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This module is the basic module of UG, including open, create, store and other files; coloring, blanking, zooming and other views; view layout; layer management; drawing and plotter queue management; space roaming, can define roaming Paths, generate movie files; expression queries; feature queries; model information queries, coordinate queries, distance measurements; curve curvature analysis; surface fairing analysis; physical physical properties are automatically calculated; spreadsheet functions for defining standardized part families; The image file format that can be used for the Internet homepage generates image files of UG parts or assembly models. These formats include: CGM, VRML, TIFF, MPEG, GIF, and JPEG; input and output of geometric data such as CGM, UG/Parasolid; Macro macros are automatically Record and playback functions; User Tools user-defined menu features that allow users to quickly access commonly used functions or secondary development functions.
§ UG Solid Modeling
UG solid modeling provides sketch design, various curve generation, editing, Boolean operations, sweeping entities, rotating entities, sweeping along guide rails, dimension-driven, definition, editing of variables and their expressions, post-parameterization of non-parametric models And other tools.
§ UG/Features Modeling
The UG feature modeling module provides the generation and editing of various standard design features, various holes, keyways, cavities - square, round, shaped, square bosses, circular bosses, shaped bosses, cylinders, squares , cones, spheres, pipes, rods, rounding, chamfering, model evacuation to produce thin-walled solids, model simplification (Simplify), die casting mold design, solid line, surface extraction, sand design, tapping, Feature editing: delete, compress, copy, paste, feature reference, array, feature order adjustment, feature tree and other tools.
§ UG/FreeForm Modeling (UG free surface modeling)
UG has a wealth of surface modeling tools. Including ruled surface, scanned surface, free surface through a set of curves, free surface through two sets of orthogonal curves, generalized sweep of curve, standard quadratic curve method, equal radius and variable radius rounding, generalized quadratic Curve rounding, fairing bridging between two or more surfaces, dynamic pull adjustment surfaces, equidistant or unequal offsets, surface clipping, editing, point cloud generation, surface editing.
UG/User DefinedFeature (UG User Defined Feature)
The UG/User Defined Feature user-defined feature module provides interactive methods to define and store user-defined feature-based (UDF) concept-based part families that are easy to invoke and edit, form a user-specific UDF library, and improve user design modeling efficiency. . The module includes all tools for extracting parameters, defining feature variables, establishing correlations between parameters, setting variable default values, and defining an icon menu representing the UDF from the generated UG parameterized solid model. After the UDF is generated, the UDF becomes a user-specific feature that can be called by all users through the icon menu. When this feature is added to the design model, all its preset variable parameters can be edited and will be created by UDF. Change in design intent.
UG/Drafting(UG project drawing)
UG engineering drawing module provides automatic view layout, sectional view, isotropic view, partial enlargement, partial sectional view, automatic, manual dimensioning, geometric tolerance, roughness conformance annotation, support GB, standard Chinese character input, view manual editing, assembly Figure cutaways, explosion maps, automatic generation of schedules and other tools.
§ UG/Assembly Modeling (UG Assembly Modeling)
UG assembly modeling has the following characteristics: It provides parallel top-down and bottom-up product development methods; the part data in the assembly model is the link image of the part itself, ensuring that the assembly model and the part design are completely bidirectional, and Improves software performance, reduces storage space requirements, and parts are updated automatically after part design modification. At the same time, parts design can be directly modified in the assembly environment; coordinate system positioning; logic alignment, lamination, offset Flexible positioning methods and constraints; placement of parts or subassemblies in an assembly and definition of parameter relationships between different parts or components; parametric assembly modeling provides additional functionality to describe the mating relationships between components and can also be used Description General-purpose fastener sets and other repetitive parts; assembly navigation; parts search; part installation statistics; call catalog; reference set; assembly part shade display; standard part library call; weight control; fast switching in the assembly hierarchy, direct access Any part or subassembly; generates assembly schedules that support Chinese characters when the assembly structure changes Assembly can be automatically updated list; parallel computing capabilities to support multiple CPU hardware platforms.
§ UG/Advanced Assemblies (UG Advanced Assembly)
UG advanced assembly module provides the following functions: increase the special function of product-level large assembly design; allow the user to flexibly filter the data call control of the assembly structure; high-speed large assembly coloring; large assembly interference check function, manage, share, and check to determine the complexity The digital model of the product layout completes the digital electronic assembly assembly; visualizes and analyzes the efficiency of the entire product, specified subsystems or subcomponents; defines the various interference inspection conditions and stores them for multiple use, optionally with Batch mode operation; accurate reporting of soft and hard interventions; for large products, the design team can define and share product segments and subsystems to increase the response speed of the software when selecting components for design changes from a large product structure; Computing power, support for multiple CPU hardware platforms, and full use of hardware resources.
§ UG/Sheet MetalDesign (UG sheet metal design)
The UG sheet metal design module can realize the following functions: generation of complex sheet metal parts; parameterized editing; definition and simulation of the manufacturing process of sheet metal parts; simulation of unfolding and folding; generating accurate two-dimensional expanded pattern data; Consider the situation of expandable and inflexible surfaces and compensate according to the characteristics of the neutral layer of the material.
§ UG/Senario for FEA (UGF finite element pre-processing)
UG finite element before and after processing module can be completed as follows *: automatic meshing; interactive meshing; material property definition; load definition and constraint conditions definition; NASTRAN interface; finite element analysis results graphical display; result animation simulation; Output contour map, cloud map; perform dynamic simulation and data output.
§ UG/FEA (UG finite element solver)
UG finite element can be used for static analysis of linear structures, dynamic analysis of linear structures, and modal analysis.
§ UG/ANSYS Interface (UG/ANSYS Software Interface)
UG/ANSYS software interface completes automatic meshing, interactive meshing, material property definition, load definition and constraint definition, ANSYS interface, graphical display of finite element analysis results, results animation simulation, output contour map, Cloud map.
UG/CAM BASE (UG machining basics)
The UG machining basic module provides the following functions: Observing the movement of the tool along the trajectory in the graphical mode, and making graphical changes: If the tool path is extended, shortened or modified, etc., point programming programming function, used for drilling, tapping And user's needs, such as user-defined flexible customization and tailoring, defining a standardized tool library, and machining process parameter model library to make primary processing, semi-finishing, finishing, etc. used as standard parameters to reduce the use of training time. Optimize the processing technology.
§ UG/Post Execute Post-Processing (Post Processing by UG/Post Builder)
UG/Post Execute and UG/Post Builder together constitute the post processing of the UG processing module. UG's post-processing processing module allows users to easily establish their own post-processing processing program. This module is applicable to almost all mainstream NC machine tools and machining centers in the world. The module has been proven to be suitable for many years of application practice. Milling of 2 to 5 or more axes, turning of 2 to 4 axes, and WEDM
§ UG/Nurbs PathGenerator (UG/Nurbs Spline Trajectory Generator)
The UG/Nurbs Path Generator spline trajectory generator module allows the generation of tool trajectory data based on Nurbs splines directly in the UG software. This allows the generated trajectory to have higher precision and smoothness, while the machining program size is reduced by 30% compared to the standard format. At 50%, the actual machining time is greatly reduced by avoiding the waiting time of the machine controller. This module is a must-have tool for users wishing to use a high-speed milling machine (FANUC or SIEMENS) with spline interpolation
§ UG/Lathe (UG turning) UG turning module
Provides parameters such as roughing, multiple-passage finishing, retracting sipes, threading and drilling center hole, control feed, spindle speed, and machining allowance, and displaying the tool path in the screen simulation to check whether the parameter setting is correct. , Generate the original location file (CLS) and other functions.
