CN112445190A - Recipe management method and system for Manufacturing Execution System (MES) and operator station - Google Patents

Abstract

The invention provides a recipe management method, a system and an operator station of an MES system, wherein the method comprises the following steps: the operator station provides configuration functions of the process formula, and writes configured process formula information into the formula function control station, wherein the process formula information comprises a raw material auxiliary material BOM list, a process flow, trigger conditions and control actions; the formula function control station downloads corresponding process formula information to the batch control station; the batch control station transmits production logic to corresponding production units according to the trigger conditions in the process formula information, and receives equipment state information which is fed back to the operator station through the formula function control station; and the operator station determines whether manual intervention in the formula management process is needed or not according to the production state monitoring information provided by the formula function control station. The invention realizes the dynamic scheduling and control of the production process formula, meets the flexible requirements of production enterprises, helps the manufacturing enterprises to improve the operating efficiency, reduces the cost and improves the product quality.

Description

Recipe management method and system for Manufacturing Execution System (MES) and operator station

Technical Field

The invention relates to the technical field of computers, in particular to a formula management method and system of an MES system and an operator station.

Background

The formula management refers to the management of raw materials, auxiliary materials, processes and equipment in the production process. The method mainly comprises the steps of proportioning raw materials and auxiliary materials, selecting a process flow, controlling equipment parameters and the like.

Formula management is an essential link in the current production process. People adopt different formulas, flexibly mix different raw materials and change corresponding production processes to produce different products, thereby realizing good downstairs production. However, the flexible production of batch enterprises depends on the efficiency of production scheduling, formula management and formula switching to a great extent, the research on the problem of the current production scheduling is still incomplete, and a mature general method for automatic management does not exist. At present, as long as a formula program is manually compiled by utilizing the existing standard control and auxiliary function modules in the DCS, when the formula is sent and changed, particularly when the process formula is changed in other aspects on the premise of unchanging the production logic design, the formula program needs to be rewritten, which wastes time and labor and reduces the poor flexibility of the production line.

In the above-described formulation management, common phenomena are: (1) the workload is complicated, and the operation efficiency is low; (2) it is error prone and the results of recipe management often do not correspond to the actual desired results. These phenomena clearly increase the risk of enterprise switching recipes.

The technology of the application is based on the defects of the prior art, and adopts a formula management method based on configuration elements to realize the dynamic scheduling and control of the formula in the production process and meet the flexible requirements of production enterprises.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a recipe management method, a system and an operator station of an MES system, which realize the dynamic scheduling and control of recipes in the production process, meet the flexible requirements of production enterprises, help the manufacturing enterprises to improve the operating efficiency, reduce the cost and improve the product quality.

In a first aspect, the present invention provides a recipe management method for an MES system, comprising the steps of:

s1, providing a configuration function of the process formula by the operator station, and writing the configured process formula information into the formula function control station after the user completes the configuration of the process formula;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

s2, the formula function control station downloads corresponding process formula information to the batch control station according to production requirements;

s3, the batch control station transmits production logic to corresponding production units according to the trigger conditions in the process recipe information, receives equipment state information returned after the production units execute corresponding control actions, and feeds the equipment state information back to the recipe function control station;

s4, feeding back equipment state information to the operator station by the formula function control station, and providing production state monitoring information;

and S5, the operator station determines whether human intervention is needed in the formula management process according to the production state monitoring information provided by the formula function control station.

In a second aspect, the present invention provides a recipe management system for a MES system, comprising:

the operator station is used for providing a configuration function of the process formula and writing the configured process formula information into the formula function control station after the user completes the configuration of the process formula; and determining whether manual intervention in the formula management process is needed or not according to the production state monitoring information provided by the formula function control station;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

the formula function control station is used for downloading corresponding process formula information to the batch control station according to production requirements; feeding back equipment state information to the operator station to provide production state monitoring information;

and the batch control station is used for transmitting the production logic to the corresponding production unit according to the trigger condition in the downloaded process recipe information, receiving the equipment state information returned after the production unit executes the corresponding control action, and feeding back the equipment state information to the recipe function control station.

