CN116757607A - Factory production management system of GPGPU platform - Google Patents

Abstract

The application discloses a factory production management system of a GPGPU platform, which belongs to the technical field of production and comprises a main control center, an order management unit, a production management unit, a quality control management unit and an inventory management unit, wherein the main control center comprises an input module, a sampling inspection and review module, a signal transmission module, an information storage module and an output module, and the order management unit comprises an order input module, an order confirmation module and an order output module. Through carrying out unified supervision to during and before the production, the rear end to the mill production, improve mill production supervision efficiency, improve production efficiency, the quality inspection supervision to the mill production product is more strict simultaneously, through raw materials and personnel supervision when producing the mill, can improve the efficiency to mill staff management to select qualified production raw materials, further improve mill product production treatment, simultaneously, when carrying out the stock to the production product, accessible stock management unit improves the mastery to the mill stock, thereby improves mill stock management efficiency.

Description

Factory production management system of GPGPU platform

Technical Field

The application relates to the technical field of production, in particular to a factory production management system of a GPGPU platform.

Background

Production refers to activities and processes of creating social wealth, including creation of material wealth and spirit wealth and self-fertility of people, also called social production, for example, when some factories produce some specific products, in order to improve production efficiency, production scale is often enlarged to improve production efficiency, and as production scale is enlarged, difficulty in controlling production process is also increased, such as personnel and material allocation, distribution of production tasks and quality control of products during production and after production, and as video monitoring technology and some sensor technology are improved, more and more factories monitor production of factories by adopting monitoring equipment or some sensor auxiliary manual work, and the single monitoring mode cannot link the monitoring of the production process before and after production and can not lead to the monitoring of the production process of the factories in place.

Disclosure of Invention

The application aims to provide a factory production management system of a GPGPU platform, which improves factory production supervision efficiency and production efficiency by uniformly supervising factory production and front and rear ends of production, and meanwhile, quality inspection supervision of factory production products is more strict, so that the problem that the factory production process supervision is not in place due to the fact that a single supervision mode proposed in the background technology cannot be used for linking the front and rear steps of production is solved.

In order to achieve the above purpose, the present application provides the following technical solutions: the production management system comprises a main control center, an order management unit, a production management unit, a quality control management unit and an inventory management unit, wherein the main control center comprises an input module, a spot check review module, a signal transmission module, an information storage module and an output module, the order management unit comprises an order input module, an order confirmation module and an order output module, the production management unit comprises an order receiving module, a production planning module, a personnel scheduling module, a raw material scheduling module, a process management module and a quality management module, the quality management unit comprises a raw material management module, a process supervision module, a finished product quality inspection module and a warehouse-in spot check module, the inventory management unit comprises a warehouse-in management module, a spot check module and a warehouse-out management module, the main control center is respectively connected with the order management unit, the production management unit, the quality control management unit and the inventory management unit through signals, the order management unit, the quality control management unit and the inventory management unit are all connected with each other through local area network signals, and the production management unit is provided with a plurality of GPGPU chip adjustable cameras.

As a further scheme of the application: the input module of the main control center is configured to input management information, when the production order is input into the management system through the input module, the main control center transmits the order to the order management unit, the order management unit scans and reads the order information, the model number and the quantity of the products required to be produced by the production order are defined, the main control center is configured as a control center of the whole system, and the internal constituent units of the system are controlled through the main control center, wherein the priority of the main control center is higher than that of the constituent units.

As still further aspects of the application: the order management unit is configured to be a pre-production order management module, when the main control center inputs a production order into the order management unit through the input module, receives the order through the order input module, confirms whether the order is wrong through the order confirmation module in the order management unit, transmits order information into the order output module if the order is wrong, prepares to output the order, feeds back the order input module to carry out order secondary check if the order is wrong, and is configured to be a factory order receiving and processing unit, wherein the order management unit is provided with a plurality of grade accounts, the grade accounts are respectively controlled by sales personnel and sales management personnel, after the sales personnel obtain the order, the order information is uploaded through the personal terminal and checked by the sales management personnel, the order information can be recorded and traced while the order input is completed, the sales performance of the sales personnel is convenient to be counted while the order information is ensured to be true and reliable, and the management efficiency of the factory is further improved.

As still further aspects of the application: and after the order is confirmed to be correct by the order confirming module in the order management unit, transmitting the production order to the production management unit through the order output module, receiving order information through the order receiving module after the order is received by the production management unit, and making a production plan according to the order information.

As still further aspects of the application: and when the production planning module makes the production plan, the production planning module needs to check the earlier production plan so as to avoid the conflict of the production plan.

