CN117787677A - Cloud manufacturing execution system and method based on cloud service - Google Patents

Abstract

The invention discloses a cloud manufacturing execution system based on cloud service and a manufacturing execution method thereof, comprising a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module, a safety backup module and a service interface module; according to the method, the automation degree of a production process is greatly improved through an automatic production plan, equipment control, quality control and material management module, so that the production efficiency and the resource utilization rate are improved, the production problem is responded quickly, the production plan is optimized, the downtime is reduced, the product quality is monitored through a sensor, meanwhile, the data analysis reporting module analyzes the production process data, traceability and continuous improvement are supported, the product quality and process optimization are improved, the inventory level is tracked in real time, the timeliness of material supply is ensured, and meanwhile, the supply chain coordination module coordinates material purchasing and supply chain activities and optimizes the supply chain efficiency through interaction with suppliers.

Description

Cloud manufacturing execution system and method based on cloud service

Technical Field

The invention relates to the technical field of cloud manufacturing execution systems, in particular to a cloud manufacturing execution system based on cloud service and a manufacturing execution method thereof.

Background

The cloud manufacturing execution system is a system for providing services for manufacturing industry by utilizing cloud computing technology, aims to realize comprehensive monitoring, management and optimization of manufacturing process through advanced technologies such as integrated information technology, data analysis and Internet of things, integrates the manufacturing industry and the information technology, and provides a more intelligent, flexible and efficient production management solution for enterprises.

Generally, conventional cloud manufacturing execution schemes generally rely on manual operations and local management, the degree of automation is relatively low, processes such as production planning, equipment control, quality detection and the like require more manual intervention, production efficiency is low, the capability of real-time monitoring and remote management is lacking, production managers and staff cannot timely acquire real-time state information of a production line, problems of quick response and adjustment of the production planning are caused, deep analysis of production process data is difficult, a management layer cannot make decisions based on the data, continuous improvement and optimization of a production flow cannot be realized, efficiency is low in material management and supply chain coordination, and meanwhile, manual tracking of inventory, material flow and communication with suppliers causes material shortage or production interruption.

In summary, there is a need to provide a cloud manufacturing execution system and a manufacturing execution method thereof based on cloud services to solve the above problems.

Disclosure of Invention

The invention aims to provide a cloud manufacturing execution system based on cloud service and a manufacturing execution method thereof, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a cloud manufacturing execution system based on cloud service comprises a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module, a safe backup module and a service interface module,

the user interface module is used for user identity verification;

the production plan scheduling module is used for production plan management and resource scheduling;

the equipment control module is used for controlling and monitoring equipment states;

the quality control module is used for quality detection and quality data analysis;

the material management module is used for inventory management and coordination of a supply chain;

the data analysis reporting module is used for data acquisition, analysis and reporting;

the safety backup module is used for system safety management, data backup and recovery;

the service interface module is used for interacting with a cloud service provider and comprises a cloud service interface unit;

the cloud service interface unit is used for interacting with a cloud service provider, managing connection and communication between the system and the cloud platform, and ensuring that the system can fully utilize cloud computing resources.

Preferably, the user interface module, the production plan scheduling module, the equipment control module, the quality control module, the material management module, the data analysis report module, the safety backup module and the service interface module are in communication connection;

the user interface module is connected with the production plan scheduling module in a bidirectional way, a user places a production order, inquires a production plan and monitors a manufacturing process through the user interface module, and the production plan scheduling module provides real-time production states, plan information and reports for the user interface;

the production plan scheduling module is connected with the equipment control module in a bidirectional way, the production plan scheduling module transmits a production plan and scheduling tasks to the equipment control module, and meanwhile, the equipment control module feeds back equipment states and execution conditions to the production plan scheduling module to perform real-time production scheduling and resource optimization;

the equipment control module is connected with the quality control module in a one-way, the equipment control module transmits the running state of the equipment to the quality control module, and quality detection parameters are adjusted according to the performance of the equipment so as to ensure quality detection under the optimal condition;

the equipment control module is in bidirectional connection with the material management module, and the equipment control module acquires information about raw materials and parts through communication with the material management module, so that materials required in the manufacturing process are timely supplied;

