CN114841661A - Discrete processing management method and system - Google Patents
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Abstract
The invention relates to the technical field of intelligent factory management, and particularly discloses a discrete processing management method and a discrete processing management system, wherein the method comprises the steps of receiving order data and determining a production scheme according to the order data; the production scheme comprises a production flow and a personnel allocation scheme; determining the types of raw materials according to the production flow, acquiring inventory data corresponding to different types of raw materials, and correcting the production flow based on the inventory data; acquiring production data in real time, and adjusting a production instruction according to the production data; the production data is generated by production equipment, and the production instruction is applied to the production equipment; and acquiring personnel information in real time, marking the personnel information based on the personnel allocation scheme, and correcting the personnel allocation scheme according to a marking result. The invention determines the production scheme from the receipt of order data, monitors the production process from three dimensions of products, equipment and personnel, has wider monitoring range and lower dependence on the working personnel, and improves the production efficiency.
Description
Technical Field
The invention relates to the technical field of intelligent factory management, in particular to a discrete processing management method and a discrete processing management system.
Background
The MES system is a production informatization management system facing to a workshop execution layer of a manufacturing enterprise. The MES can provide management modules for enterprises, such as manufacturing data management, planning scheduling management, production scheduling management, inventory management, quality management, human resource management, work center/equipment management, tool and tool management, purchasing management, cost management, project bulletin board management, production process control, bottom layer data integration analysis, upper layer data integration decomposition and the like, and create a solid, reliable, comprehensive and feasible manufacturing cooperative management platform for the enterprises.
Most of the existing MES systems only track and detect products aiming at production links, the monitoring range is narrow, the labor cost is high, and the production efficiency is not high.
Disclosure of Invention
The present invention is directed to a discrete processing management method and system, so as to solve the problems in the background art.
In order to achieve the purpose, the invention provides the following technical scheme:
a method of discrete tooling management, the method comprising:
receiving order data, and determining a production scheme according to the order data; the production scheme comprises a production flow and a personnel allocation scheme;
determining the types of raw materials according to the production flow, acquiring inventory data corresponding to different types of raw materials, and correcting the production flow based on the inventory data;
acquiring production data in real time, and adjusting a production instruction according to the production data; the production data is generated by production equipment, and the production instruction is applied to the production equipment;
and acquiring personnel information in real time, marking the personnel information based on the personnel allocation scheme, and correcting the personnel allocation scheme according to a marking result.
As a further scheme of the invention: the step of receiving order data and determining a production scheme according to the order data comprises:
receiving an order request sent by a user, acquiring a user level, and generating order data according to the user level;
reading a production flow and a production time table in a preset product table according to the order data;
obtaining idle time of production equipment in different production flows, and determining the production efficiency and the working time of the production flow according to the idle time and the production time table;
and determining a production flow based on the production efficiency and the working time, and reading a corresponding personnel allocation scheme.
As a further scheme of the invention: the step of determining the types of the raw materials according to the production flow, acquiring inventory data corresponding to different types of the raw materials, and correcting the production flow based on the inventory data comprises the following steps:
determining the types of raw materials according to the production flow, and acquiring inventory data corresponding to different types of raw materials;
obtaining the raw material amount required by the production flow, and comparing the raw material amount with the inventory data;
when the raw material amount is smaller than the stock data, deleting the corresponding data in the stock data;
and when the raw material amount is larger than the inventory data, acquiring raw material purchasing data, and correcting the production flow according to the raw material purchasing data.
As a further scheme of the invention: the step of acquiring production data in real time and adjusting production instructions according to the production data comprises the following steps:
acquiring production data of each production device in real time, and generating a state curve with time as an independent variable;
calculating the fluctuation rate of the state curve and a preset reference curve in real time, and determining the sensitive moment according to the fluctuation rate;
and acquiring the reported information of the personnel at the sensitive moment, and adjusting the production instruction according to the reported information of the personnel.
As a further scheme of the invention: the step of acquiring personnel information in real time, marking the personnel information based on the personnel allocation scheme, and correcting the personnel allocation scheme according to a marking result comprises the following steps:
acquiring regional information of different regions in real time, and identifying the content of the regional information; determining the number of people according to the identification result;
determining a standard number of people for the area based on the people allocation plan;
calculating the difference rate of the number of the people and the standard number of the people, and determining the busy level of the people in the area according to the difference rate;
classifying different areas, acquiring busy levels of area personnel in the same area, and sending adjustment information to different area personnel according to the busy levels.
