|
|
GibbsCAM TMS (Tombstone Management System)
Tombstones are a very productive means for machining multiple parts, greatly extending the time a machining center can run without operator intervention. GibbsCAM TMS (Tombstone Management System) streamlines multi-part setups to move more material through a machine tool while dramatically reducing the overall time required to create error-free machining processes.
Is it more efficient to keep the tool in the spindle and index around the tombstone or would it be better to finish all operations on one face of the tombstone before indexing to the next? GibbsCAM TMS makes it easy to try a variety of strategies to find the optimal strategy for any group of parts.
Perfect for lean manufacturing environments, or for job shops that want to implement lean principles, tombstone machining automates the output of a continuous flow of parts. The simplest strategy is to arrange the same part across multiple locations and sides of a tombstone and machine them one after the other by simply repeating the CNC program. With each rotation of the tombstone, a fresh group of parts is presented for machining.
With only a few mouse clicks, parts and their associated fixtures are located on the tombstone. GibbsCAM TMS offers numerous options for automatically arranging parts on a tombstone face with the choice of duplicating the same configuration on all faces of the tombstone or creating custom configurations for each face.
For parts that require different operations using a variety of tools, a more complex strategy can be defined that optimizes tool changes and minimizes rotations of the tombstone. Different faces of the same part can be programmed, at different Z-levels, on each side of the tombstone or mix different types of parts. GibbsCAM TMS handles the simplest to the most complex tombstone configurations.
Operations can be added or cleared to modify the sequence of operations on each side of the tombstone to accommodate certain exceptions. For example, features can be selectively excluded on the sides of parts that face other workpieces instead of the open side of the tombstone where the spindle can reach. These operations can then be addressed later in another setup. Separate clearance values control the safe distance for the tool when moving from part to part on one face of the tombstone and the safe distance when indexing from face to face on the tombstone.
When GibbsCAM TMS is combined with GibbsCAM Machine Simulation, a dynamic rendering of the complete setup-tombstone, parts, fixtures, and machine tool component-shows all inter-operation and intra-operation moves. Different strategies and their cycle times can be compared and adjusted quickly and easily.
After various scenarios have been tested and the user is completely satisfied with tool movement, tool changes, sequence of operations and index moves, GibbsCAM TMS will generate a complete post processed set of G-code for the entire tombstone of parts. GibbsCAM TMS also provides support for the posted output of subroutines, canned cycles, and B-rotation positions. |
|
FeatureWIRE
Drawing
Gear and Cam Wizards
In addition to standard drawing tools, FeatureWIRE includes wizards that allow you to create industry-standard gears and cams by simply specifying the design parameters.
CREATING FeatureWIRE FEATURES
FeatureWIRE includes the following features for part creation.
Dies - Creates dies for stamping or female metal parts, with no-core cutting supported
Punches - Creates punches for stamping or male metal parts
Sides - Creates parts with open curves
User Definable Features |
|
| TopSolid'Wood is an integrated design, manufacturing and management (CAD/CAM/PDM) software specialized for wood processing. TopSolid’Wood comprises comprehensive standard components and processes specific to the wood industry. With TopSolid’Wood design and manufacturing departments use the same data, thus avoiding potential errors. TopSolid’Wood offers powerful modelling functions, optimized assembly management and facilitated communication with customers and manufacturing. |
|
| TopSolid'Progress is a fully integrated CAD module for progressive tool design. In addition to incorporating all those functions standard to TopSolid, TopSolid’Progress enables the successful blanking of a sheet metal part and the design of the strip in half the time needed by a standard CAD software. The software manages all cutting, folding and deforming stages of the sheet metal, creation of the die set, addition of standard components together with their machining processes, creation of punches, non-standard matrices and draft creation. |
|
Why Choose GibbsCAM?
Like most people, you probably go looking for a CAM system with pretty simple, and reasonable, expectations. You want a system that's powerful enough to handle your most challenging jobs, yet easy enough to learn and use so that you're up and running as quickly as possible.
You also want to work with a software company you can trust, a company whose leadership will help ensure your own, a company you can trust to stand behind its products.
We believe you have found that in GibbsCAM and Gibbs and Associates.
A Tradition of Leadership Since 1982
Gibbs and Associates was a pioneer in the CAD/CAM revolution:
GibbsCAM Firsts:
-First PC-based software with a genuine graphical user interface
-First with truly associative toolpath
-First with integrated part rendering
-First U.S. PC software company to offer integrated solid modeling with CAD/CAM
-And first with direct machining of solid models
These only begin to tell the Gibbs leadership story -
technological leadership you can count on to help you build your business.