In a third aspect, the invention provides a recipe management operator station of an MES system, which provides a configuration function of a process recipe and writes configured process recipe information into a recipe function control station after a user completes the configuration of the process recipe;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

when the formula function control station downloads corresponding process formula information to the batch control station according to production requirements; and transmitting production logic to a corresponding production unit through the batch control station according to the trigger condition in the process formula information, receiving equipment state information returned after the production unit executes a corresponding control action, and feeding back the equipment state information to the operator station through the formula function control station, wherein when the production state monitoring information is provided, the operator station determines whether manual intervention in a formula management process is needed or not according to the production state monitoring information provided by the formula function control station.

One or more technical solutions provided in the embodiments of the present invention have at least the following technical effects or advantages: in the operator station, besides the BOM list of raw materials and auxiliary materials and the process flow, the trigger condition and the control action of each formula are also used as virtual equipment for configuration, and the configured process formula information is written into the formula function control station, so that the flexible configuration of formula management in the MES system can be realized, particularly, different formulas are downloaded on the premise that the production logic design is not changed in the process flow, only the input parameters are different, and the overall formula logic is completely consistent, so that the formula switching efficiency and safety are improved, and the production efficiency of enterprises is improved.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

The invention will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a flow chart of a method according to one embodiment of the present invention;

FIG. 3 is a flowchart illustrating the operation of an operator station in accordance with a third embodiment of the present invention;

FIG. 4 is a schematic view of a configuration interface for triggering conditions and control actions in a home screen of an operator station according to the present invention;

FIG. 5 is a schematic interface view of a home screen of an operator station according to the present invention;

FIG. 6 is a schematic view of a BOM list of materials and excipients for an operator station according to the present invention.

Detailed Description

The embodiment of the application provides a formula management method and system of an MES system and an operator station, so that the dynamic scheduling and control of the formula in the production process are realized, the flexible requirements of production enterprises are met, the manufacturing enterprises are helped to improve the operating efficiency, the cost is reduced, and the product quality is improved.

The technical scheme in the embodiment of the application has the following general idea: in the operator station, besides the BOM list of raw materials and auxiliary materials and the process flow, the trigger condition and the control action of each formula are also used as virtual equipment for configuration, and the configured process formula information is written into the formula function control station, so that the flexible configuration of formula management in the MES system can be realized, particularly, different formulas are downloaded on the premise that the production logic design is not changed in the process flow, only the input parameters are different, and the overall formula logic is completely consistent, so that the formula switching efficiency and safety are improved, and the production efficiency of enterprises is improved.

Before describing the specific embodiment, a system framework corresponding to the method of the embodiment of the present application is described, and as shown in fig. 1, the system is roughly divided into three parts:

the operator station, which is the main port for human-computer interaction, performs two functions. Firstly, formulating a BOM list of raw materials and auxiliary materials, and secondly, formulating a process flow. And downloading the formulated bill of materials and process flow into a formula function control station. And configuring the trigger condition and the control action of each formula as a virtual device. That is, in the present invention, it is assumed that the triggering condition is satisfied for the flow switching within the production unit or between the production units, and therefore, after the production flow is determined, the triggering condition within each production unit or between the production units needs to be determined. The production unit means: in line manufacturing, a production line or a production process in a machine is generally defined as a production unit.

And the formula function control station is mainly responsible for storing formula control logics of raw material formulas, auxiliary material formulas and process flow formulas, interacts with the batch control station, receives the instruction execution condition of batch feedback, transmits the instruction execution condition to the operator station and displays the instruction execution condition to a manager. The interactive content between the formula function control station and the batch control station comprises downloading a BOM list of raw material formula, namely raw material proportion, raw material model, auxiliary material model, process flow instructions and the like.