As still further aspects of the application: when the sound field plan is formulated, the production management unit schedules production staff through a staff scheduling module according to a production plan, schedules a staff scheduling table, schedules production raw materials through a raw material scheduling module, ensures raw material quality and raw material supply, starts production after the production staff and the production raw materials are scheduled, monitors the production process through a process management module in the production process, ensures that the production process is error-free, and checks daily production plan completion conditions according to the production plan when the production process management module manages the production process.

As still further aspects of the application: when the product is produced, quality detection, including quantitative detection and spot check, is carried out on the produced product through a quality management module in the production management unit, so that the production quality of the product is ensured, wherein the quality management module comprises a plurality of cameras with GPGPU chips, and remote quality control can be realized.

As still further aspects of the application: and after the product is produced, warehousing and preserving the product through an inventory management unit, wherein the produced product counts the model number and the quantity of the product through a warehousing management module, and meanwhile, when the product is stored, the inventory product is subjected to spot check through a spot check module, and when the product needs to be delivered out of warehouse, the delivery operation of the inventory product is completed through a delivery management module.

Compared with the prior art, the application has the beneficial effects that: according to the application, the production supervision efficiency of the factory is improved by uniformly supervising the middle and front and rear ends of the factory, the production efficiency is improved, meanwhile, the quality inspection supervision of the factory production products is more strict, meanwhile, the management efficiency of factory staff can be improved by supervising the raw materials and staff during factory production, qualified production raw materials are screened, the production treatment of the factory products is further improved, and meanwhile, the inventory management unit can improve the grasping degree of factory inventory when the production products are in stock, so that the factory inventory management efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a system architecture of the present application;

FIG. 2 is a schematic diagram of a system configuration of a master control center according to the present application;

FIG. 3 is a schematic diagram of a system architecture of an order management unit according to the present application;

FIG. 4 is a schematic diagram of a system architecture of a production management unit according to the present application;

FIG. 5 is a schematic diagram of a system structure of a quality management unit according to the present application;

FIG. 6 is a schematic diagram of a system architecture of an inventory management unit according to the present application.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", "one end", "one side", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

Inter-production data management: the production digital management system can collect, analyze and manage production data, including production plan, production progress, production quality and other data, and is favorable to enterprises to understand production conditions and analyze production trend, so as to provide data support for production decision.

And (3) automatic production control: the production digital management system can realize real-time monitoring and control of the production process through automatic equipment and sensors, so that human intervention and misoperation are reduced, and the production efficiency and quality stability are improved.

Resource optimization configuration: the production digital management system can realize the optimal configuration of production resources, including resources such as manpower, materials, equipment and the like by analyzing production data and simulating a production process, thereby improving the utilization rate of the resources and the production efficiency.

Supply chain collaborative management: the production digital management system can realize the collaborative management and optimization of all links in a supply chain, including order management, logistics management, inventory management and the like, so as to realize the collaborative and optimization of the whole production process.

Intelligent predictive analysis: the production digital management system can predict and early warn the problems possibly occurring in the production process through the data analysis and prediction model, so that measures are taken in advance, and the production risk is reduced.

The production digital management system of the factory has a plurality of advantages, but has the defects of high initial investment cost, because the production digital management system of the factory needs to purchase hardware equipment, software systems, network equipment and the like, and the cost of the equipment is relatively high and the initial investment is relatively large. Along with the continuous development and progress of technology, the technology for producing the digital management system is also continuously updated, and the technology needs to be continuously updated and upgraded, so that the updating cost is also increased.

Meanwhile, the production digital management system of the workshop has strong dependence on technology and system, and once the system fault or technical problem occurs, the production and management work of enterprises can be seriously affected. In the aspect of security risk of the digital production management system, the digital production management system collects a large amount of production data and information, and if security measures are improper, security risks such as information leakage, hacking and the like can be caused. Finally, in personnel training cost, the production digital management system needs professional technicians to manage and operate, enterprises need to train staff, and training cost is high. Therefore, the enterprises need to balance the advantages and disadvantages when selecting the production digital management system, select the system suitable for the enterprises, and strengthen the safety management and personnel training to overcome the disadvantages of the system.

The production digital management system of the factory can assist a manufacturing enterprise to realize the effectiveness and efficiency of the whole production process management through an automation and informatization technology, and improves the production management level and quality. To realize production management, the production digital management system can be implemented by the following main modes:

factory production plan management: the production digital management system can help enterprises to make and execute production plans, including plan scheduling, production task allocation, production progress tracking and the like. The production schedule can be timely adjusted by monitoring the production progress in real time, so that the production task is guaranteed to be completed on time.