The technical scheme of the invention also provides a discrete processing management system, which comprises:
the production scheme determining module is used for receiving order data and determining a production scheme according to the order data; the production scheme comprises a production flow and a personnel allocation scheme;
the production flow correction module is used for determining the types of the raw materials according to the production flow, acquiring inventory data corresponding to different types of the raw materials and correcting the production flow based on the inventory data;
the production instruction adjusting module is used for acquiring production data in real time and adjusting a production instruction according to the production data; the production data is generated by production equipment, and the production instruction is applied to the production equipment;
and the personnel adjusting module is used for acquiring personnel information in real time, marking the personnel information based on the personnel distribution scheme, and correcting the personnel distribution scheme according to a marking result.
As a further scheme of the invention: the production schedule determining module includes:
the data acquisition unit is used for receiving an order request sent by a user, acquiring the user level and generating order data according to the user level;
the schedule generating unit is used for reading the production flow and the production schedule in a preset product schedule according to the order data;
the parameter determining unit is used for acquiring the idle time of the production equipment in different production flows and determining the production efficiency and the working time of the production flow according to the idle time and the production time schedule;
and the scheme reading unit is used for determining the production flow based on the production efficiency and the working time and reading the corresponding personnel allocation scheme.
As a further scheme of the invention: the production flow correction module comprises:
the inventory acquisition unit is used for determining the types of the raw materials according to the production flow and acquiring inventory data corresponding to different types of the raw materials;
the comparison unit is used for acquiring the raw material amount required by the production process and comparing the raw material amount with the inventory data;
a deleting unit, configured to delete corresponding data from the stock data when the raw material amount is smaller than the stock data;
and the first processing execution unit is used for acquiring raw material purchasing data and correcting the production flow according to the raw material purchasing data when the raw material amount is larger than the inventory data.
As a further scheme of the invention: the production instruction adjusting module comprises:
the curve generation unit is used for acquiring production data of each production device in real time and generating a state curve with time as an independent variable;
the time determining unit is used for calculating the fluctuation rates of the state curve and a preset reference curve in real time and determining the sensitive time according to the fluctuation rates;
and the instruction generating unit is used for acquiring the personnel reporting information at the sensitive moment and adjusting the production instruction according to the personnel reporting information.
As a further scheme of the invention: the personnel adjustment module comprises:
the content identification unit is used for acquiring the area information of different areas in real time and identifying the content of the area information; determining the number of people according to the identification result;
the standard acquiring unit is used for determining the standard number of people in the area based on the personnel distribution scheme;
the level determining unit is used for calculating the difference rate of the number of the people and the standard number of the people and determining the busy level of the people in the area according to the difference rate;
and the second processing execution unit is used for classifying different areas, acquiring busy levels of the personnel in the areas of the same type, and sending adjustment information to the personnel in different areas according to the busy levels.
Compared with the prior art, the invention has the beneficial effects that: the invention determines the production scheme from the beginning of receiving order data, monitors the production process from three dimensions of products, equipment and personnel, has wider monitoring range and lower dependence on the personnel and improves the production efficiency.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention.
FIG. 1 is a flow diagram of a discrete process management method.
FIG. 2 is a first sub-flow block diagram of a discrete processing management method.
FIG. 3 is a second sub-flow block diagram of a discrete processing management method.
Fig. 4 is a third sub-flow block diagram of a discrete tooling management method.
Fig. 5 is a fourth sub-flow block diagram of a discrete processing management method.
Fig. 6 is a block diagram showing a configuration of a discrete processing management system.
Detailed Description
In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Example 1
Fig. 1 shows a flow chart of a discrete processing management method, and in an embodiment of the present invention, the method includes steps S100 to S400:
step S100: receiving order data, and determining a production scheme according to the order data; the production scheme comprises a production flow and a personnel allocation scheme;
the order data is sent by the client, and the production scheme can be further determined only if the order data is determined; the production scheme comprises a production flow and a personnel allocation scheme, the production flow is convenient to understand, the personnel allocation scheme needs to be further described, and it can be thought that no matter how high the intelligent level of the intelligent factory is, one or more workers are needed for supervision, and the arrangement of the workers is the personnel allocation scheme.
