CN111738806A - Cloud manufacturing platform for SMT intelligent manufacturing - Google Patents

Abstract

The utility model provides a cloud manufacturing platform towards SMT intelligence is made, includes: the display layer is used for displaying an operation interface of the cloud manufacturing platform and receiving a cloud manufacturing service request input by a user; the data model layer comprises a plurality of cloud manufacturing business modules, and each cloud manufacturing business module comprises at least one of a user management module, a product module, an order module, a resource module and a task module; and the control layer is used for calling the corresponding cloud manufacturing service module according to the cloud manufacturing service request to complete the cloud manufacturing service. The cloud manufacturing platform comprises the display layer, the data model layer and the control layer, and the cloud manufacturing platform can realize interaction between a product manufacturer and a resource provider in the aspect of SMT intelligent manufacturing, so that the product manufacturer can realize personalized and customized SMT intelligent manufacturing and select a proper resource provider according to requirements, a channel participating in SMT intelligent manufacturing is provided for the resource provider, and the efficiency of SMT intelligent manufacturing is improved.

Description

Cloud manufacturing platform for SMT intelligent manufacturing

Technical Field

The utility model belongs to the technical field of cloud platform, concretely relates to platform is made to cloud towards SMT intelligence manufacturing.

Background

With the rapid development of information technology, the manufacturing industry in China and even the world is changing greatly, and the information, virtualization and service development is going to be carried out. Cloud manufacturing will become the mainstream of future manufacturing industry development, and a cloud manufacturing platform with functions of centralized management and optimized configuration of manufacturing resources is the key of a cloud manufacturing model and is widely concerned and fully recognized by the academic and industrial fields.

Cloud manufacturing is a new networked manufacturing mode which organizes online manufacturing resources (manufacturing cloud) according to user requirements by using a network and a cloud manufacturing service platform and provides various manufacturing services on demand for users. Cloud manufacturing is a new service-oriented, high-efficiency, low-consumption and knowledge-based networked intelligent manufacturing mode, and various manufacturing activity services which can be obtained at any time, used as required, safe, reliable, high-quality and low-cost can be provided for the whole manufacturing life cycle process through a network. The method can be regarded as the variation and development of advanced manufacturing modes such as network manufacturing, virtual manufacturing, manufacturing grids, Application Service Providers (ASPs), agile manufacturing and the like in the cloud computing environment, inherits the advantages of various advanced manufacturing modes, combines the characteristics of cloud computing, and makes up the existing defects and shortcomings. The cloud manufacturing technology integrates the existing network manufacturing and service technology with the technologies of cloud computing, cloud security, high-performance computing, internet of things and the like, realizes unified and centralized intelligent management and management of various manufacturing resources (manufacturing hardware equipment, computing systems, software, models, data, knowledge and the like), and provides various manufacturing activity services which can be acquired at any time, can be used as required, are safe and reliable, have high quality and are low in cost for the whole manufacturing life cycle process. Cloud manufacturing is an eco-friendly manufacturing based on the concepts of information interaction, open cooperation and mutual profit and win-win. In the cloud manufacturing ecology, a system supports enterprises and dominates supporting enterprises, and only enterprises mastering core technologies and key products can dominate other enterprises, so that the system is an ecological enterprise. The cloud enterprise develops refined professional division with the principles of removing an industrial center, removing a vertical system and removing an enterprise short board, has the advantages of raising the priority of the enterprise, avoiding the priority of the enterprise, making a product which best meets the requirements of users, providing the best service, creating a new boundary of 'organized enterprises and boundless resources' and effectively solving the resource mismatching. The cooperative manufacturing is a top enterprise cooperatively matched with the top enterprise, and cooperates with a self matching system through a network to form online cooperative design and manufacturing, cooperative experiments and the like with all the matching enterprises. But the cooperative manufacturing does not transform the ecology, and large enterprises dominate small enterprises and general enterprises dominate supporting enterprises. The intelligent manufacturing mainly realizes digitization, intellectualization, networking and economy at the levels of stations, production lines, workshops and the like, thereby improving the product quality and the economic benefit, reducing the cost and improving the market competitiveness.

Surface Mount Technology (SMT) is a new generation of electronic assembly Technology, is one of the key process technologies in modern electronic product manufacturing, is a main technical means for assembly and manufacturing of printed circuit modules in modern electronic products, and has become an important branch of modern manufacturing industry. Based on an intelligent manufacturing technology, the establishment of an efficient, agile and flexible SMT intelligent manufacturing system is a future development direction of the electronic product manufacturing industry and is an important way for improving the manufacturing capability and level of products.

However, currently, the research on the cloud manufacturing platform is still not mature enough, the architecture and the specific operation control mode of the manufacturing resources are not yet made into a definite theory, the cloud manufacturing platform is basically in a theoretical research stage, the application research aiming at various industries and production lines is not deep enough, and particularly in the field of surface package intelligent manufacturing, the cloud manufacturing platform aiming at the aspect can realize the interaction between a product manufacturer and a resource provider is not yet provided.

