CN110569617A - Equipment componentization model framework - Google Patents

Abstract

The application relates to the technical field of data modeling, in particular to an equipment modularization model framework, which comprises a resource management module, an equipment modeling module connected with the resource management module and an application interface module connected with the equipment modeling module, wherein the resource management module is used for receiving equipment original data collected and sent by a collection card and carrying out resource configuration and storage on the equipment original data, the equipment modeling module extracts the equipment data stored by the resource management module to analyze and analyze the equipment data into data which can be identified by software, an equipment structure model and a data view model are generated and are bound into an integrated equipment model, and the application interface module instantiates the equipment model by utilizing the data which can be identified by the software and generated by the resource management module. The method maps various physical production equipment into equipment model components in a modeling mode, and reflects main parameters and functions of the equipment through instantiation of the component models.

Description

Equipment componentization model framework

[ technical field ] A method for producing a semiconductor device

The application relates to the technical field of data modeling, in particular to an equipment modularization model framework.

[ background of the invention ]

At present, for enterprises, lean production usually means that various efficiencies of manufacturing equipment need to be fully exerted, and unnecessary waste is reduced. For this reason, it is necessary to arrange the overall operation of the production line by planning the production facilities based on the usage model and the maintenance model of each facility, and to realize "best use" and "best use" of various manufacturing facilities. However, the use models and maintenance models of various manufacturing equipment (molds, tools, and devices) are different from each other, and in order to more effectively exert the utility of the manufacturing equipment and form the optimized utility benefit, it is necessary to perform fusion analysis on the whole-line device use models and maintenance models. Therefore, the application provides a method for constructing the equipment component model.

[ summary of the invention ]

In order to more effectively exert the utility of manufacturing equipment and form optimized utility benefits, the application provides an equipment modularization model framework.

The technical scheme adopted for solving the technical problem is as follows:

The equipment modularization model framework comprises a resource management module, an equipment modeling module connected with the resource management module and an application interface module connected with the equipment modeling module, wherein the resource management module is used for receiving equipment original data collected and sent by a collection card and carrying out resource allocation and storage on the equipment original data, the equipment modeling module extracts the equipment data stored by the resource management module, analyzes and analyzes the equipment data into software-recognizable data, generates an equipment structure model and a data view model and binds the equipment structure model and the data view model into an integrated equipment model, and the application interface module instantiates the equipment model by utilizing the software-recognizable data generated by the resource management module.

The resource management module comprises a resource allocation module, and the resource allocation module is connected with the acquisition card and is used for providing a configuration template for the received raw data of the equipment, and the template is used for defining a communication protocol, an interface type and an equipment type of the data.

The device component model framework as described above, the resource management module further includes a device monitoring module connected to the resource configuration module, and the device monitoring module is configured to monitor access of device data and analyze a communication protocol, a device interface, and a device type corresponding to the data according to a template provided by the resource configuration module when monitoring data access.

The resource management module further includes a device registration module connected to the device monitoring module, where the device registration module is configured to check whether current analysis data is new device data, and automatically register in the framework when the current analysis data is new device data, so as to generate device data of the data type.

The device componentization model framework as described above, the resource management module further includes a data storage module connected to the device registration module, the data storage module is configured to store the generated device data, and the device data includes operation data and status data for device modeling.

The equipment modularization model framework comprises a model configuration module connected with the data storage module, wherein the model configuration module is used for extracting the equipment data stored by the data storage module to analyze and analyze the equipment data into data which can be identified by software.

The device modeling module further includes a device structure model generation module and a data view model generation module, which are connected to the model configuration module, the device structure model generation module is configured to generate a device structure model according to the data analyzed by the model configuration module, and the data view model generation module is configured to generate a data view model according to the data analyzed by the model configuration module, and bind with the device structure model to generate an integrated device model.

The device componentization model framework as described above, the application interface module includes a model instantiation plug-in, the model instantiation plug-in is connected with the device structure model generation module and the data view model generation module, and instantiates the generated device model with the parsed data to generate the corresponding device.

The device componentization model framework is characterized in that the application interface module further comprises a function extension plug-in connected with the model instantiation plug-in, and the function extension plug-in is used for realizing extension of the instantiated application interface and extension of functions on the basis of the instantiated device model.

