SolidWorks abbreviation (SW) is a new generation of Dassault introduced for the electrical industry design of mechanical 3D design tools. SolidWorks Chinese version of the use of a new parallel and serial product development environment and *** enjoy 3DCAD model, and is widely used in the design of parts, design of machinery and equipment, medical equipment, automotive, aerospace and other industries; SolidWorks can meet the user directly add a variety of auxiliary plug-ins, connect a variety of NC programming software and directly print the model to use the demand. Industry; SolidWorks can meet the user directly in the software to add a variety of auxiliary plug-ins, connect a variety of NC programming software and directly print the model of the use of demand. About the power of solidworks, in fact, I believe that many partners also have a certain understanding, but for the mastery of the software as well as the use of the software, may be a lot of partners are still scratching their heads! It doesn't matter, if you want to learn how to use solidworks, you've come to the right place. A wealth of solidworks boutique video courses, take you one by one to break through the software basic to advanced operation
solidworks popular video tutorials recommended:
Software: Solidworks Mechanical Design introductory to master course
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Introduction to software: Solidworks measurement tools
SOLIDWORKS parametric design method
Three-dimensional modeling software itself is the design of the idea of parametric design ideas, we define the size of the dimensions are as a driver size and the existence of the size, as long as the size of the size of the changes in the size of the model will be a corresponding change, this This is also the basis of parametric design. Here's a look at the SOLIDWORKS automated parametric design approach.
In SOLIDWORKS the most size-driven way to use the configuration, the configuration allows us to generate multiple design changes for a part or assembly in a single file, by switching between different configurations to show the different states of the product. Therefore, it is usually used in the design of similar products and serialized products. Its advantage is that it is more intuitive, what we see after switching configurations is what we want to see, and it can also greatly reduce the model creation time, thus improving work efficiency, and all of its parameters are saved in the design table, which is relatively simple to maintain. But if you create a lot of configurations, it will make the model file become very large, which affects the performance of large assemblies, and it is not suitable for products with complex rules and a large number of models due to the limited number of rules that can be varied by the configurations.
In SOLIDWORKS you can also use the logic-driven approach, the logic is mainly defined by the application of equations, after defining the global variables in the model, the use of functions as well as equations will be associated with global variables and the parameters of the change, through the control of the global variable values to achieve the change of the model. Its advantages are easy management of main parameters, more logic supported by using functions and equations, also if there are many equations in the model, it will have an impact on the opening speed of the model, the performance of large assemblies, and the types of functions supported in the equations are limited, so it is more suitable for products with relatively simple logic changes and not a large number of models.
You can also use Excel macro-driven way to realize the parametric design of the product, Excel supports a lot of functions and equations, so it can support the rules of the more complex products, but due to all the data in Excel need to manually add, if the number of models is relatively large, it will take a lot of time to enter all the model's parameter data, therefore This method is not commonly used.
The other way is to use a program to achieve it, through the API interface to achieve the parameter transfer. AutoWorks software, for example, is through the API interface to automatically extract the model's parameter information, including the design tree, model dimensions, features, and so on, and then return the parameter table information to the model through the API interface, so as to realize the automation of the parameter design of the product.
So, today's "SOLIDWORKS Parametric Design Methods" will end here! We must learn to see more, practice more, think more, learn more, I hope we can all learn solidworks soon! Here, but also for you to provide more courses to learn, click the link: