TW202401185A - Manufacturing software molding system and method thereof - Google Patents

Abstract

The present disclosure provides a manufacturing software molding system and method thereof. The manufacturing software molding system includes a storage device and a processor. The storage device stores a plurality of modules. The processor is coupled to the storage device, and configured to execute the plurality of modules. The processor executes a loading module according to production data, to make the loading module generate multiple molding unit. The processor executes a process generation module according to the multiple molding unit, to make the process generation module generate multiple application units according to relational operations. An application integration module generates application system according to the multiple application units. Thus, the present disclosure is able to automatically and fast generate the application system.

Description

Manufacturing software molding system and method thereof

The present invention relates to a soft body molding system, in particular to a manufacturing soft body molding system and a method thereof.

In product manufacturing operations, since the workshop production data and processes of different products are also different, companies must develop customized systems based on the specific production parameters, processes and production logic of different products. Moreover, when the product manufacturing process system needs to use different industrial production logic or be integrated into different systems, the company needs to customize and adjust the system again. Therefore, the current system cannot effectively generate and adjust suitable manufacturing processes or application systems according to different product processes and needs, which increases the construction cost and time cost of the application system.

The present invention is directed to a manufacturing software molding system and a method thereof. Through the configuration of application units, the corresponding application system is efficiently generated according to the user's operation instructions.

According to an embodiment of the present invention, a system for manufacturing a soft mold of the present invention includes a storage device and a processor. The storage device stores multiple modules. The processor is coupled to the storage device and used to execute multiple modules. The processor executes the loading module according to the production data, so that the loading module generates multiple mold units. The processor executes the process configuration generation module according to the plurality of molding units, so that the process configuration generation module generates multiple application units according to the relational operation. Moreover, the application integration module generates an application system based on the application unit.

According to an embodiment of the present invention, the method of manufacturing a software mold of the present invention includes the following steps: obtaining user operation behavior data; inputting production data into a loading module; generating multiple molding units according to the production data through the loading module; Through the process configuration generation module, multiple application units are generated based on multiple mold units and relationship operations; through the application integration module, an application system is generated based on the application units.

Based on the above, the manufacturing software molding system and method of the present invention can generate multiple molding units according to production data and user instructions, and perform relational operations according to the correlation between the molding units and the user's selection instructions. The process configuration generation module generates application units, and the processor executes the application integration module to generate an application system that meets user needs by stacking application units.

Figure 1 is a schematic diagram of a system for manufacturing soft molds according to an embodiment of the present invention. Referring to FIG. 1 , a manufacturing software molding system 100 includes a processor 110 and a storage device 120 . The processor 110 is coupled to the storage device 120 . In this embodiment, the processor 110 may include a central processing unit (CPU), a microprocessor control unit (MCU), a field programmable gate array (Field Programmable Gate Array, FPGA), and the like. Circuits or chips with data computing functions, but the invention is not limited thereto. The storage device 120 may be a memory, where the memory may be, for example, a read only memory (Read Only Memory, ROM), an erasable programmable read only memory (Erasable Programmable Read Only Memory, EPROM), etc. Non-volatile memory, random access memory (Random Access Memory, RAM) and other volatile memories, and storage devices such as hard disc drive (hard disc drive), semiconductor memory, etc., and are used to store various information mentioned in the present invention. Programs and information. In this embodiment, the storage device 120 can store a plurality of specific modules, algorithms and/or software, etc., for the processor 110 to read and execute them respectively. It is worth noting that the modules and units described in each embodiment of the present invention can be individually implemented by one or more corresponding algorithms and/or software, and can be implemented according to one or more algorithms and/or software. The execution results are used to implement the relevant functions and operations described in the embodiments.

In this embodiment, the storage device 120 can store the loading module 121, the process configuration generation module 122, and the application integration module 123. The processor 110 can read these modules stored in the storage device 120, and by executing these modules, it can automatically provide application units for the application fields and selection fields selected by the user, and efficiently generate matching Application system based on user needs. In this embodiment, the manufacturing software molding system 100 can be, for example, a computer host installed in an enterprise, and provides a user interface for the user to operate to obtain the fields clicked or selected by the user. Alternatively, in an embodiment, the manufacturing software molding system 100 may also be implemented using a cloud server system architecture. Users can connect to the cloud server to perform related enterprise management operations by executing the user interface (UI) program of the electronic device. In this regard, the user can operate the content of the user interface displayed on the display screen of the electronic device, so that the user interface or related programs can provide corresponding user operation behavior data to the cloud server. The cloud server can automatically provide molding units and application units according to the production data stored in the storage device 120 in response to user input instructions and user selection instructions by executing the aforementioned multiple modules, thereby quickly producing conforming products. Application system based on user needs.