Easy to Learn
GibbsCAM was designed by machinists for machinists, so you'll spend your time cutting metal, not struggling to learn programming. In fact, the GibbsCAM system is so easy to learn, most operators are programming parts on their first day.
Easy to Use
GibbsCAM's powerful software has an intuitive graphical user interface. So, machining is a simple matter of point and click, drag and drop.
See Your Work Before You Cut It
Use the GibbsCAM graphical environment to define geometry, locate fixtures, specify tooling, generate toolpath, and verify your cuts before they can become expensive mistakes on your machine tool. |
|
Solid Edge
Solids-based GibbsCAM modules can directly read native Solid Edge model files. An add-in for Solid Edge is offered, which allows Solid Edge models to be transferred directly to GibbsCAM from within the Solid Edge session, dramatically streamlining the transfer process. GibbsCAM is a Solid Edge Voyager Certified Select Product. |
|
SolidWorks
Solids-based GibbsCAM modules can directly read native SolidWorks model files, including assemblies and configurations. An add-in for SolidWorks is offered, which allows SolidWorks models to be transferred directly to GibbsCAM from within the SolidWorks session, dramatically streamlining the transfer process. GibbsCAM is a SolidWorks Certified CAM Product. |
|
Pro/ENGINEER
GibbsCAM optionally has the ability to directly read in assemblies and solids contained in Pro/ENGINEER files. Depending on the GibbsCAM modules in use, part data can be read in as wireframe, surface or solid geometry. GibbsCAM's Pro/ENGINEER data exchange option is built using PTC's Granite technology ensuring the highest level of accessibility and interoperability. |
|
CATIA V4/V5
GibbsCAM optionally has the ability to read in native CATIA V4 or CATIA V5 model files. Depending on the GibbsCAM modules in use, part data can be read in as wireframe, surface or solid geometry. |
|
CATIA V4/V5
GibbsCAM optionally has the ability to read in native CATIA V4 or CATIA V5 model files. Depending on the GibbsCAM modules in use, part data can be read in as wireframe, surface or solid geometry. |
|
Autodesk Inventor
Solids-based GibbsCAM modules can optionally read native Autodesk Inventor model files. An add-in for Inventor is offered, which allows Inventor models to be transferred directly to GibbsCAM from within the Inventor session, dramatically streamlining the transfer process. A similar add-in also is available for the Mechanical Desktop. GibbsCAM is certified under the Autodesk Inventor Certified Application Program. |
|
GibbsCAM 2.5D Solids
GibbsCAM 2.5D Solids provides significant surface and solid modeling capabilities. Functionality to directly machine surfaces and solids is also included. With this module, you have the ability to create, import and modify solid models and then generate programs to machine them. Specialized tools are also provided to import, repair and automatically solidify surface data. Using GibbsCAM 2.5D Solids, CNC programs can be created faster and easier, making you more efficient and productive.
Powerful Solid Modeling
Whether you import solid models from a CAD system, create your own from scratch, or modify an imported solid to create a manufacturable version, GibbsCAM 2.5D Solids provides a full range of solid modeling functionality with advanced functionality like history trees to support you. And GibbsCAM's industry leading ease-of-use makes working with solids straight forward and understandable. With GibbsCAM 2.5D Solid's powerful solid modeling tools, you'll be able to take full advantage of solid modeling technology.
Import and Repair Surface Models
Even with the transition to solids, CAD systems are still generating surface models that need to be imported and machined. With GibbsCAM 2.5D Solids you can read in surface models and then repair any problems you encounter with a broad range of surface modeling tools. You can also create your own surfaces for machining. If you still work with surface models, GibbsCAM 2.5D Solids can still cut your jobs and provide a great migration path to solids-based machining.
Automatic Solidification
With GibbsCAM 2.5D Solids, you don't have to start with solid models to take advantage of solids-based machining. Surface models, whether imported or created, can be automatically stitched together to create solid models which can then be further modified using GibbsCAM's solid modeling tools or machined directly. GibbsCAM 2.5D Solids provides you with the tools you need to transition from surface-based to solids-based CAM.
Directly Machine 2.5D Solids
Not only do solid models provide considerable advantages during design, but solid models also have many advantages during machining. GibbsCAM 2.5D Solids' machining functionalities were developed to not only allow users to directly machine solids, but to specifically take advantage of the additional information available in solids resulting in improved performance, reliability and efficiency.
