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Noviform Smart-S Plus

Compact ZNC Machine - Super High Quality Finish - Special hard Materials

New introduction for Europe : Smart Plus-S Series

We are updating our webpage on this new model - please have some patience

Noviform SMART-S Plus Series

Super High surface finish Precision

New in our Range for Europe

Noviform Smart Plus-S Series

A new generation of high performance Noviform Smart Plus-S ZNC EDM with 15" screen numerical control and super low wear circuits design promises to offer an affordable high precision alternative to conventional EDM.

Space-saving, highly precise, cost-effective, affordable.

A real top performer:

The Noviform Smart series was designed for minor and medium cavity sinking processes that nevertheless require high precision. And that is exactly what it delivers: reliably, powerfully and with permanent accuracy. The Smart-series have an easy access and it is the most space-saving machine on the market.

The concept of Noviform Smart-series is time-tested as it is based on the well-proven technology of its predecessors. An extremely rigid casting combined with massive contact guides prevent vibrations and provide perfect stability.

 

SMART- Plus Series

One Zaxis

 

SMART-S-Plus Series

One Z-axis and One W-axis

Double length Z-axis stroke

Noviform Smart-S-Series with double Z-axis stroke!

Biggest distance under spindle platen in the market!!

Compact Design

Controller cabinet integrated in Machine

MODEL NOVIFORM Smart 300Plus NOVIFORM Smart 350S-Plus NOVIFORM Smart 450S-Plus
Structure   Compact - Integrated Compact - Integrated Compact - Integrated
X,Y travel mm 300x200 350x250 450x350
Working table size mm 500x300 630x350 700×450
Spindle travel – Z mm 200 200 250
Spindle Head travel   - 200 250
Electrode connect platen to work-table mm 360 - 560 270 - 630 250 - 600
Electrode platen to work-table with Orbital Head mm 260 – 460 170 – 530 150 - 500
Max. loading of spindle kg 25 50 75
Max. loading of worktable kg 300 500 700/1000
Work tank internal size mm 835x550x320 885x570x380 1180×620×450
Machine dimensions mm 1320x1150x2060 1335x1210x2080 1485×1420×1980
Oil tank size mm 1220x1000x450 1355x1000x450 1355×780×450
Weight kg 1160 kg 1240 kg 1680kg
Electric cabinet parameter and specification Ampère ECO-40AMP ECO-40AMP ECO-40AMP
Cont/Max processing current A 30/40 (opt 60/80) 30/40 (opt 60/80) 30/40 (opt 60/80)
Processing speed in steel mm³/min 220 220 220
Min electrode consumption % < 0.2 % < 0.2 % ≤0.2%
Best roughness µm Ra<0.8 Ra<0.8 Ra<0.8
Max power consumption kW 4,5 4,5 4,5

This entry level machine gives high accuracy results and most engineers can be trained to begin successful sparking in less than ONE hour.

ZNC with Easy operation dialogue interface system

■ Automatic parameter change: Fast erosion to finish erosion.

■ Equal pulse power supplier: When big electrode or depth erosion the computer can calculate the speed special for accuracy or for speed.

■ ARC & Short circuit Protection: Automatic monitor of erosion status, when ARC or Short Circuit, generator will detect GAP feedback signal and adjust erosion frequency.

■ Safety Protection: Auto Fire detection system, ARC Protection and Oil Level Detection provide safety security system.

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NOVIFORM 350S and 450S: 200 and 250mm additional vertical travel

Special design of NOVIFORM 350S/450S Spindle Head includes 200mm/250mm additional vertical travel, parallel to Spindle Z axis. 

Whole unit of Spindle Head can be positioned in a range of 200/250 mm, in order to allow better adjustment of machining height depending on work-piece size. Up and down travel of Spindle Head is motorized and it is actuated by push button on the control panel.

Total Z-stroke is 400/500 mm with MAXIMUM 650/700 mm under spindle nose.

Additional positioning travel of Spindle Head increases the machining capability of wider range of parts in size and shape. Higher position of Spindle Head also allows working with the Orbital Head special accessory.

ORBITAL HEADS (optional)

Every NOVIFORM SMART Die sinker can be  boosted with an orbital head providing higher machining, precision and superior surface quality. Orbiting - or vectoring - EDM machines use one electrode to rough and finish a job, thus eliminating the need for separate roughing and finishing electrodes. The results are a significant timesavings with polishing and finishing because the cavity walls are maintained smooth and perpendicular to the part, as well as less money spent on electrode materials.