Step S200: determining the types of raw materials according to the production flow, acquiring inventory data corresponding to different types of raw materials, and correcting the production flow based on the inventory data;
for a plant, the production runs for the same product may not be unique, and the final finishing time for different production runs is rarely the same unless the order data is the first product for the plant; the important factor of the production process is the raw material data, so step S200 provides a technical solution for modifying the production process according to the raw material.
Step S300: acquiring production data in real time, and adjusting a production instruction according to the production data; the production data is generated by production equipment, and the production instruction is applied to the production equipment;
in the production process, production equipment can generate a lot of data, the data are analyzed, the production equipment can be controlled, and actually, in a factory with a high intelligent level, the work content of workers is to manage the production equipment.
Step S400: acquiring personnel information in real time, marking the personnel information based on the personnel allocation scheme, and correcting the personnel allocation scheme according to a marking result;
when the production equipment is supervised, personnel also need to be supervised, and the personnel are reasonably arranged, which is not involved in the prior art.
Fig. 2 shows a first sub-flow block diagram of a discrete processing management method, wherein the step of receiving order data and determining a production plan according to the order data comprises steps S101 to S104:
step S101: receiving an order request sent by a user, acquiring a user level, and generating order data according to the user level;
step S102: reading a production flow and a production time table in a preset product table according to the order data;
step S103: obtaining idle time of production equipment in different production flows, and determining the production efficiency and the working time of the production flow according to the idle time and the production time table;
step S104: and determining a production flow based on the production efficiency and the working time, and reading a corresponding personnel allocation scheme.
Step S101 to step S104 specifically limit the determining process of the production scheme, firstly, the grade of the user is obtained, if a user with lower credit sends a large number of order requests, certain limitation is required; then, acquiring different production flows and the production time of each node in the production flows according to the product table; meanwhile, the idle time of each production device in the production flow is obtained, the production efficiency of different production flows and the latest working time can be calculated according to the production time of each node and the space time of each production device, and the finished product time can be roughly determined according to the working time and the production efficiency; therefore, the two parameters of the production efficiency and the working time can reflect the quality of the production flow. And finally, after the production flow is determined, reading the personnel allocation scheme corresponding to the production flow.
Fig. 3 is a second sub-flow block diagram of the discrete processing management method, wherein the method determines the material types according to the production flow, obtains inventory data corresponding to different material types, and modifies the production flow based on the inventory data includes steps S201 to S204:
step S201: determining the types of raw materials according to the production flow, and acquiring inventory data corresponding to different types of raw materials;
step S202: obtaining the raw material amount required by the production flow, and comparing the raw material amount with the inventory data;
step S203: when the raw material amount is smaller than the stock data, deleting the corresponding data in the stock data;
step S204: and when the raw material amount is larger than the inventory data, acquiring raw material purchasing data, and correcting the production flow according to the raw material purchasing data.
The steps from step S201 to step S204 are specifically limited to the step of correcting the production flow according to the raw material condition, and first, the type of the raw material is determined, and corresponding inventory data is acquired according to the type of the raw material; then, acquiring the raw material amount required by the production flow, comparing the raw material amount with the inventory data, and correcting the inventory data and the production flow according to a comparison result; the correction process mainly corrects the time information in the production flow.
Fig. 4 is a third sub-flow block diagram of the discrete processing management method, where the step of acquiring production data in real time and adjusting a production instruction according to the production data includes steps S301 to S303:
step S301: acquiring production data of each production device in real time, and generating a state curve taking time as an independent variable;
step S302: calculating the fluctuation rate of the state curve and a preset reference curve in real time, and determining the sensitive moment according to the fluctuation rate;
step S303: and acquiring the reported information of the personnel at the sensitive moment, and adjusting the production instruction according to the reported information of the personnel.
The method comprises the steps of obtaining production data of each production device, obtaining one or more device parameters according to a preset conversion formula, generating a state curve according to the device parameters, and comparing the state curve with a preset reference curve to mark some special time points; reading the information reported by the staff at the special time points, and adjusting the production instruction according to the reported information; it can be seen that the adjustment process for the production instructions is on a staff basis.