the quality control module is connected with the data analysis report module in a bidirectional way, transmits the quality detection data to the data analysis report module, analyzes the data in real time, generates a quality report and supports quality improvement decision;

the material management module is connected with the data analysis reporting module in a one-way, and provides information about stock and a material supply chain for the data analysis reporting module so as to support data analysis and report generation;

the system comprises a safety backup module, a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module and a service interface module, wherein the safety backup module is in charge of regularly backing up system data so as to protect the data safety, communicate with all the modules and ensure the normal operation of the backup and recovery functions of the system;

the service interface module is in one-way connection with the cloud service, and the service interface module is communicated with the cloud service to realize connection between the system and the cloud platform, and fully utilizes cloud computing resources, including storage, computation and analysis.

Preferably, the user interface module further comprises a user interface unit and an authentication unit;

the user interface unit is used for interacting with a user, providing a graphical user interface or a command line interface, enabling the user to send instructions, monitor the manufacturing process and acquire related information;

the identity verification unit is used for user identity verification and authority management, and ensures that only authorized personnel can access specific functions of the system.

Preferably, the production plan scheduling module further comprises a production plan management unit and a resource scheduling unit;

the production plan management unit is used for receiving, analyzing and processing production orders, work orders and scheduling tasks and providing a production plan for the manufacturing process;

the resource scheduling unit schedules according to the production plan and the resource availability, and allocates equipment, manpower and material resources to achieve optimal production efficiency.

Preferably, the device control module further comprises a device interface unit and a remote monitoring unit

The device interface unit is used for communicating with the manufacturing device and supporting a standardized communication protocol so as to control and monitor the state of the device;

the remote monitoring unit is used for monitoring the running state of the equipment in real time, collecting the temperature, pressure and speed data of the equipment and providing real-time feedback.

Preferably, the quality control module comprises a quality detection unit and a quality data analysis unit;

the quality detection unit performs quality inspection on the product through a sensor and a detection technology, so that the product is ensured to accord with standards and specifications;

the quality data analysis unit is used for analyzing and recording quality data, supporting traceability and continuous improvement and being used for quality feedback and production process optimization.

Preferably, the material management module comprises an inventory management unit and a supply chain coordination unit;

the inventory management unit is used for managing the inventory of raw materials and parts, tracking the flow and the inventory level of materials and ensuring the timely supply of materials required in the manufacturing process;

the supply chain coordination unit coordinates material purchase and supply chain activity through interaction with suppliers to ensure timely delivery of materials and optimize supply chain efficiency.

Preferably, the data analysis reporting module comprises a data acquisition unit and a data analysis and reporting unit;

the data acquisition unit is used for collecting data from each module, including production, quality and equipment status, and summarizing and integrating the data;

the data analysis and reporting unit is used for analyzing, visualizing and generating reports on the data and helping the management layer to make decisions and optimize the manufacturing flow.

Preferably, the security backup module comprises a security management unit and a data backup and recovery unit;

the security management unit is used for ensuring the security of the system, including access control, data encryption and bug repair, so as to prevent unauthorized access and data leakage;

the data backup and recovery unit is used for regularly backing up system data so as to prevent data loss or quick recovery of the data when the system fails.

The cloud manufacturing execution method based on the cloud service comprises the following steps:

s1, a customer submits an order of a customized electronic product through an online platform, the system receives order information, and order requirements including product specifications and quantity are automatically analyzed;

s2, according to the received order information, the system automatically generates a production plan, and the system optimizes the scheduling in consideration of the availability of equipment, manpower and raw materials, so that the high-efficiency utilization of resources is ensured, and the production period is reduced;

s3, the production plan is transmitted to an equipment control module, an automatic production line is started, an equipment control system monitors the running state of equipment in real time, and the production speed is automatically adjusted and the production flow is optimized;

s4, monitoring the quality of the product by a quality control module through a sensor in the production process, immediately marking the unqualified product, feeding the unqualified product back to a production line, and triggering and adjusting or stopping the production;

s5, the material management system tracks the stock level of raw materials and parts in real time, and when the stock is lower than a set threshold value, the system automatically triggers the coordination of a supply chain and automatic replenishment, so that continuous production is ensured;