Solids Positioning Tools
Since solid models are the main building block within GibbsCAM 2.5D Solids, powerful positioning tools are supplied to allow you to quickly and easily yet precisely position and orient solids. Not only are these tools extremely useful when modeling a single part made up of multiple pieces, but they can significantly streamline setting up part models in fixturing. With GibbsCAM 2.5D solids you can focus on how things need to be placed, not how to calculate the rotations and transformations to get them there.
Interactive Feature Recognition (Profiler)
Identifying the manufacturable features in a part is a common starting point for a program. The Profiler, an innovative interface to interactively define features like bosses, slots, and pockets, is included in GibbsCAM 2.5D Solids. Unlike automatic feature recognition, the Profiler gives the user complete control over the geometric elements which are included in a feature. The Profiler can also interactively derive geometry which is used for machining. GibbsCAM 2.5D Solids' robust feature-based machining provides the user with powerful programming tools.
Automatic Feature Recognition (Holes)
Hole-making occupies close to 80% of machining time with most production machining jobs. Holes also represent a significant amount of programming time in production parts. Fortunately, holes are also fairly well-behaved features in solid models. GibbsCAM 2.5D Solids provides an automatic feature recognition (AFR) capability that identifies holes along with their position and orientation, and also determines various hole aspects (chamfer, counter-sink/bore, bottom condition) based on the hole's geometry. Leveraging GibbsCAM 2.5D Solids' AFR capability you can improve your hole-making efficiency and quality.
Hole Manager
With hole-making occupying close to 80% of production parts' machining time how you identify, group and program holes becomes extremely important. GibbsCAM 2.5D Solids provides the Hole Manager as a front-end to processing hole features. The Hole Manager displays the parameters of holes allowing you to group them for processing. The Hole AFR is integrated with the Hole Manager allowing automatically identified hole features to be directly loaded into it. The Hole Wizard is similarly integrated allowing hole information to be directly passed for automatic tooling and toolpath generation. With GibbsCAM 2.5D Solids your hole-making productivity is streamlined and overall quality is improved. |
|
Free-form Geometry Creation
Whether you start with imported geometry or need to create your own geometry, GibbsCAM Production Milling's free-from geometry capabilities provide a powerful means to create and edit geometry for machining. GibbsCAM's graphical user interface infers what operations you want to perform based on the elements selection dramatically streamlining interactions with the system. Auto-chaining eliminates the need to continually stop the work flow to trim and connect geometry.
Graphical Tool Definition
GibbsCAM Production Milling's graphical user interface to define tools shows the user key dimensions to allow easy and error free tooling creation. The system supports a wide variety of predefined tool types as well as user-defined form tools.
Multi-Process Programming
GibbsCAM Production Milling allows you to select geometry once and to apply multiple machining operations, such as a series of rough, semi-rough, finish passes, to it all at one time. The resulting processes are associated to each other as well as the original geometry allowing updates to be easily accommodated.
Knowledge-Based Programming
GibbsCAM Production Milling allows processes (including Multi-Process Processes) and associated tooling to be saved and re-used between programs. A knowledge base library of process/tooling can be developed from a shop's best machining practices improving programming efficiency, program consistency and part quality.
Full 2/2.5-Axis Programming
GibbsCAM Production Milling provides a full range of functionality for defining processes for efficiently machining 2- and 2.5-axis parts from geometry.
Advanced Pocketing Routines
GibbsCAM Production Milling's advanced pocketing routines supports machining open-sided pockets as well pilot and/or auto pocket corner drill pockets with unlimited islands or bosses. You can specify whether or not you want to machine pockets breadth first or depth first. Pocketing machining strategies supported include: Auto Plunge, User Plunge, Ramp, Periphery Ramp and Helix.
Boring/Drilling Sub-Routines
GibbsCAM Production Milling supports a wide range of Boring (bore, fine bore, backbore) and Drilling sub-routines ensuring that hole making operations are as efficient as possible.
Thread Milling
GibbsCAM Production Milling supports a full set of thread milling capabilities allowing ID and OD threads to be created easily. |
|
Full 2-Axis Programming
GibbsCAM Production Turning provides a full range of functionality for defining processes for efficiently machining 2-axis parts from wireframe geometry.
Graphical Tool Definition
GibbsCAM Production Turning's graphical user interface to define tools shows the user key dimensions to allow easy and error free tooling creation. The system supports wide variety of predefined tool types as well as user-defined form tools.