§ UG/Core & CavityMilling (UG Core, Pocket Milling)
UG core and cavity milling can complete rough machining of single or multiple cavities, along with the shape of any similar core, rough removal and large margin removal, tool path generation for very complex shapes, and determination of the way of passing and passing. Differential cavity milling can process low-precision designs with gaps and overlapping shapes between surfaces, and the cavity can have hundreds of curved surfaces. When an abnormal profile is found, it can be corrected by itself or at a user-specified tolerance. Within the scope of processing features such as cavity.
§ UG/Planar Milling (UG plane milling)
The function of the UG plane milling module is as follows: multiple-pass contour milling, contouring inner-cavity milling, zigzag-shaped path-cut milling, provision of safety margin for avoiding fixtures and internal movements, providing cavity lamination, concave The bottom island processing function, the definition of the boundary and the wool geometry, the display of the boundaries of the non-cutting area, provide some * machine tool auxiliary movement instructions, such as cooling, tool compensation and clamping.
§ UG/Fixed AxisMilling( UG fixed axis milling)
The functions of the UG fixed-axis milling module are described as follows: A 3-axis machining tool path, machining area selection function, a variety of driving methods and cutting methods are available, such as edge cutting, radial cutting, spiral cutting and user-defined cutting In the boundary driving mode, various cutting methods such as concentric circles and radial cutting tools can be selected, as well as reverse milling, crushing control and spiral feeding methods, automatic recognition of unprocessed areas and steep cutting of the previous process. Area, so that users can further clean these places, UG fixed axis milling can simulate the tool path, generate tool file, user can accept and store the tool file, and can also delete and modify some parameters as needed and recalculate.
§ UG/Flow Cut (UG Automatic Root Removal)
Automatically find the area on the part to be machined that satisfies the “double-cut conditionâ€, which is generally the root zone and corner in the cavity. The user can directly select the machining tool. The UG/Flow Cut module will automatically calculate the “double-cut condition†area corresponding to this tool as the drive geometry and automatically generate a root removal program for one or more passes. When complex core or pocket machining occurs, this module reduces the amount of finishing or semi-finishing work.
§ UG/Variable Axis Milling
The UG/Variable Axis Milling Variable Axis Milling module supports both fixed-axis and multi-axis milling functions to machine any geometry generated in the UG modeling module and maintains master model correlation. This module provides 3 to 5 axis milling functions for many years of engineering validation, providing tool axis control, tool selection and tool path generation
§ UG/Sequential Milling
The UG sequential milling module can realize the following functions: controlling each step of the toolpath generation process, supporting milling programming of 2~5 axes, and being completely related to the UG master model, and obtaining an APT-like direct programming in an automated way. Absolute control, allowing the user to interactively generate toolpaths from section to section, and maintaining control of each step in the process, providing looping functionality that allows the user to define only the innermost and outermost toolpaths on a surface, by the module Automatically generate intermediate steps. This module is a UG-specific module with the same functions as automatic root clearing in the UG CNC processing module, which is suitable for difficult CNC programming.
§ UG/Wire EDM (UG wire cutting)
UG line cutting supports the following functions: UG wire frame model or solid model, 2-axis and 4-axis cutting, and multiple wire cutting processing methods, such as multiple pass contour processing, wire reversal and area cutting, support set Cutting, using different diameter electrode wire and power size setting, can use UG/Postprocessing universal post processor to develop a special post-processing program to generate a machine data file suitable for a machine tool.
UG/Vericut (UG Cutting Simulation)
The UG/Vericut cutting simulation module is a third-party module integrated in the UG software. It uses human-computer interaction to simulate, verify, and display NC machining programs. It is a convenient way to verify NC programs. Due to the elimination of test samples, machine tool commissioning time can be saved, tool wear and machine cleanup can be reduced. By defining the blank shape of the cut part and calling the NC pocket file data, the correctness of the tool path generated by the NC can be verified. UG/Vericut can display the processed and colored part model, and the user can easily check out the incorrect processing conditions. As another part of the inspection, the module can also calculate the volume of the processed part and the removal amount of the blank, so it is easy to determine the loss of raw materials. Vericut offers many features, including full graphic display of blank size, position and orientation, simulating milling and drilling of 2 to 5 axis linkages
§ UG/Manager (UG Manager)
The UG/Manager Manager module is a UG software project group-level data management module that provides data management capabilities and concurrent engineering capabilities. The UG/Manager can be run on the network. After the UG/Manager is installed, the original UG software accesses the file of the design model under the operating system*. It is replaced with the access function for the product database, while the UG software performs other functions. Same as before UG/Manager was not installed. In the UG/Manager, the system administrator can assign items to form member roles, define the permissions of each member, provide data version management, security management, general query, access protection, and other functions. At the same time, enter the product in the UG/Manager database. Data can be accessed through browsers such as Netscape or IE, improving the utilization of design data and improving the ability of user organizations to publish and access design information. The UG/Manager is a subset of the UG enterprise data management solution iMAN, and can be seamlessly upgraded to an enterprise-level data management system when needed.
§ UG/Open (UG secondary development)
The UG/Open secondary development module is a secondary development tool set of UG software, which is convenient for users to carry out secondary development work. The UG system can be customized and developed by this module to meet the user's development requirements. UG/Open includes the following parts: UG/Open Menuscript development tool, user-friendly development of UG software* interface, without adding programming, UG standard menu can be added, reorganized, trimmed or integrated in UG software. The UG/Open UIStyle development tool is a visual editor for creating an UG-like interactive interface. With this tool, users can develop an UG/Open application-independent interface that is independent of the hardware platform; UG/Open API Development tools, providing UG software direct programming interface, supporting major high-level languages ​​such as C, C++, Fortran, and Java; UG/Open GRIP development tool is an UG-like internal development language similar to APT, users can use this tool to generate NC automation or automatic build Modular and other user-specific applications.
§ UG/Data Exchange (UG Data Exchange)
The UG/Data Exchange data exchange module provides bidirectional data interface capabilities based on the STEP, IGES and DXF standards.
UG/CAST Online (UG online self-learning software)
UG/CAST Online is a set of UG software online self-learning software system, which covers the UG software main modules from modeling, drawing, assembly, and processing, providing users with a set of online tutorials, automatic subject help, problem-solving demonstration and trainee practice. In one of the efficient UG self-learning environment, can improve learning speed and efficiency, save training costs and time.
§ UG/WAVE (UG product-level parametric design)
UG/WAVE (What if Alternative Value Engineering) Product-level parametric design technology, suitable for the design of complex products such as automobiles and airplanes. The UG/WAVE technology automatically transfers product design changes from top to bottom. The technology can be used at every stage from the initial design of the product to the detailed design. UG/WAVE technology helps users identify key design variables that drive product design changes and place these variables in the UG/WAVE top-level control structure. The design of sub-components and parts is related to these variables, and changes to these variables are automatically updated Top-level structures and their associated sub-components and parts. Since UG uses compound modeling technology based on variable geometry, these key design variables can be either numerical variables or generalized variables such as a spline curve or a space surface. Value changes and shape changes can be controlled by UG/WAVE. Passed to related subcomponents and part designs. The use of the UG/WAVE technology is in line with the parametric product design process and rules, ie, the overall design followed by the detailed design, and the local design decision is subject to the overall design decision. In the past, parametric technology was mostly used to parameterize the parts themselves. It was very difficult to manage the