Disclosure of Invention

The cloud manufacturing platform aims to at least solve one of technical problems in the prior art and provides the cloud manufacturing platform for SMT intelligent manufacturing.

One aspect of the present disclosure provides a cloud manufacturing platform for SMT-oriented smart manufacturing, including:

the display layer is used for displaying an operation interface of the cloud manufacturing platform and receiving a cloud manufacturing service request input by a user;

the cloud manufacturing business module comprises at least one of a user management module, a product module, an order module, a resource module and a task module;

and the control layer is used for calling the corresponding cloud manufacturing service module according to the cloud manufacturing service request to complete the cloud manufacturing service.

Optionally, the cloud manufacturing service request includes a product entry service request input by a product manufacturing user;

and the control layer is used for calling the product module according to the product entry service request so as to enter product information, product decomposition information, manufacturing flow and manufacturing information of the product to be produced.

Optionally, the cloud manufacturing service request includes a resource entry service request input by a resource providing user;

and the control layer is used for calling the resource module according to the resource entry service request so as to enter the available resource information.

Optionally, the cloud manufacturing service request includes a resource screening service request input by a product manufacturing user;

the control layer is used for calling the order module according to the resource screening service request, screening out corresponding resource information and resource providing user information according to at least one of the product information, the product decomposition information, the manufacturing process and the manufacturing information, and sending the resource information and the resource providing user information to the display layer through the control layer for displaying.

Optionally, the cloud manufacturing service request includes a resource selection service request input by a product manufacturing user;

and the control layer is used for calling the order module according to the resource selection service request so as to select actual resources and actual resource providing users from the screened resource information and resource providing user information, and generating an order according to the actual resource information and the actual resource providing user information.

Optionally, the order module is configured to send the generated order to the task module;

the task module is used for generating a production plan according to at least one of the product information, the product decomposition information, the manufacturing process and the manufacturing information of the order, wherein the production plan comprises a production task and task time, and sends the corresponding production task to the actual resource providing user according to the task time.

Optionally, the cloud manufacturing service request includes an order information query service request input by a resource providing user or a product manufacturing user;

and the control layer is used for calling the order module according to the order information inquiry service request so as to inquire order information and sending the order information to the display layer through the control layer for displaying.

Optionally, the cloud manufacturing service request includes a production task information query service request input by a resource providing user or a product manufacturing user;

and the control layer is used for calling the task module according to the production task information inquiry service request so as to inquire the information of the production task and sending the information to the display layer through the control layer for displaying.

Optionally, the cloud manufacturing service request includes a production task information modification service request input by a resource providing user;

and the control layer is used for calling the task module according to the production task information modification service request so as to modify the state information of the generated task into any one of start, processing, pause, stop and completion.

Optionally, the order module is configured to modify order information according to the information of the production tasks, and if the status information of all the production tasks in the production plan is completed, modify the status information of the order corresponding to the production plan to be completed.

In the cloud manufacturing platform for SMT intelligent manufacturing of the disclosed embodiment, the cloud manufacturing platform for realizing interaction between a product manufacturer and a resource provider in the aspect of SMT intelligent manufacturing is realized by constructing a cloud platform structure comprising a display layer, a data model layer and a control layer, cloud manufacturing functions such as information release, manufacturing resource selection, production manufacturing progress inquiry and the like of a product to be manufactured are realized for the product manufacturer through a user management module, a product module, an order module, a resource module, a task module and the like, cloud manufacturing functions such as resource release, production manufacturing progress management and the like are realized for the resource provider, so that the product manufacturer can realize personalized and customized SMT intelligent manufacturing and select a proper resource provider according to requirements, meanwhile, a channel for participating in SMT intelligent manufacturing is provided for the resource provider, and the communication efficiency between the product manufacturer and the resource provider is improved, thereby improving the efficiency of SMT intelligent manufacturing.

Drawings

Fig. 1 is a block diagram illustrating a cloud manufacturing platform oriented to SMT smart manufacturing according to an embodiment of the present disclosure;

FIG. 2 is a block diagram of a user management module according to another embodiment of the present disclosure;

FIG. 3 is a block diagram schematic composition of a product module according to another embodiment of the present disclosure;

FIG. 4 is a block diagram schematic of the components of an order module according to another embodiment of the present disclosure;

FIG. 5 is a block diagram schematic of a resource module according to another embodiment of the present disclosure;

FIG. 6 is a block diagram schematic of the components of a task module according to another embodiment of the present disclosure;

fig. 7 is a schematic workflow diagram of a cloud manufacturing platform for SMT smart manufacturing according to another embodiment of the present disclosure;

fig. 8 is a schematic workflow diagram of a cloud manufacturing platform for SMT smart manufacturing according to another embodiment of the present disclosure.

Detailed Description

For a better understanding of the technical aspects of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

As shown in fig. 1, the present embodiment provides an SMT smart manufacturing oriented cloud manufacturing platform 100, which includes a presentation layer 110, a control layer 120, and a data model layer 130. The display layer 110 is configured to display an operation interface of the cloud manufacturing platform, and receive a cloud manufacturing service request input by a user, where interfaces displayed by the display layer are different for different types of users, as shown in the figure, for a platform administrator, a product manufacturing user, and a resource providing user, the display layer has three different display views, and in addition, the cloud manufacturing service request is a control instruction input to the cloud manufacturing platform by the user through operating the display layer, such as a product entry service request, a resource entry service request, and the like, and a person skilled in the art may also set other cloud manufacturing service requests according to actual use requirements, which is not specifically limited in this embodiment. The data model layer 130 includes a plurality of cloud manufacturing business modules, the cloud manufacturing business modules are packaged software models, and are respectively used for implementing different cloud manufacturing business functions, the cloud manufacturing business modules may include modules such as a user management module 131, a product module 132, an order module 133, a resource module 134, and a task module 135, and a person skilled in the art may also set other cloud manufacturing business modules according to actual use requirements, which is not specifically limited in this embodiment. The control layer 120 is configured to call a corresponding cloud manufacturing service module according to a cloud manufacturing service request to complete a cloud manufacturing service, as shown in the figure, a communication service module in the control layer 120 is configured to perform communication interaction with a display layer under the control of a request authorization module, receive a cloud manufacturing service request or send a display control command to the display layer, a static page module in the control layer 120 controls the display layer 110 to display a static page meeting different parameters under the action of a parameter verification module, a service logic processing module in the control layer 120 is configured to call a corresponding cloud manufacturing service module in a data model layer according to the cloud manufacturing service request, and control the display layer to display a corresponding view page through the communication service module and the static page module according to corresponding information fed back by the cloud manufacturing service module, and an exception handling module in the control layer 120 is configured to handle an exception condition in a control process, the operation of the cloud manufacturing platform can be stopped aiming at the abnormality or the operation such as early warning can be sent out.

For example, in this embodiment, a platform administrator inputs a cloud manufacturing service request through a platform administrator function view in the display layer 110, a product manufacturing user inputs a cloud manufacturing service request through a product manufacturing user function view in the display layer 110, a resource providing user inputs a cloud manufacturing service request through a resource providing user function view in the display layer 110, the cloud manufacturing service requests are all transmitted to the control layer 120 through a communication service module in the control layer 120, the control layer 120 calls a corresponding cloud manufacturing service module in the data model layer 130 through a service logic processing module according to the received cloud manufacturing service request, and the cloud manufacturing service module responds to the call of the control layer to implement a corresponding cloud manufacturing service function, thereby implementing each service function of the cloud manufacturing platform. Under the condition of requirement, the cloud manufacturing service module in the data model layer 130 returns corresponding information to be displayed to the service logic processing module in the control layer 120, the service logic processing module controls the communication service module to send the corresponding information to the display layer 110 through the request authorization module after processing, and meanwhile, the service logic processing module drives the static page module to control the display layer 110 to realize corresponding view display through the parameter verification module, so that the display feedback function of the cloud manufacturing platform is realized.

In the cloud manufacturing platform for SMT intelligent manufacturing in the embodiment of the disclosure, by constructing a cloud platform structure comprising a display layer, a data model layer and a control layer, the cloud manufacturing platform capable of realizing interaction between a product manufacturer and a resource provider in the aspect of SMT intelligent manufacturing is realized, and corresponding cloud manufacturing functions are realized for the product manufacturer and the resource provider through cloud manufacturing service modules such as a user management module, a product module, an order module, a resource module, a task module and the like, so that the product manufacturer can realize personalized and customized SMT intelligent manufacturing and select a proper resource provider according to requirements, a channel participating in SMT intelligent manufacturing is provided for the resource provider, the communication efficiency between the product manufacturer and the resource provider is improved, and the efficiency of SMT intelligent manufacturing is improved.

The specific structure of the cloud manufacturing platform will be further explained in conjunction with fig. 2 to 6.

As shown in fig. 2, the user management module 131 in the data model layer 130 is mainly used for managing user information of the cloud manufacturing platform, and the user management module is configured with different functional modules for three different user types, namely, a platform administrator, a resource providing user, and a product manufacturing user. For the platform administrator, the user management module 131 is configured with a user registration login module, a user information management module and a user type management module, the user registration login module is used for inputting registration information of the resource providing user and the product manufacturing user and verifying whether the login information is correct, the user information management module is used for managing user information of the resource providing user and the product manufacturing user, the user information management module includes information such as a user name, login information and user basic conditions, and the user type management module is used for managing user types, and the user types mainly refer to the resource providing user and the product manufacturing user. For the resource providing user and the product manufacturing user, the user management module 131 is respectively configured with a user login module for entering user login information and a user information modification module for entering modified user information.

Specifically, in this embodiment, because the cloud manufacturing platform in this implementation mainly aims at SMT smart manufacturing, product manufacturing users mainly refer to SMT manufacturing users, resource providing users mainly refer to users who provide resources required in the SMT manufacturing process, for example, the resource providing users may be further divided into three user types according to the types of resources provided by the resource providing users, which are respectively component types, function types, and material types, and the resources provided by the component resource providing users cannot implement any function themselves, but may be combined with the function manufacturing resources to become a part of the function resources or be controlled by the function resources, such as components such as resistors and capacitors, and various tools. The functional resource providing users comprise SMT production line providers, mold manufacturers, product integrators, testing service providers, assembly service providers and the like, such as AOI detection machine providers and the like, and the resources provided by the functional resource providing users are active, autonomous and autonomously decision-making resources, such as devices packaged through networking and intellectualization. The material resources provided by the user mainly refer to raw materials of articles, such as soldering paste and the like. If the resource providing user can provide multiple different resources, the user information can be respectively marked as multiple, for example, a certain resource providing user can provide both material resources and component resources, and the resource providing user can be marked as a material resource providing user and a component resource providing user through the user type management module. The platform administrator can further perform type management on the three types of resource providing users through the user type management module, and judge whether the resources in the cloud manufacturing platform are distributed evenly or not through counting and analyzing the number of the three types of resource providing users on the cloud manufacturing platform.

As shown in fig. 3, the product module 132 in the data model layer 130 is mainly used for managing product information entered by a product manufacturing user of the cloud manufacturing platform, and includes a product information management module, a product decomposition information management module, a manufacturing process management module, and a manufacturing information management module.

Illustratively, in the present embodiment, the cloud manufacturing service request includes a product entry service request input by a product manufacturing user, and the control layer 120 calls the product module 132 according to the product entry service request to enter at least one of product information, product decomposition information, manufacturing flow and manufacturing information of a product to be manufactured.

The product information management module is used for entering and managing product information of a product to be produced according to a product entry service request, for example, information such as a product name, a composition structure, a parameter index and the like, and it should be noted that in order to facilitate formulation of a personalized production manufacturing process, the product needs to be decomposed, so that respective manufacturing of each composition structure and related process flows such as assembly, welding and the like are realized, and therefore, a product manufacturing user needs to enter the composition structure of the product through the product information management module. The product decomposition information management module is used for inputting and managing the decomposition information of the product to be produced according to the product input service request, namely, the information aiming at each composition structure, the name of each composition structure, the parameter index, the function description and the like are further input and managed according to the composition structure of the product. The manufacturing process management module is used for inputting and managing manufacturing processes of products to be produced and composition structures corresponding to the manufacturing processes according to the product input service request, namely manufacturing and manufacturing process steps, such as solder paste printing, part mounting, reflow soldering, AOI optical detection and the like aiming at SMT, composition structures correspondingly produced after solder paste printing, composition structures correspondingly produced after part mounting and the like. The manufacturing information management module is used for inputting and managing manufacturing information of the product to be produced according to the product inputting business request, namely corresponding to the manufacturing flow, and recording specific requirements of each step of the production and manufacturing process, such as requirements on solder paste in solder paste printing in SMT, process requirements in printing and the like.

As shown in fig. 5, the resource module 134 in the data model layer 130 is used to enter and manage resource information of the cloud manufacturing platform, and includes a component resource management module, a function resource management module, a material resource management module, and a resource statistics management module.

Illustratively, in this embodiment, the cloud manufacturing service request includes a resource entry service request input by a resource providing user, and the control layer 120 calls the resource module 134 according to the resource entry service request to enter available resource information.

The component resource management module, the function resource management module and the material resource management module are respectively used for inputting and managing information of the component resources, the function resources and the material resources according to the resource input service request, for example, inputting and managing information such as the model, parameters and quantity of the chip to be mounted which can be provided. The statistical resource management module is used for counting information statistics conditions of resources on the cloud manufacturing platform, such as quantity statistics of three types of resources and the like, and a platform administrator can master resource distribution conditions in the cloud manufacturing platform in real time through statistics and analysis.

As shown in fig. 4, the order module 133 in the data model layer 130 is used for managing order information of the cloud manufacturing platform and implementing order interaction operations, and includes an order management module, an order query module, an order detail query module, a resource screening module, an order progress management module, and an order statistics module.

For example, in this embodiment, the cloud manufacturing service request includes a resource screening service request input by a product manufacturing user, and the control layer 120 invokes the order module 133 according to the resource screening service request, so as to screen out corresponding resource information and resource providing user information according to at least one of product information, product decomposition information, manufacturing process and manufacturing information, and send the resource information and resource providing user information to the display layer through the control layer for display.