Fig. 5 is a fourth sub-flow block diagram of the discrete processing management method, where the step of acquiring the staff information in real time, marking the staff information based on the staff allocation plan, and correcting the staff allocation plan according to the marking result includes steps S401 to S404:
step S401: acquiring regional information of different regions in real time, and identifying the content of the regional information; determining the number of people according to the identification result;
step S402: determining a standard number of people for the area based on the people allocation plan;
step S403: calculating the difference rate between the number of the people and the standard number of the people, and determining the busy level of the people in the area according to the difference rate;
step S404: classifying different areas, acquiring busy levels of area personnel in the same area, and sending adjustment information to different area personnel according to the busy levels.
The above content provides a specific staff management and control scheme, and firstly, area information of different areas is obtained, in an example of the technical scheme of the invention, obtaining an area image through a camera is a way of obtaining the area information; then, the content of the area information is identified, and the number of people can be determined according to the content identification result.
After the production scheme is determined, the personnel allocation scheme is also determined, the number of workers in different areas is also determined, in the actual production process, because the intelligent level of a factory is higher, workers can move around, the situations are allowed, when the situation occurs, the situation that the number of workers in different areas changes can occur, for example, a certain area has three people, only one person exists in one area, for areas of the same type, the areas of the three people are lower in busy level, one person is higher in busy level, when the situation is observed, adjustment information is sent to the personnel in each area, and the utilization rate of personnel cost is improved.
It is worth mentioning that the adjustment information is only prompt information and is not mandatory; because several people in the same area are free to organize the work in the actual production process.
Example 2
Fig. 6 is a block diagram of a structure of a discrete processing management system, and in an embodiment of the present invention, the system 10 includes:
the production scheme determining module 11 is configured to receive order data and determine a production scheme according to the order data; the production scheme comprises a production flow and a personnel allocation scheme;
the production flow correction module 12 is configured to determine types of raw materials according to the production flow, obtain inventory data corresponding to different types of raw materials, and correct the production flow based on the inventory data;
the production instruction adjusting module 13 is used for acquiring production data in real time and adjusting a production instruction according to the production data; the production data is generated by production equipment, and the production instruction is applied to the production equipment;
and the personnel adjusting module 14 is used for acquiring personnel information in real time, marking the personnel information based on the personnel allocation scheme, and correcting the personnel allocation scheme according to a marking result.
Further, the production schedule determining module includes:
the data acquisition unit is used for receiving an order request sent by a user, acquiring the user level and generating order data according to the user level;
the schedule generating unit is used for reading the production flow and the production schedule in a preset product schedule according to the order data;
the parameter determining unit is used for acquiring the idle time of the production equipment in different production flows and determining the production efficiency and the working time of the production flow according to the idle time and the production time table;
and the scheme reading unit is used for determining the production flow based on the production efficiency and the working time and reading the corresponding personnel allocation scheme.
Specifically, the production process modification module includes:
the inventory acquisition unit is used for determining the types of the raw materials according to the production flow and acquiring inventory data corresponding to different types of the raw materials;
the comparison unit is used for acquiring the raw material amount required by the production process and comparing the raw material amount with the inventory data;
a deleting unit, configured to delete corresponding data from the stock data when the raw material amount is smaller than the stock data;
and the first processing execution unit is used for acquiring raw material purchasing data and correcting the production flow according to the raw material purchasing data when the raw material amount is larger than the inventory data.
Still further, the production order adjustment module includes:
the curve generation unit is used for acquiring production data of each production device in real time and generating a state curve with time as an independent variable;
the time determining unit is used for calculating the fluctuation rates of the state curve and a preset reference curve in real time and determining the sensitive time according to the fluctuation rates;
and the instruction generating unit is used for acquiring the personnel reporting information at the sensitive moment and adjusting the production instruction according to the personnel reporting information.
Further, the personnel adjustment module includes:
the content identification unit is used for acquiring the area information of different areas in real time and identifying the content of the area information; determining the number of people according to the identification result;
the standard acquiring unit is used for determining the standard number of people in the area based on the personnel distribution scheme;
the level determining unit is used for calculating the difference rate of the number of the people and the standard number of the people and determining the busy level of the people in the area according to the difference rate;
and the second processing execution unit is used for classifying different areas, acquiring busy levels of the personnel in the areas of the same type, and sending adjustment information to the personnel in different areas according to the busy levels.