s6, collecting data generated in each production stage, transmitting the data to a data analysis module, extracting key information by the data analysis module through a machine learning algorithm and a statistical method, and providing decision support for the optimization of the production process;

s7, monitoring the running state of the production line in real time by a production manager through a cloud platform, and allowing a manager to adjust and intervene in the production process by a remote management tool, such as modifying a production plan or suspending a specific task;

s8, the system adopts a safe encryption technology to ensure the safety of data transmission and storage, and periodically performs data backup to prevent data loss and ensure the reliability of the system;

s9, collecting customer feedback, integrating the customer feedback into the production process, and periodically evaluating the performance of the system, so that the overall manufacturing execution efficiency is improved by continuously improving the flow and adopting a new technology.

Compared with the prior art, the invention has the beneficial effects that: according to the method, the automation degree of a production process is greatly improved through an automatic production plan, equipment control, quality control and a material management module, so that the production efficiency and the resource utilization rate are improved, the running state of a production line and a remote management tool are monitored in real time through a cloud platform to regulate and intervene, the production problem is responded quickly, the production plan is optimized, the downtime is reduced, the product quality is monitored through a sensor, the product meets the standard, meanwhile, a data analysis reporting module analyzes production process data, traceability and continuous improvement are supported, the product quality and process optimization are improved, inventory level is tracked in real time, timeliness of material supply is ensured, meanwhile, a supply chain coordination module coordinates material purchasing and supply chain activity through interaction with a provider, the supply chain efficiency is optimized, a safe encryption technology is adopted, the safety of data transmission and storage is ensured, meanwhile, data backup is regularly conducted, so that data loss or system faults are prevented, the reliability of a system is improved, a graphical user interface and an identity verification function are provided, a user can interact with the system, only authorized personnel can access specific functions of the system are ensured, the safety of the system is enhanced, the cloud interface module is used, the cloud resource and the cloud resource service interface is interacted with the service, the service resource is fully provided, the cloud resource is utilized, and the cloud resource is fully required and the cloud resource is fully utilized.

Drawings

FIG. 1 is a diagram of a cloud manufacturing execution system based on cloud services according to the present invention;

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present invention provides a technical solution:

a cloud manufacturing execution system based on cloud service comprises a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module, a safe backup module and a service interface module,

the user interface module is used for user identity verification;

the production plan scheduling module is used for production plan management and resource scheduling;

the equipment control module is used for controlling and monitoring equipment states;

the quality control module is used for quality detection and quality data analysis;

the material management module is used for inventory management and coordination of a supply chain;

the data analysis reporting module is used for data acquisition, analysis and reporting;

the safety backup module is used for system safety management, data backup and recovery;

the service interface module is used for interacting with a cloud service provider and comprises a cloud service interface unit;

the cloud service interface unit is used for interacting with a cloud service provider, managing connection and communication between the system and the cloud platform, and ensuring that the system can fully utilize cloud computing resources.

Further, the user interface module, the production plan scheduling module, the equipment control module, the quality control module, the material management module, the data analysis report module, the safety backup module and the service interface module are in communication connection;

the user interface module is connected with the production plan scheduling module in a bidirectional way, a user places a production order, inquires a production plan and monitors a manufacturing process through the user interface module, and the production plan scheduling module provides real-time production states, plan information and reports for the user interface;

the production plan scheduling module is connected with the equipment control module in a bidirectional way, the production plan scheduling module transmits a production plan and scheduling tasks to the equipment control module, and meanwhile, the equipment control module feeds back equipment states and execution conditions to the production plan scheduling module to perform real-time production scheduling and resource optimization;

the equipment control module is connected with the quality control module in a one-way, the equipment control module transmits the running state of the equipment to the quality control module, and quality detection parameters are adjusted according to the performance of the equipment so as to ensure quality detection under the optimal condition;

the equipment control module is in bidirectional connection with the material management module, and the equipment control module acquires information about raw materials and parts through communication with the material management module, so that materials required in the manufacturing process are timely supplied;