The batch control station is responsible for storing the downloaded formula control logic data and determining which specific production unit the logic needs to be transmitted to according to the triggering condition, so that the unmanned automatic production process is realized; and the data of the production process is processed and analyzed, so that production informatization is realized.

Example one

As shown in fig. 2, the present embodiment provides a recipe management method for an MES system, including the following steps:

s1, providing a configuration function of the process formula by the operator station, and writing the configured process formula information into the formula function control station after the user completes the configuration of the process formula;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

s2, the formula function control station downloads corresponding process formula information to the batch control station according to production requirements;

s3, the batch control station transmits production logic to corresponding production units according to the trigger conditions in the process recipe information, receives equipment state information returned after the production units execute corresponding control actions, and feeds the equipment state information back to the recipe function control station;

s4, feeding back equipment state information to the operator station by the formula function control station, and providing production state monitoring information;

and S5, the operator station determines whether human intervention is needed in the formula management process according to the production state monitoring information provided by the formula function control station.

As a more preferred or specific implementation manner of this embodiment, in order to improve the experience when the process flow is formulated, the process flow is configured such that the pop-up window is used for the user to specify the related process recipe without changing the design of the production logic, so that the process flow specifier can specify the related process recipe conveniently.

In step S2, the process recipe information downloaded by the recipe function control station includes, without changing the design of the production logic:

(1) the names, the types and the quantity ratios of the raw materials and the auxiliary materials are as follows;

(2) production units are needed in the process formula;

(3) the triggering conditions and control actions of the process formula comprise signals and signal parameters thereof for completing switching in each production unit and among the production units, and switching actions and action parameters thereof.

In the configuration function of the process formula provided by the operator station, options provided for setting the triggering condition parameters include time delay parameters, low limit parameters, high limit parameters and quantity parameters; the time delay parameter is used for controlling the trigger time of the trigger condition; the low limit parameter and the high limit parameter are used for controlling a certain parameter to be in a certain range; the quantity parameter is used to control how many quantities of product to produce for switching.

Based on the same inventive concept, the application also provides a device corresponding to the method in the first embodiment, which is detailed in the second embodiment.

Example two

As shown in fig. 1, in this embodiment, a recipe management system of an MES system is provided, including:

the operator station is used for providing a configuration function of the process formula and writing the configured process formula information into the formula function control station after the user completes the configuration of the process formula; and determining whether manual intervention in the formula management process is needed or not according to the production state monitoring information provided by the formula function control station;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

the formula function control station is used for downloading corresponding process formula information to the batch control station according to production requirements; feeding back equipment state information to the operator station to provide production state monitoring information;

and the batch control station is used for transmitting the production logic to the corresponding production unit according to the trigger condition in the downloaded process recipe information, receiving the equipment state information returned after the production unit executes the corresponding control action, and feeding back the equipment state information to the recipe function control station.

As a more preferred or specific implementation manner of this embodiment, in order to improve the experience when the process flow is formulated, the process flow is configured such that the pop-up window is used for the user to specify the related process recipe without changing the design of the production logic, so that the process flow specifier can specify the related process recipe conveniently.

On the premise of not changing the design of production logic, the process formula information downloaded by the formula function control station comprises:

(1) the names, the types and the quantity ratios of the raw materials and the auxiliary materials are as follows;

(2) production units are needed in the process formula;

(3) the triggering conditions and control actions of the process formula comprise signals and signal parameters thereof for completing switching in each production unit and among the production units, and switching actions and action parameters thereof.

In the configuration function of the process formula provided by the operator station, options provided for setting the triggering condition parameters include time delay parameters, low limit parameters, high limit parameters and quantity parameters; the time delay parameter is used for controlling the trigger time of the trigger condition; the low limit parameter and the high limit parameter are used for controlling a certain parameter to be in a certain range; the quantity parameter is used to control how many quantities of product to produce for switching.