Compared with the prior art, the equipment modularization model framework has the advantages that the construction mode of the equipment modularization model is provided, the thought of an open modularization framework is adopted, various physical production equipment is mapped into the equipment model components in a modeling mode, main parameters and functions of the equipment can be reflected through instantiation of the model components through instantiation of the component models, utility optimization analysis can be carried out in an information domain of a computer, and the production equipment and the manufacturing equipment can be connected and controlled reversely through gateway equipment.

[ description of the drawings ]

FIG. 1 is a block diagram of the device componentization model framework of the present application.

[ detailed description ] embodiments

The present application will be further described with reference to the following drawings and specific embodiments.

Referring to fig. 1, an apparatus modularization model framework includes a resource management module, an apparatus modeling module connected to the resource management module, and an application interface module connected to the apparatus modeling module, where the resource management module is configured to receive and store original apparatus data collected and sent by a collection card, the apparatus modeling module extracts the apparatus data stored by the resource management module, analyzes and analyzes the data into software-recognizable data, generates an apparatus structure model and a data view model, and binds the apparatus structure model and the data view model into an integrated apparatus model, and the application interface module instantiates the apparatus model using the software-recognizable data generated by the resource management module.

In this embodiment, the device componentization model framework is composed of a resource management module, a device modeling module, and an application interface module, and the communication mode among the modules adopts inter-process communication of a Binder-like mechanism.

The resource management module comprises a resource configuration module, an equipment monitoring module, an equipment registration module and a data storage module which are connected in sequence, wherein the resource configuration module is connected with the acquisition card and used for providing a configuration template for received equipment original data, the template is used for defining a communication protocol, an interface type and an equipment type of the data, and the equipment monitoring module is used for monitoring the access of the equipment data and analyzing the communication protocol, the equipment interface and the equipment type corresponding to the data according to the template provided by the resource configuration module when monitoring the data access. In this embodiment, when monitoring that a device accesses, the device monitoring module automatically analyzes the corresponding communication protocol, device interface, and device type using the obtained data. The device registration module is used for checking whether the current analysis data is the new device data, automatically registering in the frame when the current analysis data is the new device data, and generating the device data of the data type. In this embodiment, the device registration module provides the view template and the graphic element required for establishing the device model to the device modeling module according to the analyzed device data, and updates the data existing before with the newly accessed data if the data of the same communication protocol, communication interface, and device type exists. The data storage module is used for storing the generated equipment data, and the equipment data comprises operation data and state data used for equipment modeling. In this embodiment, the data storage module stores the generated device data, and provides the device data to the device modeling module after analysis and processing, and a structural model template, a graphic element, and a data view template required for modeling.

In this embodiment, the resource management module is mainly responsible for managing the device data (communication protocol, interface type, device type) collected by the lower acquisition system.

More specifically, the device modeling module comprises a model configuration module connected with the data storage module, a device structure model generation module connected with the model configuration module, and a data view model generation module, wherein the model configuration module is used for extracting device data stored by the data storage module to analyze and analyze the device data into data which can be identified by software. In this embodiment, the model configuration module extracts the acquired data stored in the resource management component, and configures the structure general model and the data view general model that constitute the device model through the interface. The equipment structure model generation module is used for generating an equipment structure model according to the data analyzed by the model configuration module, and the data view model generation module is used for generating a data view model according to the data analyzed by the model configuration module and binding the data view model with the equipment structure model to generate an integrated equipment model. In this embodiment, the device structure model generation module may provide multiple device structure model templates, and is configured to automatically generate the device structure model according to the analyzed device data, so as to quickly construct a corresponding device model application. The data view model generation module is used for generating a data view model according to the data analyzed by the model configuration module and binding the data view model with the equipment structure model to generate an integrated equipment model. The data view model generation module is used for generating a data view model according to the data analyzed by the model configuration module and binding the data view model with the equipment structure model to generate an integrated equipment model. In this embodiment, the data view model generation module is configured to analyze real-time data (such as a state, an operation duration, a maintenance time, and the like) of the operation of the device, automatically generate a data view model, and after the data view model is bound to the device structure model, finally generate a device model in which the device structure and the data view are integrated.

In this embodiment, the model configuration module extracts the acquired device-related data from the resource management module, configures and defines the device model, the service parameters, and the like in a graphical visualization manner through an interface provided by the model instantiation plug-in, and forms a corresponding device structure model diagram (such as a lathe model structure diagram, a milling machine model structure diagram, and the like). The equipment modeling module adopts the design of an architecture based on virtualization simulation, combines the static architecture design and the dynamic data analysis, and realizes the perfect combination of the model and the data.