relationship of the parameters of the entire product. UG/WAVE provides a solution to the problem of design change control in large-scale product design and is a product-level concurrent engineering technology. Helps improve design reuse. The main components of UG/WAVE: UG/WAVE dependency manager: - Provides users with full control over the transfer of design changes - Provides detailed information about objects and parts - UG/WAVE geometry guides provide information on relevant design geometry - Allowed Find related parts and parts along geometric correlations - Handle relations between parts or parts UG/WAVE Control Structure Editor - Create a product's top level control structure and related subordinate part relationships - Build layers one by one as the layers build up Structure, and establish the relationship between the newly created component and its superstructure. Switch to the parent assembly or WAVE source part in the WAVE hierarchy
§ UG/Scenario for Motion+
UG/Scenario for Motion + Motion Agency Module provides agency design, analysis, simulation, and document generation capabilities to define mechanisms in UG solid models or assembly environments including institutional definition elements such as hinges, links, springs, damping, initial motion conditions, and more The well-defined mechanism can be directly analyzed in the UG, and various studies can be conducted, including options such as minimum distance, interference check, and trajectory envelope, and the mechanism motion can be actually simulated. Users can analyze reaction forces and graphically synthesize displacement, velocity, and acceleration profiles. Reaction forces can be entered in finite element analysis and an integrated library of motion linkage elements can be provided. Seamless connection between UG/Mechanisms and MDI/ADAMS to pass the results of preprocessing directly to MDI/ADAMS for analysis
§ UG/Routing (UG Tubing Design)
UG/Routing piping design module provides pipeline centerline definition, piping standard parts, design guideline definition and inspection function, pipeline layout and design in UG assembly environment, including hard, hoseway, buried trunking, Joints, fasteners design. The module can automatically generate key data such as pipeline schedules, pipe lengths, etc., and can perform interference check. The system itself includes more than 200 series pipeline standard parts library, which can be added or changed by the user according to need. The user can also design or modify the criteria, and the system will perform automatic inspection according to defined rules (such as minimum bending radius, etc.)
UG/Wiring (UG Electrical Wiring)
The UG/Wiring electrical wiring module is a three-dimensional design tool for generating electrical wiring data. This module provides electrical wiring designers, mechanical engineers, electrical engineers and craftsmen the ability to generate virtual prototypes of electrical wiring systems. The module accepts logical connection information including the schematic design module, which automatically calculates the cable length and the bundle diameter. This module converts the routing center to a solid body for interference checking. UG/Harness also provides automatic inspection of bend radius and automatic generation of material detail
§ UG/Die engineering (UG Stamping Engineering)
UG/Die Engineering mold engineering is a module developed by UG for automotive sheet metal stamping die design. Its function includes the definition of stamping process and the design of stamping process parts, such as the design of the supplementary surface, and the stretching and pressing surface. Design to help users complete the design of stamping dies
§ UG/in-Shape (UG Reverse Engineering)
UG/in-Shape is a software module for reverse engineering launched by UG. Its theoretical basis is Paraform's technology foundation. It uses a method called “rapid surfacing†to provide a convenient set of tools. The tool set receives a variety of data to construct the surface model. This technology is currently being adopted by many well-known companies such as GM, Ford, Lear, Boeing, Trim System Inc., and its application areas and functions include: - Rapid Surfacing Receive 3D scan data, rapid generation of polygon representation or NURBS expression model - Processing point cloud data transformation of various data such as machining data, CMM points, etc. into a polygon representation or NURBS expression surface model - Reverse engineering receives 3D scan data, constructed to use Polygonal representation for evaluation, processing and editing on UG, or NURBS-expressed model - Mirroring mirroring or lofting - Multiple resolution models generate model versions adapted to different uses for the same data set, eg one version for tooling design, one for FEA Finite Element Analysis - Legacy data processing Number of IGES for other systems Surfaces directly converted to UG - Vendor Verification & QA Inspection - Preparation for engineering analysis Convert scan data into polygon representations or NURBS expression models for finite element analysis - Design for Manufacturing evaluates parting lines for unprocessable parts -etc. - Manufacturing analysis analyzes tool wear, material rebound, etc. - Tooling modification and repair tooling modifications and repairs - Surface quality verification Surface quality inspection.
§ UG/Gateway (UG entry)