In this embodiment, the loading module 121 may be configured to collect production data stored in an Enterprise Resource Planning (ERP) database or the storage device 120 to generate a plurality of molding units. In this embodiment, the production data includes mold setting data and input data input by the user through the electronic device. A molding unit consists of one or more operation sets, field sets, index sets, and data sets. In this embodiment, the operation set may be, for example, any operation instruction or field of the user, for example, a set consisting of a double click, a pull-down menu, a field selection, or an input instruction. A field set may, for example, be a collection of field tables including production data. Index sets may be, for example, field tables, operation sets, and relationship data between data sets. The data set may be, for example, manufacturing parameters, machine parameters, order data, production parameters and the like, data related to manufacturing/production.

In this embodiment, the process configuration generation module 122 may be configured to process multiple molding units 32 in series to generate one or more application units. The serial processing is that the process configuration generation module 122 operates according to multiple molding units and relationships between the multiple molding units to generate multiple application units. That is to say, the process configuration generation module 122 connects related molding units to form an application unit. In this embodiment, relationship operations include reference (Appoint) operations, index (Index) operations, and association (Relation) operations. It is worth noting that the reference operation may, for example, refer a new operation, a new field table or an application unit to the current application unit or field table. For example, the current application screen 1 includes operation field A and operation Field B, then the process configuration generation module 122 refers to the operation field C in the application screen 2 to the current application screen 1. The indexing operation may, for example, query detailed attributes from the database or storage device 120 through the same fields. The association operation can be, for example, combining two different application units or molding units into a new application unit. For example, the process configuration generation module 122 combines the field table A and the field table B into a new field table C as a new application unit.

In this embodiment, the application integration module 123 may be configured to generate an application system by overlaying multiple application units. The application units may be, for example, different application layers (for example, reporting system, Advanced Planning & Scheduling System (APS), Manufacturing Execution System (MES), and Statistical Process Control (SPC) ) system, and the application system is a system integrated by different application layers.

FIG. 2 is a flow chart of a method for manufacturing a software mold according to an embodiment of the present invention. FIG. 3 is a schematic diagram of the execution of multiple modules of the manufacturing software molding system according to an embodiment of the present invention. Referring to FIGS. 1 to 3 , the manufacturing software molding system 100 may perform the following steps S210 to S240. In step S210 , the processor 110 inputs the production data stored in the storage device 120 or the database 310 into the molding unit loading module 121 . In this embodiment, the production data includes mold setting data and input data. Mold setting data includes workshop scene data, business data, molding process related settings, production factor data, operation logic and/or interface information and other parameters related to the manufacturing process/software. Input data includes selected field data, event data, and/or condition data.

In this embodiment, the input data may be, for example, the user performing relevant operations through an input device (such as a mouse, a keyboard or a touch screen, etc.) and/or an application programming interface (Application Programming Interface, API) of the manufacturing software molding system 100 The manufacturing software/process establishes the operation behavior so that the processor 110 can obtain user operation behavior data corresponding to the user's operation behavior. User operation behavior data may include, for example, clicking on the screen, pulling up menus, selecting menu options, inputting instructions, entering specific fields, and the like and other behavioral data related to user selection/input.

In step S220, the processor 110 may execute the loading unit 121 to generate a plurality of molding units 320 by loading required data in the production data. Next, in step S230, the processor 110 may execute the process configuration generation module 122 to generate a plurality of application units 330 according to the plurality of molding units 320 and relational operations. The application unit 330 includes a screen application unit, an operation application unit and a data application unit. It is worth noting that in this embodiment, the processor 110 receives the selection instruction and executes the process configuration generation module 122. In this way, the process configuration generation module 122 generates the application unit 330 according to the selection instruction and the molding unit 320 . That is to say, the process configuration generation module 122 can generate the application unit 330 that meets the user's needs according to the selection instructions input by the user.