the quality control module is connected with the data analysis report module in a bidirectional way, transmits the quality detection data to the data analysis report module, analyzes the data in real time, generates a quality report and supports quality improvement decision;

the material management module is connected with the data analysis reporting module in a one-way, and provides information about stock and a material supply chain for the data analysis reporting module so as to support data analysis and report generation;

the system comprises a safety backup module, a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module and a service interface module, wherein the safety backup module is in charge of regularly backing up system data so as to protect the data safety, communicate with all the modules and ensure the normal operation of the backup and recovery functions of the system;

the service interface module is in one-way connection with the cloud service, and the service interface module is communicated with the cloud service to realize connection between the system and the cloud platform, and fully utilizes cloud computing resources, including storage, computation and analysis.

Further, the user interface module further comprises a user interface unit and an identity verification unit;

the user interface unit is used for interacting with a user, providing a graphical user interface or a command line interface, enabling the user to send instructions, monitor the manufacturing process and acquire related information;

the identity verification unit is used for user identity verification and authority management, and ensures that only authorized personnel can access specific functions of the system.

Further, the production plan scheduling module further comprises a production plan management unit and a resource scheduling unit;

the production plan management unit is used for receiving, analyzing and processing production orders, work orders and scheduling tasks and providing a production plan for the manufacturing process;

the resource scheduling unit schedules according to the production plan and the resource availability, and allocates equipment, manpower and material resources to achieve optimal production efficiency.

Further, the device control module further comprises a device interface unit and a remote monitoring unit

The device interface unit is used for communicating with the manufacturing device and supporting a standardized communication protocol so as to control and monitor the state of the device;

the remote monitoring unit is used for monitoring the running state of the equipment in real time, collecting the temperature, pressure and speed data of the equipment and providing real-time feedback.

Further, the quality control module comprises a quality detection unit and a quality data analysis unit;

the quality detection unit performs quality inspection on the product through a sensor and a detection technology, so that the product is ensured to accord with standards and specifications;

the quality data analysis unit is used for analyzing and recording quality data, supporting traceability and continuous improvement and being used for quality feedback and production process optimization.

Further, the material management module comprises an inventory management unit and a supply chain coordination unit;

the inventory management unit is used for managing the inventory of raw materials and parts, tracking the flow and the inventory level of materials and ensuring the timely supply of materials required in the manufacturing process;

the supply chain coordination unit coordinates material purchase and supply chain activity through interaction with suppliers to ensure timely delivery of materials and optimize supply chain efficiency.

Further, the data analysis reporting module comprises a data acquisition unit and a data analysis and reporting unit;

the data acquisition unit is used for collecting data from each module, including production, quality and equipment status, and summarizing and integrating the data;

the data analysis and reporting unit is used for analyzing, visualizing and generating reports on the data and helping the management layer to make decisions and optimize the manufacturing flow.

Further, the safety backup module comprises a safety management unit and a data backup and recovery unit;

the security management unit is used for ensuring the security of the system, including access control, data encryption and bug repair, so as to prevent unauthorized access and data leakage;

the data backup and recovery unit is used for regularly backing up system data so as to prevent data loss or quick recovery of the data when the system fails.

The cloud manufacturing execution method based on the cloud service comprises the following steps:

s1, a customer submits an order of a customized electronic product through an online platform, the system receives order information, and order requirements including product specifications and quantity are automatically analyzed;

s2, according to the received order information, the system automatically generates a production plan, and the system optimizes the scheduling in consideration of the availability of equipment, manpower and raw materials, so that the high-efficiency utilization of resources is ensured, and the production period is reduced;

s3, the production plan is transmitted to an equipment control module, an automatic production line is started, an equipment control system monitors the running state of equipment in real time, and the production speed is automatically adjusted and the production flow is optimized;

s4, monitoring the quality of the product by a quality control module through a sensor in the production process, immediately marking the unqualified product, feeding the unqualified product back to a production line, and triggering and adjusting or stopping the production;

s5, the material management system tracks the stock level of raw materials and parts in real time, and when the stock is lower than a set threshold value, the system automatically triggers the coordination of a supply chain and automatic replenishment, so that continuous production is ensured;