Production data acquisition and analysis: the production digital management system can realize automatic collection and analysis of production data, including equipment operation data, process data, personnel data and the like, and can find bottlenecks and problems in the production process through data analysis so as to process in time and improve production efficiency and quality.

And (3) production quality management: the production digital management system can help enterprises to realize automatic control and management of production quality, including product detection, defective product treatment, quality tracking and the like. The quality problem can be found in time by monitoring the product quality in real time, and measures are taken to prevent the quality problem from expanding.

And (3) device management: the production digital management system can help enterprises to realize automatic monitoring and management of equipment, including equipment running state monitoring, equipment maintenance planning and execution, equipment fault diagnosis and the like. Through equipment management, normal operation of equipment can be guaranteed, and equipment failure rate and downtime are reduced.

Workshop production cost management: the production digital management system can help enterprises to realize real-time monitoring and management of production cost, including raw material purchasing cost, labor cost, equipment cost and the like. Through cost management, the production cost can be controlled, and the profitability of enterprises can be improved. Therefore, the application provides a factory production management system based on a GPGPU platform, which increases the process and result management during engineering production through the image processing of a general graphics processor. The concrete implementation content is as follows:

referring to fig. 1 to 6, in an embodiment of the present application, a factory production management system of a GPGPU platform includes a main control center, an order management unit, a production management unit, a quality control management unit and an inventory management unit, where the main control center includes an input module, a sampling inspection review module, a signal transmission module, an information storage module and an output module, the order management unit includes an order input module, an order confirmation module and an order output module, the production management unit includes an order receiving module, a production planning module, a personnel scheduling module, a raw material scheduling module, a process management module and a quality management module, the quality management unit includes a raw material management module, a process supervision module, a finished product quality inspection module and a warehouse-in sampling inspection module, the inventory management unit includes a warehouse-in management module, a sampling inspection module and a warehouse-out management module, the main control center is respectively connected with the order management unit, the production management unit, the quality control management unit and the inventory management unit through signals, and the order management unit, the production management unit, the quality control management unit and the inventory management unit are all connected with each other through a local area network.

Referring to fig. 1, in the present embodiment, the production management unit is configured with a plurality of adjustable cameras with GPGPU chips, and when monitoring the production process of the factory, the quality of the product in the production process is controlled by monitoring the production process of the factory through the plurality of cameras.

The adjustable cameras with the GPGPU chips are all installed in a factory production workshop, and the adjustable cameras with the GPGPU chips can conduct full-coverage monitoring on the production process.

The input module of the main control center is configured to manage information input, when a production order is input into the management system through the input module, the main control center transmits the order to the order management unit, and the order management unit scans and reads the order information to clearly determine the types and the quantity of products required to be produced by the production order.

Referring to fig. 1 and 2, in this embodiment, the master control center is configured as a control center of the entire system, and the control center controls the internal constituent units of the system, where the priority of the master control center is higher than that of the constituent units.

The order management unit is configured to be a pre-production order management module, when the main control center inputs a production order into the order management unit through the input module, the order is received through the order input module, whether the order is wrong or not is confirmed through the order confirmation module in the order management unit, if the order is wrong, order information is transmitted into the order output module, the order is ready to be output, and if the order is wrong, the order input module is fed back to perform order secondary check.

Referring to fig. 1 and 3, in this embodiment, the order management unit is configured as a factory order receiving and processing unit, where the order management unit places a plurality of class accounts, and the class accounts are respectively controlled by sales personnel and sales management personnel, and after the sales personnel obtains an order, the sales personnel uploads order information through a personal terminal and checks the order information by the sales management personnel, and when the order is input, the order information can be recorded and traced, so that the sales performance of the sales personnel can be conveniently counted while the order information is ensured to be real and reliable, and the management efficiency of the factory is further improved.

After the order confirmation module in the order management unit confirms that the order is correct, the order output module is used for transmitting the production order to the production management unit, and after the production management unit receives the order, the order receiving module is used for receiving order information and making a production plan according to the order information.

The master control center is a management layer, and can manage and monitor the implementation layer according to different resources provided by different rights utilization systems. The server is used as a central processing unit for processing and interacting data required by the whole system. The mobile network communication and the Internet communication are used as data inquiry and remote management of the management layer, and can send required data to different users of the multi-level management terminal and receive setting instructions of the different users of the multi-level management terminal at any time according to the requirements.

When the system is put into use, the image is operated and processed mainly by a general-purpose image processor, wherein the essence of the image processor is that of the image processor.

Even though digital signal processing seemingly using a general-purpose graphics processor does not take advantage of its graphics processing capabilities, the graphics nature of such devices has fundamental impact on signal processing in imaging devices, radar, sonar, signal intelligence, and other devices that perform complex calculations. The explanation for this is that applying a general purpose graphics processor to signal processing runs the graphics card in reverse. Franklin, a general purpose graphics processor may be used to parse things to obtain information that is available, delivering useful materials in the surrounding environment. General purpose graphics processors are adept at accomplishing two things, one is to represent things and the other is to parse things.

The general graphic processor provides available graphic processing technology for the designer of military signal processing application system, and has very great embedded parallel processing capacity almost free. The growth of general-purpose graphics processors in aerospace and defense applications is an example of the use of off-the-shelf commercial technology in the military technology field. Franklin states that the primary use of graphics processors is still graphics processing, and while graphics processor manufacturers struggle in computer games for billions of dollars, companies such as NVIDIA incur a cost of 20 billions of dollars per development of a series of graphics processors. Now, not only the application field of the general-purpose graphic processor chip is extended from a single graphic processing apparatus to a signal processing apparatus, but also the software programming language of the general-purpose graphic processor is extended toward signal processing and general-purpose processing. Graphics processing languages like "open graphics library" can be used for general purpose processing.

Referring to fig. 1 and 4, in this embodiment, the production management unit is configured as a master control unit at the production end of the factory, and when the production management unit receives order information, a production plan is formulated according to the order information, wherein when the production plan is specified, the current order progress, the current personnel number, the stock number of the products of the order model, the order delivery time and other aspects of india need to be considered, and meanwhile, the scheduling of the production personnel and the raw materials is performed according to the production plan.

The production planning module makes a production plan according to the number, model and date requirements of the ordered products, and when the production planning module makes the production plan, the production planning module needs to check the earlier production plan so as to avoid the conflict of the production plan.

When the sound field plan is formulated, the production management unit schedules production personnel through the personnel scheduling module according to the production plan, schedules a production personnel scheduling table, simultaneously schedules production raw materials through the raw material scheduling module, ensures raw material quality and raw material supply, starts production after the production personnel and the production raw materials are scheduled, monitors the production process through the process management module in the production process, ensures that the production process is free of errors, and checks daily production plan completion conditions according to the production plan when the production process management module manages the production process.

When the product is produced, quality detection, including quantitative detection and spot check, is carried out on the produced product through a quality management module in the production management unit, and the production quality of the product is ensured, wherein the quality management module comprises a plurality of cameras with GPGPU chips, and remote quality control can be realized.

Referring to fig. 1 and 5, in the present embodiment, the quality management unit is configured as a quality management unit for factory production products, wherein the quality management unit includes quality detection of production raw materials, quality detection in the production process, process quality spot check in different production steps, and detection and spot check of finished products.

When the production management unit performs quality detection management, if unqualified products are found, recording is performed, and problems of a manufacturer providing unqualified raw materials, an unqualified production process, probability of unqualified products and the like are recorded, so that unqualified reasons can be conveniently and subsequently checked and improved, and unqualified reasons can be removed while quality supervision of factory production products is completed, so that the yield of factory production products is improved.

And after the products are produced, warehousing and preserving the products through an inventory management unit, wherein the produced products are counted in model numbers and quantity through a warehousing management module, and meanwhile, when the products are stored, the inventory products are subjected to spot check through a spot check module, and when the products need to be delivered out of warehouse, the delivery operation of the inventory products is completed through a delivery management module.

As a carrier of advanced workshop management technology, the system plays a great role in helping manufacturing enterprises to realize digitization, intellectualization, networking and the like of production:

1. all events occurring in the production process are collected in real time through tracking the whole production flow from material production to finished product warehouse entry, so that the whole factory workshop is completely transparent.

2. The original manual input process is changed, accurate, timely and rapid data feedback is achieved, human input errors are avoided, more importantly, on-site production personnel are concentrated on business operation, and working efficiency is improved.

3. The product becomes clear and transparent in the whole production process, the reason for the quality problem is quickly found, the quality bottleneck problem is solved by making a countermeasure, the product quality is traced, and the quality cost is reduced.

4. And the tool/tool warehouse can quickly prepare the types and the quantity of the required tools, thereby being accurate and convenient.

5. The method is characterized by recording and monitoring the completion conditions of production procedures and processing tasks in real time, and timely discovering and improving problems in the execution process through a comprehensive statistical information query function of a system under the conditions of personnel working efficiency, labor productivity, equipment utilization, product percent of pass, rejection rate and the like.