Illustratively, in this embodiment, the screening process is implemented by a resource screening module in the order module 133. The resource screening module is used for screening qualified resource information and resource providing user information according to a resource screening service request input by a product manufacturing user, for example, screening qualified mounting process resource providing users according to component mounting in a manufacturing process and requirements on a mounting process in corresponding manufacturing information, and meanwhile, obtaining component information such as resistors, capacitors, chips and the like to be mounted according to product information and product decomposition information, and screening qualified mounting component resource providing users, or screening qualified AOI optical detection equipment and corresponding optical detection service resource providing users according to AOI optical detection in the manufacturing process and requirements on AOI optical detection parameters in corresponding manufacturing information. After the screening is completed, the resource screening module in the order module 133 forms a resource information list and a resource providing user information list from the results obtained by the screening, and sends the resource information list and the resource providing user information list to the display layer through the control layer for displaying.

For example, in this embodiment, the cloud manufacturing service request includes a resource selection service request input by a product manufacturing user, and the control layer 120 invokes the order module 133 according to the resource selection service request, so as to select an actual resource and an actual resource providing user from the screened resource information and resource providing user information, and generate an order according to the actual resource information and the actual resource providing user information corresponding to the actual resource and the actual resource providing user information.

For example, in the present embodiment, the above-mentioned function of generating an order is implemented by an order management module in the order module 133. The order management module is used for generating an order and managing order information, wherein the order information includes, for example, an order number, an order name, product information required to be manufactured by the order, product decomposition information, manufacturing flow and manufacturing information, order creation time, order required completion time, order state information, and the like. And the order management module obtains the object selected by the product manufacturing user from the screened resource information list and the resource providing user information list according to the resource selection service request input by the product manufacturing user, so as to obtain the actual resource and the actual resource providing user, and the actual resource providing user are brought into the order information to jointly generate the order by combining with other order information. After the order is generated, the order management module can be used for a platform administrator to manage order information, and the convenience of using the cloud manufacturing platform is improved. In addition, the order management module is further used for sending the generated order to the task module, so that the task module can generate a production plan according to the generated order.

For example, in this embodiment, the cloud manufacturing service request includes an order information query service request input by a resource providing user or a product manufacturing user, and the control layer 120 invokes the order module 133 according to the order information query service request to query information of an order, and sends the information of the order to the display layer through the control layer for display.

For example, in this embodiment, the order query module and the order detail query module in the order module 133 implement the above function of querying an order. The order inquiry module is used for inquiring the service request according to the order information input by the resource providing user or the product manufacturing user, inquiring the order information, returning an order list meeting the conditions according to the inquiry conditions input by the user, and sending the order list to the display layer through the control layer for displaying, for example, if the user inputs an order number, the order inquiry module inquires the order meeting the number information, forms the order into a list and sends the list to the display layer through the control layer for displaying. The order detail query module is used for querying a service request according to the details of order information input by a resource providing user or a product manufacturing user, and continuously querying the order detail information meeting query conditions, that is, after the order list meeting query conditions is obtained by the order query module, the order detail query module is used for further querying the detail information of any order in the list, such as the product information required to be manufactured by the order, the order creation time and the like, and sending the detail information to the display layer through the control layer for display. Both the product manufacturing user and the resource providing user can master the processing progress of the order in real time by inquiring the order, thereby mastering the finishing progress of the SMT intelligent manufacturing.

For example, in this embodiment, the order counting module is mainly used for counting information of orders, so that a platform administrator can count and analyze various situations of the orders of the current cloud manufacturing platform, for example, the quantity of the orders that are not started, the quantity of the orders that are completed, and the like, thereby mastering the use frequency and the operation situation of the cloud manufacturing platform.

For example, in this embodiment, the cloud manufacturing service request includes an order information modification service request input by a resource providing user or a product manufacturing user, and the control layer 120 invokes the order module 133 according to the order information modification service request to modify the non-state information of the order, and sends the non-state information to the display layer through the control layer for display. It should be noted that the status information of the order is modified by the order progress management module, and the order information is not all modifiable information, for example, the order creation time is determined according to the order generation time and is not modifiable, and the non-status information of the modified order in this embodiment refers to modifiable information, such as the order name.

For example, in this embodiment, the order module 133 is configured to modify the order information according to the information of the production tasks, and if the status information of all the production tasks in the production plan is completed, modify the status information of the order corresponding to the production plan to be completed.

For example, in the present embodiment, the order status information modification function is implemented by an order progress management module in the order module 133. The order progress management module is used for inquiring and managing order status information, the order status information is information used for representing order status in the order information and comprises the information of not starting, completed and the like, after the order is generated, the order status information is configured to be not starting, after a resource providing user confirms to start the order, the order status information can be modified to be started through the order progress management module, after the order starts, the order management module calls task status information of the order, and when the status information of all production tasks in the production plan is judged to be completed, the order status information of the order corresponding to the production plan is modified to be completed, so that a product manufacturing user can judge the harvest period of a product according to the completion status of the order.