s6, collecting data generated in each production stage, transmitting the data to a data analysis module, extracting key information by the data analysis module through a machine learning algorithm and a statistical method, and providing decision support for the optimization of the production process;

s7, monitoring the running state of the production line in real time by a production manager through a cloud platform, and allowing a manager to adjust and intervene in the production process by a remote management tool, such as modifying a production plan or suspending a specific task;

s8, the system adopts a safe encryption technology to ensure the safety of data transmission and storage, and periodically performs data backup to prevent data loss and ensure the reliability of the system;

s9, collecting customer feedback, integrating the customer feedback into the production process, and periodically evaluating the performance of the system, so that the overall manufacturing execution efficiency is improved by continuously improving the flow and adopting a new technology.

Examples

The cloud manufacturing execution system based on cloud service comprises a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module, a safety backup module and a service interface module;

the following description is needed:

the service interface module comprises a cloud service interface unit, wherein the cloud service interface unit is used for interacting with a cloud service provider, managing the connection and communication between the system and the cloud platform, and ensuring that the system can fully utilize cloud computing resources;

the user interface module also comprises a user interface unit and an identity verification unit, wherein the user interface unit is used for interacting with a user and providing a graphical user interface or a command line interface so that the user can send instructions, monitor the manufacturing process and acquire related information, and the identity verification unit is used for user identity verification and authority management and ensures that only authorized personnel can access specific functions of the system;

the production plan scheduling module also comprises a production plan management unit and a resource scheduling unit, wherein the production plan management unit is used for receiving, analyzing and processing production orders, work orders and scheduling tasks, providing a production plan for the manufacturing process, and the resource scheduling unit schedules according to the production plan and resource availability and distributes equipment, manpower and material resources to realize optimal production efficiency;

the equipment control module also comprises an equipment interface unit and a remote monitoring unit, wherein the equipment interface unit is used for communicating with the manufacturing equipment, supports a standardized communication protocol to control and monitor the equipment state, and the remote monitoring unit is used for monitoring the equipment running state in real time, collecting equipment temperature, pressure and speed data and providing real-time feedback;

the quality control module comprises a quality detection unit and a quality data analysis unit, the quality detection unit performs quality inspection on the product through a sensor and a detection technology, the product is ensured to accord with standards and specifications, the quality data analysis unit is used for analyzing and recording quality data, and traceability and continuous improvement are supported and used for quality feedback and production process optimization;

the material management module comprises an inventory management unit and a supply chain coordination unit, wherein the inventory management unit is used for managing the inventory of raw materials and parts, tracking the flow and inventory level of the materials, ensuring the timely supply of the materials required in the manufacturing process, and the supply chain coordination unit coordinates the purchase of the materials and the movement of a supply chain through interaction with a supplier so as to ensure the timely delivery of the materials and optimize the efficiency of the supply chain;

the data analysis reporting module comprises a data acquisition unit and a data analysis and reporting unit, wherein the data acquisition unit is used for collecting data from each module, including production, quality and equipment state, summarizing and integrating, and the data analysis and reporting unit is used for analyzing, visualizing and generating reports on the data and helping a management layer to make decisions and optimize manufacturing processes;

the safety backup module comprises a safety management unit and a data backup and recovery unit, wherein the safety management unit is used for ensuring the safety of the system and comprises access control, data encryption and vulnerability restoration so as to prevent unauthorized access and data leakage, and the data backup and recovery unit is used for periodically backing up the system data so as to prevent the data from being lost or to quickly recover the data when the system fails.

The cloud manufacturing execution method based on the cloud manufacturing execution system specifically comprises the following steps:

s1, a customer submits an order of a customized electronic product through an online platform, the system receives order information, and order requirements including product specifications and quantity are automatically analyzed;

s2, according to the received order information, the system automatically generates a production plan, and the system optimizes the scheduling in consideration of the availability of equipment, manpower and raw materials, so that the high-efficiency utilization of resources is ensured, and the production period is reduced;

s3, the production plan is transmitted to an equipment control module, an automatic production line is started, an equipment control system monitors the running state of equipment in real time, and the production speed is automatically adjusted and the production flow is optimized;