Since the apparatus described in the second embodiment of the present invention is an apparatus used for implementing the method of the first embodiment of the present invention, based on the method described in the first embodiment of the present invention, a person skilled in the art can understand the specific structure and the deformation of the apparatus, and thus the details are not described herein. All the devices adopted in the method of the first embodiment of the present invention belong to the protection scope of the present invention.

Based on the same inventive concept, the application provides an electronic device embodiment corresponding to the first embodiment, which is detailed in the third embodiment.

EXAMPLE III

As shown in fig. 3, the present embodiment provides a recipe management operator station of an MES system, which provides a configuration function of a process recipe, and writes configured process recipe information into a recipe function control station after a user completes configuration of the process recipe;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

when the formula function control station downloads corresponding process formula information to the batch control station according to production requirements; and transmitting production logic to a corresponding production unit through the batch control station according to the trigger condition in the process formula information, receiving equipment state information returned after the production unit executes a corresponding control action, and feeding back the equipment state information to the operator station through the formula function control station, wherein when the production state monitoring information is provided, the operator station determines whether manual intervention in a formula management process is needed or not according to the production state monitoring information provided by the formula function control station.

As a more preferred or specific implementation manner of this embodiment, the process flow is that the operator station uses a pop-up window for a user to specify a related process recipe without changing a design of production logic. The system comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, and when the processor executes the computer program, any one of the embodiment modes can be realized.

Since the electronic device described in this embodiment is a device used for implementing the method in the first embodiment of the present application, based on the method described in the first embodiment of the present application, a specific implementation of the electronic device in this embodiment and various variations thereof can be understood by those skilled in the art, and therefore, how to implement the method in the first embodiment of the present application by the electronic device is not described in detail herein. The equipment used by those skilled in the art to implement the methods in the embodiments of the present application is within the scope of the present application.

Taking a production process formula of an automobile front windshield as an example, a main picture designed by an operator station picture can be shown in fig. 4, for example, the production process formula comprises a raw material auxiliary material BOM list and a process flow, and further comprises a formula and a formula production unit (represented by a number), the process flow displayed in the figure comprises 9 process stages, and each process stage is provided with a corresponding trigger condition and a corresponding control action.

FIG. 5 shows a configuration interface for trigger conditions and control actions.

As shown in fig. 6, a configuration interface of the BOM list of raw materials and auxiliary materials is provided with a code number such as a raw material name, which is convenient for a user to query.

The technical scheme provided in the embodiment of the application at least has the following technical effects or advantages: in the operator station, besides the BOM list of raw materials and auxiliary materials and the process flow, the trigger condition and the control action of each formula are also used as virtual equipment for configuration, and the configured process formula information is written into the formula function control station, so that the flexible configuration of formula management in the MES system can be realized, particularly, different formulas are downloaded on the premise that the production logic design is not changed in the process flow, only the input parameters are different, and the overall formula logic is completely consistent, so that the formula switching efficiency and safety are improved, and the production efficiency of enterprises is improved.

Although specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the invention, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the invention, which is to be limited only by the appended claims.

Claims (10)

1. A recipe management method of an MES system is characterized in that: the method comprises the following steps:

s1, providing a configuration function of the process formula by the operator station, and writing the configured process formula information into the formula function control station after the user completes the configuration of the process formula;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

s2, the formula function control station downloads corresponding process formula information to the batch control station according to production requirements;

s3, the batch control station transmits production logic to corresponding production units according to the trigger conditions in the process recipe information, receives equipment state information returned after the production units execute corresponding control actions, and feeds the equipment state information back to the recipe function control station;

s4, feeding back equipment state information to the operator station by the formula function control station, and providing production state monitoring information;

and S5, the operator station determines whether human intervention is needed in the formula management process according to the production state monitoring information provided by the formula function control station.

2. The recipe management method for MES system according to claim 1, wherein: the process flow is that on the premise of not changing the production logic design, a pop-up window is adopted for a user to specify a related process formula.