In addition, in order to better utilize the equipment modeling component, the application extension of the equipment model can be carried out by utilizing the interface provided by the application component according to the requirements of users, and the development of the equipment simulation model is guided.

The application interface module comprises a model instantiation plug-in and a function extension plug-in connected with the model instantiation plug-in, the model instantiation plug-in is connected with the equipment structure model generation module and the data view model generation module, and the generated equipment model is instantiated by using the analyzed data to generate corresponding equipment. In this embodiment, the model instantiation plug-in instantiates the corresponding device in a customized form according to the collected device data and the generated device model view, and can visually display the operation data, the operation state, and the like of the corresponding device on the instantiated device data view. The function extension plug-in is used for realizing extension of the instantiated application interface and extension of functions on the basis of the instantiated device model. In this embodiment, the function extension plug-in provides an open model application framework interface standard and a data standard, and can implement development and function extension of a rapid and efficient device model application system.

In this embodiment, the application interface module provides a function of instantiating the device model and an extension of a function of the modeling tool in a plug-in manner, so as to meet special management requirements of different enterprises and different personnel on the device.

In summary, the present application provides an equipment componentization model framework, which adopts an open componentization framework idea, maps various physical production equipments into equipment model components in a modeling manner, and can reflect main parameters and functions of the equipments through instantiation of the model components by instantiating the component models, so as to perform utility optimization analysis in an information domain of a computer, and reversely connect and control production and manufacturing equipments through gateway equipment.

The above description is only for the purpose of illustrating the preferred embodiments of the present application and is not intended to limit the scope of the present application, which is within the scope of the present application, except that the same or similar principles and basic structures as the present application may be used.

Claims (9)

1. The equipment modularization model framework is characterized by comprising a resource management module, an equipment modeling module connected with the resource management module and an application interface module connected with the equipment modeling module, wherein the resource management module is used for receiving equipment original data collected and sent by a collection card and carrying out resource allocation and storage on the equipment original data, the equipment modeling module extracts the equipment data stored by the resource management module, analyzes and analyzes the equipment data into software-recognizable data, generates an equipment structure model and a data view model and binds the equipment structure model and the data view model into an integrated equipment model, and the application interface module instantiates the equipment model by utilizing the software-recognizable data generated by the resource management module.

2. The equipment componentized model framework of claim 1, wherein: the resource management module comprises a resource allocation module, the resource allocation module is connected with the acquisition card and used for providing a configuration template for the received original data of the equipment, and the template is used for defining the communication protocol, the interface type and the equipment type of the data.

3. The equipment componentized model framework of claim 2, wherein: the resource management module also comprises an equipment monitoring module connected with the resource configuration module, and the equipment monitoring module is used for monitoring the access of equipment data and analyzing a communication protocol, an equipment interface and an equipment type corresponding to the data according to the template provided by the resource configuration module when monitoring the data access.

4. The equipment componentized model framework of claim 3, wherein: the resource management module also comprises an equipment registration module connected with the equipment monitoring module, and the equipment registration module is used for checking whether the current analysis data is new equipment data, automatically registering in the frame when the current analysis data is the new equipment data, and generating the equipment data of the data type.

5. The equipment componentized model framework of claim 4, wherein: the resource management module further comprises a data storage module connected with the equipment registration module, wherein the data storage module is used for storing the generated equipment data, and the equipment data comprises operation data and state data used for equipment modeling.

6. The equipment componentized model framework of claim 5, wherein: the equipment modeling module comprises a model configuration module connected with the data storage module, and the model configuration module is used for extracting the equipment data stored by the data storage module, analyzing and analyzing the equipment data into data which can be identified by software.

7. The equipment componentized model framework of claim 6, wherein: the equipment modeling module also comprises an equipment structure model generation module and a data view model generation module which are connected with the model configuration module, the equipment structure model generation module is used for generating an equipment structure model according to the data analyzed by the model configuration module, and the data view model generation module is used for generating a data view model according to the data analyzed by the model configuration module and binding the data view model with the equipment structure model to generate an integrated equipment model.

8. The equipment componentized model framework of claim 7, wherein: the application interface module comprises a model instantiation plug-in which is connected with the equipment structure model generation module and the data view model generation module, and the generated equipment model is instantiated by using the analyzed data to generate corresponding equipment.

9. the equipment componentized model framework of claim 8, wherein: the application interface module also comprises a function extension plug-in connected with the model instantiation plug-in, and the function extension plug-in is used for realizing the extension of the instantiated application interface and the extension of the function on the basis of the instantiated device model.