s4, monitoring the quality of the product by a quality control module through a sensor in the production process, immediately marking the unqualified product, feeding the unqualified product back to a production line, and triggering and adjusting or stopping the production;

s5, the material management system tracks the stock level of raw materials and parts in real time, and when the stock is lower than a set threshold value, the system automatically triggers the coordination of a supply chain and automatic replenishment, so that continuous production is ensured;

s6, collecting data generated in each production stage, transmitting the data to a data analysis module, extracting key information by the data analysis module through a machine learning algorithm and a statistical method, and providing decision support for the optimization of the production process;

s7, monitoring the running state of the production line in real time by a production manager through a cloud platform, and allowing a manager to adjust and intervene in the production process by a remote management tool, such as modifying a production plan or suspending a specific task;

s8, the system adopts a safe encryption technology to ensure the safety of data transmission and storage, and periodically performs data backup to prevent data loss and ensure the reliability of the system;

s9, collecting customer feedback, integrating the customer feedback into the production process, and periodically evaluating the performance of the system, so that the overall manufacturing execution efficiency is improved by continuously improving the flow and adopting a new technology.

In summary, the system greatly improves the automation degree of the production process through an automatic production plan, equipment control, quality control and material management module, thereby improving the production efficiency and the resource utilization rate, monitoring the running state of the production line in real time through a cloud platform and adjusting and intervening by a remote management tool, quickly responding to the production problem, optimizing the production plan, reducing the downtime, monitoring the product quality through a sensor, and ensuring that the product meets the standard;

meanwhile, the data analysis reporting module analyzes production process data, supports traceability and continuous improvement, improves product quality and process optimization, tracks inventory level in real time, ensures timeliness of material supply, and simultaneously, the supply chain coordination module coordinates material purchase and supply chain activity through interaction with suppliers, optimizes supply chain efficiency, adopts a safe encryption technology, ensures safety of data transmission and storage, and simultaneously regularly performs data backup so as to prevent data loss or system failure, improve reliability of the system, provide a graphical user interface and an identity verification function, enable a user to easily interact with the system, ensure that only authorized personnel can access specific functions of the system, enhance the safety of the system, interact with cloud service providers through the service interface module, fully utilize cloud computing resources, realize elastic expansion and resource optimization, and adapt to different production requirements.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (10)

1. The cloud manufacturing execution system based on cloud service comprises a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module, a safety backup module and a service interface module, and is characterized in that:

the user interface module is used for user identity verification;

the production plan scheduling module is used for production plan management and resource scheduling;

the equipment control module is used for controlling and monitoring equipment states;

the quality control module is used for quality detection and quality data analysis;

the material management module is used for inventory management and coordination of a supply chain;

the data analysis reporting module is used for data acquisition, analysis and reporting;

the safety backup module is used for system safety management, data backup and recovery;

the service interface module is used for interacting with a cloud service provider and comprises a cloud service interface unit;

the cloud service interface unit is used for interacting with a cloud service provider, and managing connection and communication between the system and the cloud platform.

2. The system according to claim 1, wherein:

the system comprises a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module, a safety backup module and a service interface module, wherein the user interface module, the production plan scheduling module, the equipment control module, the quality control module, the material management module, the data analysis report module and the safety backup module are in communication connection;

the user interface module is connected with the production plan scheduling module in a bidirectional way, a user places a production order, inquires a production plan and monitors a manufacturing process through the user interface module, and the production plan scheduling module provides real-time production states, plan information and reports for the user interface;

the production plan scheduling module is connected with the equipment control module in a bidirectional way, the production plan scheduling module transmits a production plan and scheduling tasks to the equipment control module, and the equipment control module feeds back equipment states and execution conditions to the production plan scheduling module;

the equipment control module is connected with the quality control module in a unidirectional way, and transmits the running state of the equipment to the quality control module;

the equipment control module is in bidirectional connection with the material management module, and the equipment control module acquires information about raw materials and parts through communication with the material management module, so that materials required in the manufacturing process are timely supplied;

the quality control module is connected with the data analysis report module in a bidirectional way, transmits the quality detection data to the data analysis report module, analyzes the data in real time, generates a quality report and supports quality improvement decision;