In step S240 , the processor 110 executes the application integration module 123 according to the plurality of application units 330 to generate an application system 340 . In one embodiment, the application integration module 123 generates the application system 340 according to the confirmation instruction and the plurality of application units 330 . That is to say, when the processor 110 receives the selection instruction input by the user, when the user has satisfied the current application unit 330, the confirmation instruction is input into the processor 110. Next, the processor 110 executes the application integration module 123 to stack and integrate multiple intention units 330 into the application system 340 . In one embodiment, the application integration module 123 includes an application modeling module 1231 and an application generation module 1232 . After the application molding module 1231 reads the molding units 320 in the plurality of application units 330, the associated screen/data application units 330 are connected. The connection process is to connect partially identical or related application units. Next, the application generation module 1232 loads the data application unit and the screen application unit respectively, and then connects the front-end screen (related to the screen application unit) and the back-end data (related to the data application unit) to generate the application system 340 . Therefore, the application system 340 includes a component menu of screen visualization and a data table of a data table set operation (for example, a data table including operation content of data table integration).

In addition, the specific implementation of the above-mentioned relationship operation will be described in detail below with reference to the example embodiment of FIG. 4 .

FIG. 4 is a schematic diagram of the related operations of the manufacturing software molding system according to an embodiment of the present invention. Please refer to Figures 2 to 4. In this embodiment, the relationship operations include reference operations S420, S425, S435, S440, index operation S430, and association operations S410, S415. In this embodiment, the workshop data table (production data 413) is a data table composed of operation data (production data 411) and machine data (production data 412) through correlation operations S410 and S415. The daily work schedule (for example, daily operation list, daily task assignment list, daily task schedule) (production data 415) is OP1 according to the operation project, so the workshop data table (production data) is referenced through the reference operation S420 413). Similarly, the workshop report table (for example, the workshop production table, the production table between each processing station, and the operation table between each processing station) (production data 416) are all EQS according to the machine number, so by reference Operation S425 references the information of the shop floor data table (data table related to the processing workstation) (production data 413). On the other hand, the workshop report table (production data 416) queries the batch data in the batch number table (production data 414) according to the batch number through the index operation S430. It is worth noting that the relationship operation can be used not only between multiple molding units 320 , but also between an application unit and the molding unit 320 and between multiple application units. In this way, the manufacturing software molding system 100 improves the process/system construction of different products/industries through relational operations to shorten the time required for secondary development or adjustment of software, thereby improving the flexibility and development efficiency of the system. .

It is worth noting that in this embodiment, each application unit can also be combined again to form a new application unit. That is to say, the process configuration generation module 122 can recombine multiple molding units 320 and multiple application units 330 according to the selection instruction to generate an application unit 330 corresponding to the selection instruction, and the application unit 330 is composed of It is composed of multiple molding units 320 and/or other application units 330 among the multiple application units 330 . In other words, the application unit may be composed of the molding unit 320 and other application units. For example, the report screen A is an application unit, and the dispatch screen B is another application unit. The process configuration generation module 122 can integrate the report screen A and the dispatch screen B into a new application according to the selection instructions input by the user. Unit C. In this way, through the features of repeatable combination and superposition between the molding unit 320 and the application unit, the flexibility and scope of use of the manufacturing software molding system 100 are enhanced.

In summary, the manufacturing software molding system 100 and method thereof of the present invention can operate through the relationship between multiple molding units 320 and/or multiple application units to quickly switch or establish an application system 340 that meets user needs. . Furthermore, the manufacturing software molding system 100 of the present invention can receive user selection instructions multiple times to dynamically and accurately establish an application system 340 that conforms to the user's instructions, so as to effectively establish systems for different industries or different production parameters. Moreover, through the relational operation of the application unit, the application unit can be replaced with an application unit corresponding to the production data to achieve rapid replacement of some parameters/parts of modules, so that the manufacturing software molding system 100 can significantly shorten the process/production system. development schedule.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present disclosure, but not to limit it; although the present disclosure has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: The technical solutions described in the foregoing embodiments can still be modified, or some or all of the technical features can be equivalently replaced; and these modifications or substitutions do not deviate from the essence of the corresponding technical solutions from the technical solutions of the embodiments of the present disclosure. Scope.

100: Manufacturing software molding system 110: Processor 120:Storage device 121:Load module 122: Process configuration generation module 123: Application integration module 1231: Application mold module 1232: Application generation module 310:Database 320:Molding unit 330: Screen and data application unit 340:Application system 411~418: Production data S210~S240, S410~S440: steps

Figure 1 is a schematic diagram of a system for manufacturing soft molds according to an embodiment of the present invention. FIG. 2 is a flow chart of a method for manufacturing a software mold according to an embodiment of the present invention. FIG. 3 is a schematic diagram of the execution of multiple modules of the manufacturing software molding system according to an embodiment of the present invention. FIG. 4 is a schematic diagram of the related operations of the manufacturing software molding system according to an embodiment of the present invention.