Start/End Point Control
With GibbsCAM Production Turning you have complete control over where you initially position the tool to start machining to where you finish machining. Approach extensions are automatically generated if the tool is started off the machined profile.
Advanced Roughing Routines
GibbsCAM Production Turning provides a full range of roughing routines such as turn roughing cycles for plunge roughing with automatic shoulder stroking, and pattern shift roughing with constant path and constant step over choices.
Material Awareness
GibbsCAM Production Turning maintains an awareness of remaining stock material allowing automatic calculation of entry/exit and toolpath moves to reduce programming time and eliminate air-cutting. Knowing where remaining stock is also allows the system to automatically define rapids which avoid material.
Tool Approach Control
With GibbsCAM Production Turning you can define toolpaths so the tool cuts in both forward and reverse directions or in one direction only. No tool dragging automatically calculates optimal cutting toolpaths, so the tool is always cutting in a forward insert direction.
Canned Cycle Support
GibbsCAM Production Turning provides support for a wide range of canned cycles, such as face, OD/ID and casting canned-cycles for roughing and finishing operations as well as most drill-type cycles.
Threading
GibbsCAM Production Turning includes a built-in library for all popular thread form data allowing threads to be quickly and accurately programmed. |
|
GibbsCAM Solids Import
GibbsCAM Solids Import provides entry-level support for machining solid models. Solid models can be read, viewed and manipulated. Geometry can be selected and extracted for machining. Using this option you can import a solid model, view it, extract geometry from selected edges, which can then be machined. This option is ideal for users who have been machining wireframe geometry who want to expand their capabilities to support rudimentary machining of solids. |
|
Free-form Geometry Creation
Whether you start with imported geometry or need to create your own geometry, GibbsCAM Production Milling's free-from geometry capabilities provide a powerful means to create and edit geometry for machining. GibbsCAM's graphical user interface infers what operations you want to perform based on the elements selection dramatically streamlining interactions with the system. Auto-chaining eliminates the need to continually stop the work flow to trim and connect geometry.
Graphical Tool Definition
GibbsCAM Production Milling's graphical user interface to define tools shows the user key dimensions to allow easy and error free tooling creation. The system supports a wide variety of predefined tool types as well as user-defined form tools.
Multi-Process Programming
GibbsCAM Production Milling allows you to select geometry once and to apply multiple machining operations, such as a series of rough, semi-rough, finish passes, to it all at one time. The resulting processes are associated to each other as well as the original geometry allowing updates to be easily accommodated.
Knowledge-Based Programming
GibbsCAM Production Milling allows processes (including Multi-Process Processes) and associated tooling to be saved and re-used between programs. A knowledge base library of process/tooling can be developed from a shop's best machining practices improving programming efficiency, program consistency and part quality.
Full 2/2.5-Axis Programming
GibbsCAM Production Milling provides a full range of functionality for defining processes for efficiently machining 2- and 2.5-axis parts from geometry.
Advanced Pocketing Routines
GibbsCAM Production Milling's advanced pocketing routines supports machining open-sided pockets as well pilot and/or auto pocket corner drill pockets with unlimited islands or bosses. You can specify whether or not you want to machine pockets breadth first or depth first. Pocketing machining strategies supported include: Auto Plunge, User Plunge, Ramp, Periphery Ramp and Helix.
Boring/Drilling Sub-Routines
GibbsCAM Production Milling supports a wide range of Boring (bore, fine bore, backbore) and Drilling sub-routines ensuring that hole making operations are as efficient as possible.
Thread Milling
GibbsCAM Production Milling supports a full set of thread milling capabilities allowing ID and OD threads to be created easily. |
|
GibbsCAM MTM (Multi-Task Machining) was specifically designed to address the CNC programming requirements of multi-task machine tools, providing powerful programming tools that are easy to learn and use with the ultimate in flexibility and configurability. Machining processes are easily defined with GibbsCAM's intuitive graphical user interface that provides seamless access to both turning and milling capabilities. And GibbsCAM's associativity allows operations to be updated easily when modifications are made. Factory-supplied post processors output multi-flow NC code complete with utility operations and sync codes.
Machine-Specific Setup
Multi-task machine tools represent some of the most diverse machine tool configurations available today. With GibbsCAM MTM, your machine tool's specific configuration is captured by GibbsCAM's factory-supplied settings so that you are accurately programming all its capabilities. This way you can be sure that you are taking full advantage of your machine tool for maximum productivity.