As shown in fig. 6, the task module 135 in the data model layer 130 is used for managing task information in the cloud manufacturing platform and implementing interaction operations of tasks, and includes a task allocation module, a task query module and a task progress management module. Illustratively, the task information includes production plan information, task state information, actual resource information of the task to be completed, and corresponding order information of the actual resource providing user and the task, where the production plan information includes production content information and corresponding production time information, the task state information refers to a progress situation of the task, and includes state information of start, processing, pause, stop, completed, and the like, and a person skilled in the art may set the task information according to the actual situation, and in this embodiment, no specific limitation is imposed.

For example, in the present embodiment, the order module 133 is configured to send the generated order to the task module 135, and the task module 135 is configured to generate a production plan according to at least one of the product information, the product decomposition information, the manufacturing flow and the manufacturing information of the order, where the production plan includes a production task and a task time, and send the corresponding production task to the actual resource providing user according to the task time.

Illustratively, in the present embodiment, the above functions of generating the production plan and assigning tasks are implemented by the task assigning module in the task module 135. The task allocation module is configured to generate a production plan according to the received order product information, the product decomposition information, the manufacturing process and the manufacturing information, that is, generate task content and corresponding task time, for example, obtain a step of a production process and a corresponding work period according to the manufacturing process, obtain resources required by each production process according to the manufacturing information, obtain a product component or a resource required by each production process according to the product decomposition information, obtain a final produced output product according to the product information, and unify information of the step, the resource, the work period and the like to obtain production plan information. After the production plan generation is completed, the corresponding production task and task time are sent to the actual resource providing user before the task time starts.

For example, in this embodiment, the cloud manufacturing service request includes a production task information query service request input by a resource providing user or a product manufacturing user, and the control layer 120 invokes the task module 135 according to the production task information query service request to query information of a production task, and sends the information of the production task to the presentation layer through the control layer for display.

Illustratively, in the present embodiment, the task query module in the task module 135 implements the above-mentioned task query function. And the task query module is used for querying the service request according to the production task information, querying the task information, returning a task list meeting the query condition according to the query condition input by the user, and sending the task list to the display layer through the control layer for displaying.

Illustratively, in this embodiment, the cloud manufacturing service request includes a production task information modification service request input by the resource providing user, and the control layer 120 is configured to invoke the task module 135 according to the production task information modification service request to modify the state information of the generated task to any one of start, in-process, pause, stop, and completed.

Illustratively, in the present embodiment, the task status information modification function is implemented by a task progress management module in the task module 135. The task progress management module is used for modifying the state information of the task according to the production task information modification service request, and the generated progress is reflected in the cloud manufacturing platform in real time through modification of the state information, so that a product manufacturing user can master the current task progress state in real time, the upstream and downstream related resource providing users can arrange production work of the users according to the current task progress state, a platform administrator can timely supervise the resource providing users to complete the task content of the users, the information interaction efficiency among multiple parties is improved, and the production efficiency is improved.

For example, in the present embodiment, the cloud manufacturing platform further includes a database (not shown) for storing the logging data and the generated process data received during the operation of the cloud manufacturing platform.

The workflow of the cloud manufacturing platform will be further explained in conjunction with fig. 7 and 8. It should be noted that the interaction between the presentation layer and the data model layer is implemented by a control layer, which is not shown in fig. 7 and 8.

As shown in fig. 7, a product manufacturing user inputs a product manufacturing user login service request through a product manufacturing user function view of a cloud manufacturing platform display layer, a control layer calls a user management module according to the request to verify whether user input login information conforms to user registration information pre-stored in a database, if so, the login is successful, the product manufacturing user can input other cloud manufacturing service requests, and if not, the login is failed, and the product manufacturing user cannot input other cloud manufacturing service requests. As shown in FIG. 8, the resource providing user login process is similar to the product manufacturing user login process and will not be described herein.

As shown in fig. 7, after the login is successful, the product manufacturing user may further input a product entry service request, the control layer invokes the product module according to the product entry service request, and the product module enters the product information, the product decomposition information, the manufacturing process, and the manufacturing information of the product to be manufactured, which are input by the user, into the database for storage, where it is to be noted that the product information, the product decomposition information, the manufacturing process, and the manufacturing information are included in the product entry service request.

As shown in fig. 8, after the login is successful, the resource providing user may further input a resource entry service request, the control layer calls the resource module according to the resource entry service request, and the resource module enters the available resource information input by the user into the database for storage, it should be noted that the available resource information is included in the resource entry service request and is marked according to the component class, the function class and the material class, so as to facilitate the later-stage call of the corresponding resource information from the database according to the classification mark.