S210, S220, S230, S240: steps

Claims (20)

A manufacturing software molding system, which includes: A storage device to store multiple modules and production data; and a processor coupled to the storage device and used to execute the plurality of modules, the plurality of modules including a loading module, a process configuration generation module and an application integration module, The processor executes the loading module according to the production data, so that the loading module generates a plurality of mold units, The processor executes the process configuration generation module according to the plurality of molding units, so that the process configuration generation module generates a plurality of application units according to the plurality of molding units and multiple relationship operations, The processor executes the application integration module, so that the application integration module generates an application system according to the plurality of application units. The manufacturing software molding system of claim 1, wherein the application integration module generates the application system according to the confirmation instruction and the plurality of application units. The manufacturing software molding system according to claim 1, wherein the application integration module includes an application molding module and an application generation module, wherein the application mold module reads the plurality of mold units among the plurality of application units and connects the associated application units among the plurality of application units, The application generation module loads the plurality of application units and generates the application system by connecting the visual images in the plurality of application units and the data in the plurality of application units. The manufacturing software molding system of claim 1, wherein the plurality of relational operations are performed in series through relations between the plurality of molding units, and the plurality of relational operations include reference operations, indexing operations and related operations. The manufacturing software molding system of claim 1, wherein the plurality of molding units include at least one of operation data, field data, and index data. The manufacturing software molding system of claim 1, wherein the plurality of application units include a screen application unit, an operation application unit and a data application unit. The manufacturing software molding system of claim 1, wherein the processor receives at least one selection instruction, and configures the generation module through the process according to the at least one selection instruction and the plurality of molding units to generate the multiple application units. The manufacturing software molding system according to claim 7, wherein the process configuration generation module recombines the plurality of molding units and the plurality of application units according to the at least one selection instruction, so as to The plurality of application units composed of the plurality of molding units and other application units among the plurality of application units are generated. The manufacturing software molding system of claim 1, wherein the production data includes mold setting data and input data. The manufacturing software molding system of claim 9, wherein the mold setting data includes workshop data, business data, operation logic and/or interface information, and the input data includes selected field data, events information and/or condition information. A method for manufacturing a soft body mold, which includes: Input production data into the loading module; Generate multiple mold units according to production data through the loading module; The process configuration generation module generates multiple application units according to the multiple mold units and multiple relationship operations; and An application system is generated according to the plurality of application units through an application integration module. The method of manufacturing software molding according to claim 11, wherein the step of generating the application system according to the plurality of application units through the application integration module includes: The application integration module generates the application system according to the confirmation instruction and the plurality of application units. The method of manufacturing software molding according to claim 11, wherein the step of generating the application system according to the plurality of application units through the application integration module includes: Reading the plurality of mold units in the plurality of application units by applying the mold module set, and connecting the associated application units in the plurality of application units; and The multiple application units are loaded through an application generation module to connect the visual images in the multiple application units and the data in the multiple application units to generate the application system. The method of manufacturing a software mold according to claim 11, wherein the plurality of relational operations are serial processing through the relations between the plurality of molding units, and the plurality of relational operations include reference operations, indexing operations and related operations. The method of manufacturing a software mold according to claim 11, wherein the plurality of mold units include at least one of operation data, field data and index data. The method of manufacturing a software mold according to claim 11, wherein the plurality of application units include a screen application unit, an operation application unit and a data application unit. The method of manufacturing a software mold according to claim 11, wherein the step of generating the plurality of application units according to the plurality of mold units and the plurality of relationship operations through the process configuration generation module includes: At least one selection instruction is received, and the process configuration generation module generates the plurality of application units according to the at least one selection instruction and the plurality of molding units. The method of manufacturing software molds according to claim 17, wherein the step of generating the plurality of application units according to the plurality of molding units and the plurality of relationships through the process configuration generation module further includes: : The process configuration generation module recombines the multiple molding units and the multiple application units according to the at least one selection instruction to generate the multiple molding units and the multiple application units. The multiple application units are composed of other application units among the units. The method of manufacturing a software mold according to claim 11, wherein the production data includes mold setting data and input data. The manufacturing software molding method of claim 19, wherein the mold setting data includes workshop data, business data, operation logic and/or interface information, and the input data includes selected field data, events Information and/or Condition Information.

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