Multiple Turrets/Spindles
Today's multi-task machine tools incorporate a wide variety of spindle and turret combinations with no end in sight. A two spindle, two turret configuration is fairly common with machines with more than two spindles or turrets becoming more and more common. GibbsCAM MTM supports an unlimited number of turrets and spindles allowing you to keep pace with advances in multi-task machines.
Live Tooling Support
Multi-task machine tools used to be mainly high-end turning centers with two spindles and tool holders, sometimes including a light-use live tooling capability. Though these are still common, multi-task machine tools now incorporate more substantial live tooling support which allows more extensive milling operations to be performed. GibbsCAM MTM can be combined with any of the GibbsCAM milling options to support your multi-task machine tool's complete range of milling operations.
Swiss-Style Machine Tools
Swiss-style machine tools are becoming extremely popular especially for ultra-high precision parts. Like other types of multitask machine tools, Swiss-style machine tools have also gone through a radical evolution and represent some of the most complex MTM configurations available. GibbsCAM MTM supports Swiss-style multi-task machine tools and provides an easy-to-use tool for programming these complex devices. Supporting your Swiss-style machine tools is straight forward with GibbsCAM MTM.
Utility Ops Support
Bar Feeders. Parts Catchers. Sub-Spindles. These are just a few of the ancillary devices on a multi-task machine tool that require non-cutting utility operations to control. GibbsCAM MTM supports the entire range of utility operations used by your machine tool providing you with full control all the way to posted output.
Sync Manager
Unlike single cutting tool machine tools, multi-task machine tools apply multiple tools across one or more spindles at the same time often in a synchronized fashion. Manually coordinating multiple process flows requires understanding many details and interdependencies. GibbsCAM MTM's Sync Manager provides an easy to understand, intuitive graphical interface allowing you to focus on optimizing your process. The Sync Manager handles all the underlying complexities for you. Programming multiple processes has never been easier or more efficient.
Integrated Cut Part Rendering
With the complexity of multi-flow multi-task processes it is extremely important to verify programs before they can become expensive mistakes on your machine tools. GibbsCAM MTM's integrated Cut Part Rendering allows you to visually verify your programs fully simulating multiple tools cutting at the same time. Not only can gouges be detected, but you can also observe how efficient your program is allowing you to make adjustments further optimizing your program. See it before you machine it.
Factory Supplied Posts
With all the configurability and complexity of multi-task machine tools creating a correct and complete post processor can be quite a challenge. GibbsCAM MTM's factory supplied posts ensure you get posted output specifically formatted for your machine tool that fully supports its capabilities. With factory supplied posts, you don't spend your time figuring out how to post output for your machine tool. Get "what-you-see-is-what-you-machine" output with GibbsCAM MTM posts. |
|
| METAL DESIGNER PBs is a metal forming software with CAD/CAM functionalities that enhances the offline programming of press brakes with respect to online programming. METAL DESIGNER PBs allows you to reduce unproductive machine times and scrap, prevent operators' errors and standardize production. |
|
GibbsCAM Wire-EDM
Designed to handle the most demanding Wire-EDM programs while being easy-to-use, GibbsCAM Wire-EDM supports programming 2- thru 4-axis CNC Wire-EDM machines. With a very flexible and robust graphical user, novice users will find the system easy to understand and learn, while experienced users will find it a straightforward, efficient way to access its breadth of capability and options. GibbsCAM Wire-EDM provides the user with complete control over the Wire-EDM machining operations. Post processors for all major brands of Wire-EDM machines are included.
2-axis and 4-axis Support
Wire-EDM machining represents an expanding segment of manufacturing with continual improvements in technology and machine tools. GibbsCAM Wire-EDM provides full support for 2-axis parallel or tapered with or without lands and 4-axis tapered machining with automatic 4-axis synchronization. Full associativity with geometry allows for easy updating to accommodate changes. With full control over all aspects of machining, you can fully optimize your part production while ensuring high quality results.
Machine Configuration
Today's Wire-EDM machines come in a wide variety of configurations, but there are key parameters and characteristics across all of them. GibbsCAM Wire-EDM allows you to fully define the physical and operating characteristics of your Wire-EDM machine tool, wire and stock to use in programming your parts. Standardized settings can be stored and recalled ensuring consistency between jobs.
Multiple Part Support
Setting up a Wire-EDM machine to cut multiple parts unattended is a very common mode of operating. GibbsCAM Wire-EDM supports cutting multiple parts with different machining strategies-completely cut out each part individually, 2 stage (rough first or rough-skim first) or 3 stage (rough, skim, gluestops). Code can be output either as sub-routines or in longhand format depending on the machine controller.