As shown in fig. 7, after the product entry is completed, the product manufacturing user may further input a resource screening service request, the control layer invokes the order module according to the resource screening service request, the order module invokes the stored resource information from the database according to at least one of the product information, the product decomposition information, the manufacturing process, and the manufacturing information, and screens out resource information that meets the screening conditions, and provides corresponding resource information and resource providing user information, and sends the resource providing user information to the display layer through the control layer for display, so that the product manufacturing user can quickly find resource information that meets the manufacturing requirements of the product manufacturing user, where it needs to be noted that the screening conditions are included in the resource screening service request.

As shown in fig. 7, after the resource screening is completed, the product manufacturing user may further input a resource selection service request, select a resource and a resource providing user actually required by the product manufacturing user, the control layer invokes the order module according to the resource selection service request, the order module further selects an actual resource and an actual resource providing user from the screened resource information and resource providing user information according to the selection information of the product manufacturing user, it should be noted that the selection information is included in the resource selection service request, when the order module selects an actual resource and an actual resource providing user, it means that the product manufacturing user completes the resource configuration of the product to be produced, at this time, the order module generates an order according to the actual resource information and the actual resource providing user information, except for the actual resource information and the actual resource providing user information, the order also includes other order information, for example, the order number, the order name, the product information required to be manufactured by the order, the product decomposition information, the manufacturing process and manufacturing information, the order creation time, the order required completion time, the order state information and the like, after the order is generated, the order state information is configured to be not started, and then the order module sends the generated order information to the database for storage.

As shown in fig. 7, after the order is successfully generated, the order module sends the generated order to the database for storage, and simultaneously sends the order to the task module, the task module generates a production plan according to the order information, that is, at least one of the product information, the product decomposition information, the manufacturing flow and the manufacturing information, that is, generates a production task and a corresponding task time, and simultaneously, the task module sends the corresponding production task and the task time to the actual resource providing user before the task time starts.

As shown in fig. 7 and 8, after the order is successfully generated, both the resource providing user and the product manufacturing user can input an order information query service request, the control layer invokes an order module according to the order information query service request, the order module invokes order information from the database to query information of the order, and forms a list of the returned order information, and sends the list to the resource providing user function view or the product manufacturing user function view of the display layer through the control layer for display. In addition, the resource providing user and the product manufacturing user can input order information modification service requests, the control layer calls the order module according to the order information modification service requests, the order module modifies the order information according to the modification requirements of the user, it needs to be stated that the modification requirements are included in the order information modification service requests, and then the order module records the modified order information into a database for storage and sends the modified order information to the display layer through the control layer for display. After the order is generated, the resource providing user can inquire out the order which is not started through the order information inquiry function, and the order state information is modified into the started order through the order information modification function, which indicates that the corresponding production task is started.

As shown in fig. 8, after the order starts, the resource providing user receives the production task content and the task time sent by the task module, and performs the corresponding production manufacturing work accordingly, after the production task content is completed, the resource providing user can input a production task information modification service request, the control layer calls the task module according to the production task information modification service request, the task module modifies the order information according to the modification requirement, mainly to modify the state information of the production task, that is, to modify the production task into any one of start, processing, pause, stop, and completed according to the task completion progress, it needs to be noted that the modification requirement is included in the order information modification service request. When the resource providing user modifies the task state information into the completed task state information, the task content is completed on behalf of the resource providing user, and the cloud manufacturing platform can remind the downstream resource providing user of developing the next production task content.

As shown in fig. 7 and 8, both the resource providing user and the product manufacturing user can input a production task information query service request, the control layer calls the task module according to the production task information query service request, the task module calls out task information from the database to query information of a production task, forms a list of returned task information, and sends the list to the resource providing user function view or the product manufacturing user function view of the display layer through the control layer for display.

As shown in fig. 8, the order module periodically calls the task state information, when the state information of all production tasks in the production plan is completed, the state information of the order corresponding to the production plan is modified to be completed, and the product manufacturing user can query the order state through the order information query function, as shown in fig. 7, after receiving the product, the product manufacturing user can judge whether the product meets the requirement of the product, evaluate the service according to the condition, input the service evaluation business request, and the controller calls the order module to record the service evaluation information into the database, so that the cloud manufacturing process of the SMT intelligent manufacturing of the current time is completed.