The functions that can be performed by the discrete tooling management method are performed by a computer device that includes one or more processors and one or more memories having stored therein at least one program code that is loaded into and executed by the one or more processors to perform the functions of the discrete tooling management method.
The processor fetches instructions and analyzes the instructions one by one from the memory, then completes corresponding operations according to the instruction requirements, generates a series of control commands, enables all parts of the computer to automatically, continuously and coordinately act to form an organic whole, realizes the input of programs, the input of data, the operation and the output of results, and the arithmetic operation or the logic operation generated in the process is completed by the arithmetic unit; the Memory comprises a Read-Only Memory (ROM) for storing a computer program, and a protection device is arranged outside the Memory.
Illustratively, a computer program can be partitioned into one or more modules, which are stored in memory and executed by a processor to implement the present invention. One or more of the modules may be a series of computer program instruction segments capable of performing certain functions, which are used to describe the execution of the computer program in the terminal device.
Those skilled in the art will appreciate that the above description of the service device is merely exemplary and not limiting of the terminal device, and may include more or less components than those described, or combine certain components, or different components, such as may include input output devices, network access devices, buses, etc.
The Processor may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. The general-purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is the control center of the terminal equipment and connects the various parts of the entire user terminal using various interfaces and lines.
The memory may be used to store computer programs and/or modules, and the processor may implement various functions of the terminal device by operating or executing the computer programs and/or modules stored in the memory and calling data stored in the memory. The memory mainly comprises a storage program area and a storage data area, wherein the storage program area can store an operating system, application programs (such as an information acquisition template display function, a product information publishing function and the like) required by at least one function and the like; the storage data area may store data created according to the use of the berth-state display system (e.g., product information acquisition templates corresponding to different product types, product information that needs to be issued by different product providers, etc.), and the like. In addition, the memory may include high speed random access memory, and may also include non-volatile memory, such as a hard disk, a memory, a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), at least one magnetic disk storage device, a Flash memory device, or other volatile solid state storage device.
The terminal device integrated modules/units, if implemented in the form of software functional units and sold or used as separate products, may be stored in a computer readable storage medium. Based on such understanding, all or part of the modules/units in the system according to the above embodiment may also be implemented by instructing relevant hardware by a computer program, and the computer program may be stored in a computer-readable storage medium, and when executed by a processor, the computer program may implement the functions of the above embodiments of the system. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer readable medium may include: any entity or device capable of carrying computer program code, recording medium, U.S. disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-Only Memory (ROM), Random Access Memory (RAM), electrical carrier wave signals, telecommunications signals, software distribution media, and the like.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (10)
1. A method of discrete tooling management, the method comprising:
receiving order data, and determining a production scheme according to the order data; the production scheme comprises a production flow and a personnel allocation scheme;
determining the types of raw materials according to the production flow, acquiring inventory data corresponding to different types of raw materials, and correcting the production flow based on the inventory data;
acquiring production data in real time, and adjusting a production instruction according to the production data; the production data is generated by production equipment, and the production instruction is applied to the production equipment;
and acquiring personnel information in real time, marking the personnel information based on the personnel allocation scheme, and correcting the personnel allocation scheme according to a marking result.
2. The discrete tooling management method of claim 1 wherein the step of receiving order data from which a production plan is determined comprises:
receiving an order request sent by a user, acquiring a user level, and generating order data according to the user level;
reading a production flow and a production time table in a preset product table according to the order data;
obtaining idle time of production equipment in different production flows, and determining the production efficiency and the working time of the production flow according to the idle time and the production time table;
and determining a production flow based on the production efficiency and the working time, and reading a corresponding personnel allocation scheme.
3. The discrete processing management method according to claim 1, wherein the determining a material type according to the production flow, obtaining inventory data corresponding to different material types, and modifying the production flow based on the inventory data comprises:
determining the types of raw materials according to the production flow, and acquiring inventory data corresponding to different types of raw materials;
obtaining the raw material amount required by the production flow, and comparing the raw material amount with the inventory data;
when the raw material amount is smaller than the stock data, deleting the corresponding data in the stock data;
and when the raw material amount is larger than the inventory data, acquiring raw material purchasing data, and correcting the production flow according to the raw material purchasing data.