Machining Strategies (user-specified number of rough/skim cuts)
Wire-EDM cutting parameters and machining strategies vary depending on material, thickness and other material conditions. GibbsCAM Wire-EDM allows full control of your machining strategy such as entry/exit radius, start/end angles, gluestop tag removal, skim cut control and handling lands/tapers. Cut with confidence the way you want.
EPAK Table Settings
Today's wire-EDM machine tools use a wide variety of settings for a wide variety of machining situations. GibbsCAM Wire-EDM allows you to define various standard or custom machining EPAK settings for rough and skim cuts for different part/stock conditions. These EPAK settings can be saved in a library allowing them to be reused in future jobs ensuring production consistency. Once you've determined what works, you don't need to go back and figure it out again.
Machine Data Integration
Many of today's Wire-EDM machine vendors provide a wide variety of support for manufacturing data. GibbsCAM Wire-EDM allows data from Mitsubishi to be directly read into its configuration and parameter tables. In addition, Charmilles' CT-Expert has been integrated into GibbsCAM Wire-EDM providing a seamless interface to its knowledge base. Cut with confidence using the Wire-EDM vendors' data!
Advanced Visualization
Whether defining the orientation and path of the wire, or reviewing a simulation of the process to verify your program, visualization is a key aspect in developing a Wire-EDM process. GibbsCAM Wire-EDM provides a full range of visualization modes which correspond to various stages of programming. In addition to GibbsCAM's standard display, a four view display is provided to allow you multiple standard views of your work for maximum clarity. A real-time simulation of the process is also provided to allow you to verify your program before running it on the machine. You won't be in the dark any longer with GibbsCAM Wire-EDM.
Post Processor Support
Put simply, CNC Wire-EDM machines run off CNC programs. GibbsCAM Wire-EDM's powerful post processing capability generates optimal and efficient CNC output for your Wire-EDM machines. Posts are included for the widest range of popular Wire-EDM machines. With GibbsCAM Wire-EDM what you see is what you machine. |
|
| TopSolid’Wire is a fully integrated software solution which pilots wire electro-erosion machines. TopSolid’Wire principally serves companies which make tools, whether molds for the plastics industry or cutting tools. In addition to cutting in 2D, TopSolid’Wire directly creates tool paths for 3D parts defined with a solid modeller. TopSolid’Wire can work with all parts in 2 axes, 2 axes and angle and 4 axes. |
|
GibbsCAM Machine Simulation
An extension to GibbsCAM’s integrated Cut Part Rendering visualization/verification capability, Machine Simulation uses animated machine tool models to identify any program errors before they cause costly mistakes on the shop floor. |
|
| GOelan is a CAD/CAM software for the design and machining of mechanical parts in milling, turning and wire electroerosion. It is an easy to use software which enables programming of numerically controlled machines.GOelan programs directly at the workshop level with a maximum of simplicity. GOelan is designed to be used by manufacturing specialists who are not necessarily computer specialists. |
|
MasterNEST is an application for automatic nesting of shapes and an advanced software system for production planning, including work order management and material stock analysis and control.
MasterNEST can share part drawings, workpieces and technological data with MD Series applications. In addition, MasterNEST can exchange job orders, cutting plans and warehouse data with Factory (COMPUTES application for production control and planning) and MasterSTORE for automated storage systems. |
|
Kubotek USA delivers today’s most cost-effective CAD/CAM solutions for companies and professionals who need freedom to design and adaptability for manufacture. Our customers claim that Kubotek technology provides a competitive edge to help win new business and bring innovative products to market faster in today’s rapidly changing global market.
|
|
hyperCAD® a flexible and versatile CAD system for the construction and working on 2D and 3D-Modellen are expressed. It has a set of High end functions, which simplify complex procedures in particular. So models and their variations can be developed fast and efficiently. A change is possible between the 2D and 3D-Welt.
Most important capability characteristics:
- Simple one, control surface user-friendly
- Intelligent functions such as SMART OBJECTS or GLOBAL SHAPE MODELING, which automate routine tasks
- Simultaneous working with circling, volume and surface data in an environment
- Flexible transition from Solids to surfaces
- Providing 3D-Modellen on basis of 2D-Zeichnungen
- Generation of 2D-Zeichnungen from 3D-Modellen
- Data import and export functions
- Integrated partial library |
|
|
