NC Machine Builder
Create and Manage Virtual NC Machine Tools and Accessories
DELMIA NC Machine Builder (NMB) gives you the tools you need to create virtual NC machines, machine accessories, and their controllers for use in NC programming, optimization, and validation in a virtual 3D environment. You can easily model milling, turning and mill-turn machines. But you can also easily model complex machines: milling machines with multiple heads, multiple spindles, and multiple turrets, or multi-tasking mill-turn machines. Machine modelers can define axis-motion parameters, including travel limits, acceleration, and speeds. Once the NC machine model is completed and validated, it can be saved as a PLM 2.0 resource in the V6 single IP platform to be used by all NC programmers throughout the enterprise.
- Leverage the NC machine.
- Simplify machine tool kinematic definition.
- Easily create any machine type.
Complete NC machine or machine accessory definition including geometry, kinematics and controllerNMB users can model NC machines or machine accessories using a combination of prismatic, revolute, and rigid joints. They can assign attributes to these joints, such as joint name, travel limit, velocity and acceleration limits. They can also assign machine home positions and tool change position, including the position’s axis priorities. NC machine table and spindle positions can be defined by identifying the tool and workpiece mount parts and axis systems. Accurate modeling can be completed by adding NC controller information.
Automatic assignment of inverse kinematic solverBased on the kinematic type of the NC machine, an inverse kinematic solver is automatically assigned without any user interaction. This includes support for NC machines with fixed or moving beds, rotary axes on a bed or head, and interchangeable heads, and for mill-turn machines with rotary turrets and mill turrets.
Validation of NC machine kinematics and other attributes through the Jog capabilityOnce the machine definition is complete, the user can validate the machine model using the jog capability. This includes validation of forward and inverse kinematics, travel limits, home positions, and the reachable workspace.