3. The recipe management method for MES system according to claim 1, wherein: in step S2, the process recipe information downloaded by the recipe function control station includes, without changing the design of the production logic:

(1) the names, the types and the quantity ratios of the raw materials and the auxiliary materials are as follows;

(2) production units are needed in the process formula;

(3) the triggering conditions and control actions of the process formula comprise signals and signal parameters thereof for completing switching in each production unit and among the production units, and switching actions and action parameters thereof.

4. The recipe management method for MES system according to claim 1, wherein: in the configuration function of the process formula provided by the operator station, options provided for setting the triggering condition parameters include time delay parameters, low limit parameters, high limit parameters and quantity parameters; the time delay parameter is used for controlling the trigger time of the trigger condition; the low limit parameter and the high limit parameter are used for controlling a certain parameter to be in a certain range; the quantity parameter is used to control how many quantities of product to produce for switching.

5. A recipe management system for a MES system, comprising: the method comprises the following steps:

the operator station is used for providing a configuration function of the process formula and writing the configured process formula information into the formula function control station after the user completes the configuration of the process formula; and determining whether manual intervention in the formula management process is needed or not according to the production state monitoring information provided by the formula function control station;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

the formula function control station is used for downloading corresponding process formula information to the batch control station according to production requirements; feeding back equipment state information to the operator station to provide production state monitoring information;

and the batch control station is used for transmitting the production logic to the corresponding production unit according to the trigger condition in the downloaded process recipe information, receiving the equipment state information returned after the production unit executes the corresponding control action, and feeding back the equipment state information to the recipe function control station.

6. The recipe management system for an MES system of claim 5, wherein: the process flow is that on the premise of not changing the design of production logic, the operator station adopts a pop-up window for users to specify related process formulas.

7. The recipe management system for an MES system of claim 5, wherein: on the premise of not changing the design of production logic, the process formula information downloaded by the formula function control station comprises:

(1) the names, the types and the quantity ratios of the raw materials and the auxiliary materials are as follows;

(2) production units are needed in the process formula;

(3) the triggering conditions and control actions of the process formula comprise signals and signal parameters thereof for completing switching in each production unit and among the production units, and switching actions and action parameters thereof.

8. The recipe management system for an MES system of claim 5, wherein: in the configuration function of the process formula provided by the operator station, options provided for setting the triggering condition parameters include time delay parameters, low limit parameters, high limit parameters and quantity parameters; the time delay parameter is used for controlling the trigger time of the trigger condition; the low limit parameter and the high limit parameter are used for controlling a certain parameter to be in a certain range; the quantity parameter is used to control how many quantities of product to produce for switching.

9. A recipe management operator station for a MES system, comprising: providing a configuration function of the process formula, and writing the configured process formula information into a formula function control station after a user completes the configuration of the process formula;

the process formula information comprises a raw material auxiliary material BOM list, a process flow, a trigger condition and a control action; the BOM list of the raw materials and auxiliary materials is used for specifying the information of the raw materials and the auxiliary materials needed by the production of the product; the process flow is the sum of the production logics of all production units required for producing the product; the trigger condition is used for controlling the switching of production logics in the production units or among the production units, and the control brake is used as an action to be executed in each production unit;

when the formula function control station downloads corresponding process formula information to the batch control station according to production requirements; and transmitting production logic to a corresponding production unit through the batch control station according to the trigger condition in the process formula information, receiving equipment state information returned after the production unit executes a corresponding control action, and feeding back the equipment state information to the operator station through the formula function control station, wherein when the production state monitoring information is provided, the operator station determines whether manual intervention in a formula management process is needed or not according to the production state monitoring information provided by the formula function control station.

10. A recipe management operator station for an MES system as claimed in claim 9, wherein: the process flow is that on the premise of not changing the design of production logic, the operator station adopts a pop-up window for users to specify related process formulas.

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