Ucancam
V9 Professional (surface) a powerful, flexible industrial
strength software that includes all of the Ucancam V9 3D Engraving
and Waveboard functions, as well as the surface features.
Pro includes all the design, layout and machining functionality
demanded by commercial shops and users, while remaining incredibly
easy to use and affordably priced. Ucancam V9 Pro. is a complete
solution for 3D Model Making ( CNC routing,engraving,and milling
), Rapid Prototyping and Sign making, Wood Carving( Custom
fireplaces, door panels), Stone cutting(Memorials, Commemorative
plaques) .
As well as the current mainstream
UcancamV9 Pro.'s 3D Wave board, for this ,Pro. offers all
the tools you need for surface waveboard designs' machining,
such existing wave-shaped designs as lines, curves, waves
can be created on MDF boards. In addition, Original and unique
designs and even users'special requirements for cutting characters
or graphs on finished wave boards can also be grabed.Various
artistic effects can be achieved through different treatment
of MDF boards through Ucancam V9 Pro..
UcancamV9 Pro's exceptionally easy
to use interface leads you step-by-step through the process
of loading a model, setting the size, profile machining etc.
interactively previewing the results and finally saving the
CNC code to run on your machine.
|
| CAD |
|
 |
File formats supported:
import the Iges,Stl,Obj file
|
 |
Standard surfaces include
plane, sphere, cylinder, cone, ellipsoid, torus |
 |
Free surfaces include
loft, rule, sweep along a path with edge matching,
sweep along two rail curves with edge continuity, revolve,blend,
patch. |
 |
Edit surfaces
chamfer, fillet, extend, trim, untrim, split surface by isoparams |
 |
Equation Curve
the software can automatically generate the curve described
in the equation like this:
| { |
X=fx(t) |
or |
{ |
R=r(t) |
| Y=fy(t) |
θ=theta(t) |
| Z=fz(t) |
Z=Z(t) |
|
 |
Automatic Nesting
Automatic Nesting can improve material utilization by re-arranging
texts, graphics. Its automatic and fast publishing can save
us lots of material. Parameters can be set , such as kerf width,
cutting margin compensation , multiple blank nesting mode, and
the precise calculation, which can greatly improve the work
efficiency.
|
 |
Interactive Nesting
After setting the parameters of kerf width, cutting margin compensation
and Iteration count; You can manually nest objects by Interactive
Nesting.
Interference alarm to prevent accidental cutting and the objects
can be placed arbitrarily without any interference with each
other and with the boundary. |
 |
Remain Material Management
Whether using remaining material is reasonable is related to
the utilization rate of material. Using remaining material unreasonably
can cause waste of material. Remaining material management provides
us an easy way to recycle material and ensure the continuity
of the work.
|
| CAM |
 |
Projection Machining
Toolpath projection onto a complex surface, to complete engraving
of text, graphics on surfaces. During projection ,the original
relative height can be kept.
|
 |
Surface Rough
Machining
Rough machining is for making the general work pieces through
rapid removal of excess materials. Rough machining tries to
achieve the maximum cutting efficiency while considering the
actual situation like blank shape, workpiece shape, machining
materials, machining conditions. During the machining, Rough
milling can be layered, support equal cutting technology and
control machining allowance.
|
 |
Surface Finish
Parallel Machining
Surface Milling often makes finish parallel machining with
Ball Nose. Parallel machining means the toolpath is parallel.Toolpath
machines the entire surface through parallels. The linear
cutting machining can be done in any direction or of any angles,
but all the surface machining toolpaths must be parallel.
In most cases, parallel toolpaths can cut out the best surface.
|
|
Surface Finish
Contour Machining
Finish Contour machining can promote the machining
speed in the same horizontal plane with Z-axis invariable. Besides,
partial contour can also be carried out via limiting the machining
range and depth. Toolpath is fitted into arc which reduces the
G-codes and improves machining efficiency. This is mainly used
for high-speed milling machines. |
|
Machining Simulation
Machining Simulation of milling process can be a true representation.
Material texture can be set. |
| Waveboard |
| |
Straight Texture
straight texture can be directly generated by selecting different
tools and by setting texture sizes , toolpath intervals and
undulating lines.
|
| |
Curvilinear Teture
Curvilinear texture can be directly generated by selecting different
tools and by setting texture sizes,toolpath intervals ,sample
lines and base lines.
|
| |
Straight Wave
Straight Wave can be directly generated by selecting different
tools and by setting texture sizes,toolpath intervals ,sample
lines ,base lines,and wave angles.
|
| |
Curvilinear Wave
Curvilinear Wave can be directly generated ,by selecting different
tools and by setting texture sizes,toolpath intervals ,wave
angles ,fold height, sample lines and base lines.
|
|
Silk texture
Hair-shaped effects can be achieved through the silk texture
machining on regular or irregular, scattered or disorderly
straight lines and curveilinear lines in three ways: middle
wider,start wider and end wider.
|
| |
Texture trimming
Designed texts and graphics can be cut out from the generated
wave board toolpath .This enables waveboard to integrate with
other carving patterns.
|