the material management module is connected with the data analysis reporting module in a one-way, and provides information about stock and a material supply chain for the data analysis reporting module so as to support data analysis and report generation;

the system comprises a safety backup module, a user interface module, a production plan scheduling module, an equipment control module, a quality control module, a material management module, a data analysis report module and a service interface module, wherein the safety backup module is in charge of regularly backing up system data so as to protect the data safety, communicate with all the modules and ensure the normal operation of the backup and recovery functions of the system;

the service interface module is in one-way connection with the cloud service, and the service interface module is communicated with the cloud service to realize connection between the system and the cloud platform, and fully utilizes cloud computing resources, including storage, computation and analysis.

3. The system according to claim 2, wherein:

the user interface module further comprises a user interface unit and an identity verification unit;

the user interface unit is used for interacting with a user;

the identity verification unit is used for user identity verification and authority management.

4. A system according to claim 3, characterized in that:

the production plan scheduling module also comprises a production plan management unit and a resource scheduling unit;

the production plan management unit is used for receiving, analyzing and processing production orders, work orders and scheduling tasks;

the resource scheduling unit schedules according to the production plan and the resource availability.

5. The system according to claim 4, wherein:

the device control module also comprises a device interface unit and a remote monitoring unit

An interface for communicating with the manufacturing apparatus;

the remote monitoring unit is used for monitoring the running state of the equipment in real time.

6. The system according to claim 5, wherein:

the quality control module comprises a quality detection unit and a quality data analysis unit;

the quality detection unit performs quality inspection on the product through a sensor and a detection technology;

the quality data analysis unit is used for analyzing and recording quality data.

7. The system according to claim 6, wherein:

the material management module comprises an inventory management unit and a supply chain coordination unit;

the stock management unit is used for managing stock of raw materials and parts;

the supply chain coordination unit interacts with the suppliers.

8. The system according to claim 7, wherein:

the data analysis reporting module comprises a data acquisition unit and a data analysis and reporting unit;

the data acquisition unit is used for collecting data from each module;

the data analysis and reporting unit is used for analyzing, visualizing and generating reports on the data.

9. The system according to claim 8, wherein:

the safety backup module comprises a safety management unit and a data backup and recovery unit;

the safety management unit is used for ensuring the safety of the system;

the data backup and recovery unit is used for periodically backing up system data.

10. The cloud service-based cloud manufacturing execution method according to any one of claims 1 to 9, comprising the steps of:

s1, a customer submits an order of a customized electronic product through an online platform, the system receives order information, and order requirements including product specifications and quantity are automatically analyzed;

s2, according to the received order information, the system automatically generates a production plan, and the system optimizes the scheduling in consideration of the availability of equipment, manpower and raw materials, so that the high-efficiency utilization of resources is ensured, and the production period is reduced;

s3, the production plan is transmitted to an equipment control module, an automatic production line is started, an equipment control system monitors the running state of equipment in real time, and the production speed is automatically adjusted and the production flow is optimized;

s4, monitoring the quality of the product by a quality control module through a sensor in the production process, immediately marking the unqualified product, feeding the unqualified product back to a production line, and triggering and adjusting or stopping the production;

s5, the material management system tracks the stock level of raw materials and parts in real time, and when the stock is lower than a set threshold value, the system automatically triggers the coordination of a supply chain and automatic replenishment, so that continuous production is ensured;

s6, collecting data generated in each production stage, transmitting the data to a data analysis module, extracting key information by the data analysis module through a machine learning algorithm and a statistical method, and providing decision support for the optimization of the production process;

s7, monitoring the running state of the production line in real time by a production manager through a cloud platform, and allowing a manager to adjust and intervene in the production process by a remote management tool, such as modifying a production plan or suspending a specific task;

s8, the system adopts a safe encryption technology to ensure the safety of data transmission and storage, and periodically performs data backup to prevent data loss and ensure the reliability of the system;

s9, collecting customer feedback, integrating the customer feedback into the production process, and periodically evaluating the performance of the system, so that the overall manufacturing execution efficiency is improved by continuously improving the flow and adopting a new technology.