6. Advanced technical reserves are provided for the integrated design and manufacture of enterprises, and the enterprises are supported to implement lean production and lean management.

In summary, the system can realize the following subsystems and functions:

workshop production data management: the production digital management system can collect, analyze and manage production data, including production plan, production progress, production quality and other data, and is favorable to enterprises to understand production conditions and analyze production trend, so as to provide data support for production decision.

And (3) automatic production control: the production digital management system can realize real-time monitoring and control of the production process through automatic equipment and sensors, so that human intervention and misoperation are reduced, and the production efficiency and quality stability are improved.

Resource optimization configuration: the production digital management system can realize the optimal configuration of production resources, including resources such as manpower, materials, equipment and the like by analyzing production data and simulating a production process, thereby improving the utilization rate of the resources and the production efficiency.

Supply chain collaborative management: the production digital management system can realize the collaborative management and optimization of all links in a supply chain, including order management, logistics management, inventory management and the like, so as to realize the collaborative and optimization of the whole production process.

Intelligent predictive analysis: the production digital management system can predict and early warn the problems possibly occurring in the production process through the data analysis and prediction model, so that measures are taken in advance, and the production risk is reduced.

The foregoing is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art, who is within the scope of the present application, should make equivalent substitutions or modifications according to the technical scheme of the present application and the inventive concept thereof, and should be covered by the scope of the present application.

Claims (8)

1. The factory production management system of the GPGPU platform comprises a main control center, an order management unit, a production management unit, a quality control management unit and an inventory management unit, and is characterized in that: the main control center comprises an input module, a spot check and review module, a signal transmission module, an information storage module and an output module, wherein the order management unit comprises an order input module, an order confirmation module and an order output module, the production management unit comprises an order receiving module, a production planning module, a personnel scheduling module, a raw material scheduling module, a process management module and a quality management module, the quality management unit comprises a raw material management module, a process supervision module, a finished product quality check module and a warehouse entry spot check module, the inventory management unit comprises a warehouse entry management module, a spot check module and a warehouse exit management module, the main control center is respectively in signal connection with the order management unit, the production management unit, the quality control management unit and the inventory management unit through the signal transmission module, and the order management unit, the production management unit, the quality control management unit and the inventory management unit are mutually connected through local area networks.

2. The GPGPU platform factory production management system of claim 1, wherein: the input module of the main control center is configured to manage information input, when the production order is input into the management system through the input module, the main control center transmits the order to the order management unit, and the order management unit scans and reads the order information to determine the product model and the quantity required to be produced by the production order.

3. The GPGPU platform factory production management system of claim 1, wherein: the order management unit is configured to be a pre-production order management module, when the main control center inputs a production order into the order management unit through the input module, the order is received through the order input module, whether the order is wrong or not is confirmed through the order confirmation module in the order management unit, if the order is wrong, order information is transmitted into the order output module, the order is ready to be output, and if the order is wrong, the order input module is fed back to perform order secondary check.

4. The GPGPU platform factory production management system of claim 1, wherein: and after the order is confirmed to be correct by the order confirming module in the order management unit, transmitting the production order to the production management unit through the order output module, receiving order information through the order receiving module after the order is received by the production management unit, and making a production plan according to the order information.

5. The GPGPU platform factory production management system of claim 1, wherein: and when the production planning module makes the production plan, the production planning module needs to check the earlier production plan so as to avoid the conflict of the production plan.

6. The GPGPU platform factory production management system of claim 1, wherein: when the sound field plan is formulated, the production management unit schedules production staff through a staff scheduling module according to a production plan, schedules a staff scheduling table, schedules production raw materials through a raw material scheduling module, ensures raw material quality and raw material supply, starts production after the production staff and the production raw materials are scheduled, monitors the production process through a process management module in the production process, ensures that the production process is error-free, and checks daily production plan completion conditions according to the production plan when the production process management module manages the production process.

7. The GPGPU platform factory production management system of claim 1, wherein: when the product is produced, quality detection, including quantitative detection and spot check, is carried out on the produced product through a quality management module in the production management unit, so that the production quality of the product is ensured, wherein the quality management module comprises a plurality of cameras with GPGPU chips, and remote quality control can be realized.

8. The GPGPU platform factory production management system of claim 1, wherein: and after the product is produced, warehousing and preserving the product through an inventory management unit, wherein the produced product counts the model number and the quantity of the product through a warehousing management module, and meanwhile, when the product is stored, the inventory product is subjected to spot check through a spot check module, and when the product needs to be delivered out of warehouse, the delivery operation of the inventory product is completed through a delivery management module.