4. The discrete tooling management method of claim 1 wherein the step of acquiring production data in real time and adjusting production instructions based on the production data comprises:
acquiring production data of each production device in real time, and generating a state curve with time as an independent variable;
calculating the fluctuation rate of the state curve and a preset reference curve in real time, and determining the sensitive moment according to the fluctuation rate;
and acquiring the reported information of the personnel at the sensitive moment, and adjusting the production instruction according to the reported information of the personnel.
5. The discrete processing management method according to claim 1, wherein the step of acquiring the staff information in real time, marking the staff information based on the staff allocation plan, and correcting the staff allocation plan according to the marking result comprises:
acquiring regional information of different regions in real time, and identifying the content of the regional information; determining the number of people according to the identification result;
determining a standard number of people for the area based on the people allocation plan;
calculating the difference rate of the number of the people and the standard number of the people, and determining the busy level of the people in the area according to the difference rate;
classifying different areas, acquiring busy levels of area personnel in similar areas, and sending adjustment information to different area personnel according to the busy levels.
6. A discrete tooling management system, the system comprising:
the production scheme determining module is used for receiving order data and determining a production scheme according to the order data; the production scheme comprises a production flow and a personnel allocation scheme;
the production flow correction module is used for determining the types of the raw materials according to the production flow, acquiring inventory data corresponding to different types of the raw materials and correcting the production flow based on the inventory data;
the production instruction adjusting module is used for acquiring production data in real time and adjusting a production instruction according to the production data; the production data is generated by production equipment, and the production instruction is applied to the production equipment;
and the personnel adjusting module is used for acquiring personnel information in real time, marking the personnel information based on the personnel distribution scheme, and correcting the personnel distribution scheme according to a marking result.
7. The discrete tooling management system of claim 6, wherein the production schedule determination module includes:
the data acquisition unit is used for receiving an order request sent by a user, acquiring the user level and generating order data according to the user level;
the schedule generating unit is used for reading the production flow and the production schedule in a preset product schedule according to the order data;
the parameter determining unit is used for acquiring the idle time of the production equipment in different production flows and determining the production efficiency and the working time of the production flow according to the idle time and the production time table;
and the scheme reading unit is used for determining the production flow based on the production efficiency and the working time and reading the corresponding personnel allocation scheme.
8. The discrete tooling management system of claim 6, wherein the production flow modification module comprises:
the inventory acquisition unit is used for determining the types of the raw materials according to the production flow and acquiring inventory data corresponding to different types of the raw materials;
the comparison unit is used for acquiring the raw material amount required by the production process and comparing the raw material amount with the inventory data;
a deleting unit, configured to delete corresponding data from the stock data when the raw material amount is smaller than the stock data;
and the first processing execution unit is used for acquiring raw material purchasing data and correcting the production flow according to the raw material purchasing data when the raw material amount is larger than the inventory data.
9. The discrete tooling management system of claim 6, wherein the production order adjustment module comprises:
the curve generation unit is used for acquiring production data of each production device in real time and generating a state curve with time as an independent variable;
the time determining unit is used for calculating the fluctuation rates of the state curve and a preset reference curve in real time and determining the sensitive time according to the fluctuation rates;
and the instruction generating unit is used for acquiring the personnel reporting information at the sensitive moment and adjusting the production instruction according to the personnel reporting information.
10. The discrete tooling management system of claim 6, wherein the personnel adjustment module comprises:
the content identification unit is used for acquiring the area information of different areas in real time and identifying the content of the area information; determining the number of people according to the identification result;
the standard acquiring unit is used for determining the standard number of people in the area based on the personnel distribution scheme;
the level determining unit is used for calculating the difference rate of the number of the people and the standard number of the people and determining the busy level of the people in the area according to the difference rate;
and the second processing execution unit is used for classifying different areas, acquiring busy levels of the personnel in the areas of the same type, and sending adjustment information to the personnel in different areas according to the busy levels.
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CN116934276A (en) * | 2023-09-15 | 2023-10-24 | 深圳市尚泷科技有限公司 | Clothing rapid production management method and management system |
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CN116934276A (en) * | 2023-09-15 | 2023-10-24 | 深圳市尚泷科技有限公司 | Clothing rapid production management method and management system |
CN116934276B (en) * | 2023-09-15 | 2023-12-15 | 深圳市尚泷科技有限公司 | Clothing rapid production management method and management system |
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