In the cloud manufacturing platform facing SMT intelligent manufacturing in the embodiment of the disclosure, the functions of user login and registration information management and user information modification are realized through the user management module; the product module is used for realizing the function of inputting product information by a product manufacturing user, and the product information, the product decomposition information, the manufacturing flow and the manufacturing information of a product to be produced are input, so that the product manufacturing user can customize the personalized product manufacturing flow, and the order module is used for selecting resources and resources meeting the product manufacturing requirements of the user to provide the user, thereby realizing the personalization of resource selection; the resource module is used for realizing the function of inputting the available resources by a resource providing user, and aiming at the intelligent manufacture of SMT, the input resources are respectively identified by the classification of component class, function class and material class, so that the product manufacturing user can quickly find the needed resources according to the classification, and the resource query and selection efficiency is improved; in addition, the product manufacturing user and the resource providing user can inquire and modify order information through the order module, the order module can also automatically inquire the production task state and judge the state of the order according to the production task state, so that the automatic monitoring of the order state is realized, the product manufacturing user can input product service evaluation through the order module, namely, the interaction function of the product manufacturing user and the resource providing user for confirming the cloud manufacturing cooperation relationship is realized through the order module; the resource providing users can modify the task state information through the task module, and the product manufacturing users and the resource providing users can inquire the task information through the task module to realize the function of feeding back and communicating the completion progress of the production task in real time. In addition, a platform administrator can manage and count user information, product information, order information, resource information and task information through the functions of management statistics and the like in the user management module, the product module, the order module, the resource module and the task module, and can conveniently know the distribution situation of resources on the cloud manufacturing platform and the operation situation of the cloud manufacturing platform. According to the cloud manufacturing platform in the embodiment, the interaction function between the product manufacturing user and the resource providing user is realized through the functional modules, a platform for butt joint of requirements and resources is provided for both sides, the communication efficiency is improved, and therefore the SMT intelligent manufacturing efficiency is improved.

Unless otherwise specifically stated, technical or scientific terms used in the present disclosure shall have the ordinary meaning as understood by those of ordinary skill in the art to which the present disclosure belongs. The use of "including" or "comprising" and the like in this disclosure does not limit the referenced shapes, numbers, steps, actions, operations, members, elements and/or groups thereof, nor does it preclude the presence or addition of one or more other different shapes, numbers, steps, actions, operations, members, elements and/or groups thereof or those. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number and order of the technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present disclosure, "a plurality" means two or more unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

It is to be understood that the above embodiments are merely exemplary embodiments that are employed to illustrate the principles of the present disclosure, and that the present disclosure is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the disclosure, and these are to be considered as the scope of the disclosure.

Claims (10)

1. The utility model provides a cloud manufacturing platform towards SMT intelligence is made which characterized in that includes:

the display layer is used for displaying an operation interface of the cloud manufacturing platform and receiving a cloud manufacturing service request input by a user;

the cloud manufacturing business module comprises at least one of a user management module, a product module, an order module, a resource module and a task module;

and the control layer is used for calling the corresponding cloud manufacturing service module according to the cloud manufacturing service request to complete the cloud manufacturing service.

2. The cloud manufacturing platform of claim 1, wherein the cloud manufacturing business request comprises a product entry business request entered by a product manufacturing user;

and the control layer is used for calling the product module according to the product entry service request so as to enter product information, product decomposition information, manufacturing flow and manufacturing information of the product to be produced.

3. The cloud manufacturing platform of claim 2, wherein the cloud manufacturing business request comprises a resource entry business request entered by a resource providing user;

and the control layer is used for calling the resource module according to the resource entry service request so as to enter the available resource information.

4. The cloud manufacturing platform of claim 3, wherein the cloud manufacturing service request comprises a resource screening service request input by a product manufacturing user;

the control layer is used for calling the order module according to the resource screening service request, screening out corresponding resource information and resource providing user information according to at least one of the product information, the product decomposition information, the manufacturing process and the manufacturing information, and sending the resource information and the resource providing user information to the display layer through the control layer for displaying.

5. The cloud manufacturing platform of claim 4, wherein the cloud manufacturing business request comprises a resource selection business request entered by a product manufacturing user;

and the control layer is used for calling the order module according to the resource selection service request so as to select actual resources and actual resource providing users from the screened resource information and resource providing user information, and generating an order according to the actual resource information and the actual resource providing user information.

6. The cloud manufacturing platform of claim 5,

the order module is used for sending the generated order to the task module;

the task module is used for generating a production plan according to at least one of the product information, the product decomposition information, the manufacturing process and the manufacturing information of the order, wherein the production plan comprises a production task and task time, and sends the corresponding production task to the actual resource providing user according to the task time.

7. The cloud manufacturing platform of claim 6, wherein the cloud manufacturing business request comprises an order information query business request input by a resource providing user or a product manufacturing user;

and the control layer is used for calling the order module according to the order information inquiry service request so as to inquire order information and sending the order information to the display layer through the control layer for displaying.

8. The cloud manufacturing platform of claim 7, wherein the cloud manufacturing service request comprises a production task information query service request input by a resource providing user or a product manufacturing user;

and the control layer is used for calling the task module according to the production task information inquiry service request so as to inquire the information of the production task and sending the information to the display layer through the control layer for displaying.

9. The cloud manufacturing platform of claim 8, wherein the cloud manufacturing service request comprises a production task information modification service request input by a resource providing user;

and the control layer is used for calling the task module according to the production task information modification service request so as to modify the state information of the generated task into any one of start, processing, pause, stop and completion.

10. The cloud manufacturing platform of claim 9,

and the order module is used for modifying the order information according to the information of the production tasks, and if the state information of all the production tasks in the production plan is completed, modifying the state information of the order corresponding to the production plan into the completed state information.

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