progress time is finished, updating the state of the order to the production state of the whole machine manufacturer again, and when the whole machine manufacturer finishes production and delivers, finishing the order and storing the order in the corresponding database.

The product and service providing capability lists of corresponding manufacturers are stored in the modules, and when user requirements are received, the product and service providing capability lists stored in the storage unit are inquired, so that the suitable manufacturers are screened out to carry out required pushing, and the corresponding requirements can be pushed accurately. The manufacturer selects to receive orders or not according to the self-capability and the production state.

Optionally, as shown in fig. 3, the system further includes a product release module, where the product release module is configured to collect product release information of the whole manufacturer, the cooperation manufacturer, and the supplier;

Along with the production scale enlargement and the research and development ability reinforcing of firm, can constantly promote new product, when firm promoted new product, can issue through product issuing module promptly, at this moment, not only can show the new product of firm and service provision ability to the demander, can also snatch in real time through each module memory cell and add to product and service provision ability manifest to subsequent demand propelling movement.

The unit is cut apart into a plurality of sub-demands through the demand, cuts apart into the demand of the great quantity of user, carries out the propelling movement with the mode of the sub-demand of a plurality of quantities at demand propelling movement in-process to, can integrate scattered production resource, satisfying user's demand that can be more flexible avoids the wasting of resources.

The MES system communication mode of the platform and the complete machine manufacturer is adopted, the production state and the production capacity of the manufacturer can be known in real time, and therefore the requirement can be pushed to the manufacturer more accurately.

When a certain requirement is not received by any manufacturer, the requirement is displayed in the requirement display module, so that manufacturers who do not store in the storage unit of the whole machine module can inquire the requirement and receive the order, when the manufacturer who do not store in the storage unit of the whole machine module inquires the requirement and receives the order, the delivery of the requirement is completed, and the manufacturers are added into the storage unit of the whole machine module.

Optionally, as shown in fig. 4, the system further includes a point management module, and the point management module is configured to collect credit information of the demand module, the complete machine module, the cooperation module, and the supply module, and update a point state according to the credit information.

The point management module collects information of each module in real time, for example, information such as whether manufacturers finish the information in time or whether product quality is qualified, updates point states for users and manufacturers according to the information, and determines priority of required pushing according to the point states. For example, when the user credit is too low, the priority of user demand reception and push will be reduced. Alternatively, when a vendor's credit is too low, the priority of pushing demand to that vendor will be lowered.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A cloud-shared collaborative manufacturing platform, characterized in that: the method comprises the following steps: the system comprises a demand module, a complete machine module, a cooperation module, a supply module and a platform center module;

2. The cloud-shared collaborative manufacturing platform of claim 1, wherein: the order management module collects messages sent by the demand module, the complete machine module, the cooperation module, the supply module and the platform center module and updates the order state according to the messages sent by the demand module, the complete machine module, the cooperation module, the supply module and the platform center module.

3. The cloud-shared collaborative manufacturing platform of claim 2, wherein: the order management module generates a multi-level tree diagram according to the messages sent by the demand module, the whole machine module, the cooperation module, the supply module and the platform center module, and the multi-level tree diagram is used for representing the demand decomposition state and the demand completion progress of the user demand.

4. The cloud-shared collaborative manufacturing platform of claim 1, wherein: the whole machine module is provided with a whole machine manufacturer storage unit, and the whole machine manufacturer storage unit is used for storing whole machine manufacturer information and a product list provided by a whole machine manufacturer;

5. The cloud-shared collaborative manufacturing platform of claim 4, wherein: the system further comprises a product release module, wherein the product release module is used for collecting product release information of the whole machine manufacturer, the cooperation manufacturer and the supplier;

6. The cloud-shared collaborative manufacturing platform of claim 1, wherein: the demand module further comprises a demand segmentation unit, wherein the demand segmentation unit is used for segmenting the user demand into a plurality of sub-demands, and the sub-demands at least comprise one unit of user demand products.

7. The cloud-shared collaborative manufacturing platform of claim 6, wherein: the whole machine module is communicated with an MES system of a whole machine manufacturer, and the whole machine module is provided with an operation unit; and the operation unit acquires MES system information of the whole manufacturer, and screens qualified whole manufacturers according to the MES system information to distribute sub-requirements.

8. The cloud-shared collaborative manufacturing platform of claim 7, wherein: the system further comprises a demand display module, wherein the demand display module is used for displaying the undistributed sub-demands, collecting the order receiving information of the undistributed sub-demands and sending the order receiving information to the whole machine module.

9. The cloud-shared collaborative manufacturing platform of claim 1, wherein: the credit management module is used for collecting credit information of the demand module, the whole machine module, the cooperation module and the supply module and updating credit states according to the credit information.

10. The cloud-shared collaborative manufacturing platform of claim 1, wherein: the communication between the demand module and the user, the communication between the complete machine module and the complete machine manufacturer, the communication between the cooperation module and the cooperation manufacturer and the communication between the supply module and the supplier all adopt an asymmetric encryption mode for communication.