The machine gives you the ability to perform a Z-axis burn, and orbit or vector out to the desired size independent of the lectrode size. A normal burn without orbital head, requires you to know the precise overcut, have perfect flush and requires the use of multiple electrodes - generally one rougher and one or two finishers - and still does not guarantee to eliminate taper. The same burn done on an orbiting machine uses fewer electrodes - generally a rougher and a finisher.

Orbiting (radial movement) or vectoring (angular movement) the electrode provides better flush conditions, eliminates taper on the cavity walls and lets you control the desired size. During the EDM, material is being removed by the electrical discharge. The debris (molten chips and electrode particles) are traveling up the cavity walls - creating a secondary discharge that causes a taper effect, also known as bellmouth, as they leave the cavity. Once you reach the desired Z-depth, orbiting or vectoring movement allows you to remove the taper caused by this secondary discharge. The taper will be removed using the same settings used in roughing the cavity. Once the taper is removed, you orbit or vector out until the desired surface finish is achieved by stepping down your power settings.  The orbiting or vectoring movement also creates a vacuum - pulling clean dielectric fluid into the gap and forcing the molten chips out, which provides a better finish.

The purpose of an orbit pattern is to enlarge the size of the final cavity while maintaining control of the shaped geometry. Use of a circular or square (2-axis) orbit pattern will affect the shape of the final produced cavity differently, so the selection of one type over the other is strictly dependent on the shape of the electrode and the specific geometry requirements of the final work piece. The use of a wrong orbit pattern may result in incorrect radii size or the machining of unwanted flats in the final part.

!! When the Circular Orbital Head is mounted, distance between electrode plate and table is +-100/200 mm shorter (depends model) !!

Orbital C head

circular orbit pattern

Circular Orbiting Pattern

  • Maximum load weight: 50 Kg (25K for 250S)
  • The maximum amount of translation (mm): 2
  • Return to zero precision (mm): + 0.005

The circular orbit pattern is the most commonly used. This pattern increases the size of the electrode geometry uniformly on all sizes, but will increase the size of any internal radii. When using a circular orbit with a square or rectangular electrode, the produced internal radii size in the corners will be increased and be larger (Overburn + Orbit Amount).

Circular orbiting function setup and action by novick

Orbital XY head

2 axis vectoring movement

X-Y orbiting/vectoring motion

Circular tracking, tracking the square, square side, arbitrary circumferential angle bisecting continuous, symmetric with arbitrary angles and arbitrary angle lateral

  • Maximum load weight: 30KG
  • XY mobile distance: 0.001mm-3.0mm
  • Reciprocating precision: 0.01mm

square orbit pattern increases the size of the electrode geometry uniformly on all sizes, and will produce the smallest possible inside corner radii. When using a square orbit with a circular electrode, there will be (x4) flats produced. These flats will occur at the X/Y quadrant points, and the size of the flats will be equal to the size of the orbit pattern amount.

We have an upgraded model since 05-2018 with 5° orientation steps

Machine Meticulous Manufactured

High Standard Quality Control

Stiffness and precision are hallmarks of the new NOVIFORM SMART units. State-of-the-art methods have been used in their development, while the finest of modern machining and assembly techniques have gone into their construction.

Each machine is verified with a laser that checks the positioning of each axis to make sure it meets the norm of VDI 3441. Also, each machine must comply with the restrictions according to ISO 230-4.

  • Compact space-saving design with integral dielectric system and generator for machining of small and medium-size parts
  • X/Y axis use High grade Class of ball screw to keep easy transmission and high accuracy.
  • Machine casting use strong material and season cast iron to release of casting inner strain to keep machine body high rigidity without bending.
  • Machine construction according computer tensile strength, resist compression and stiffness strain.
  • NC controlled feed on Z axis (ZNC)
  • Integral design with compact footprint
  • Precision co-ordinate table with needle roller bearings on symmetric guideways
  • Highly accurate work head with the quill running on pre-loaded cross roller bearings
  • Two-door, large work tank for ease of loading and unloading of the workpiece
  • Rigid machine bed made of high-quality cast-iron
  • Linear scales in all axes to ensure constant precision
  • Di-electric tank integrated in the machine frame
  • Manual central lubrication for table guides and spindles
  • Servo drive on Z axis for fine-tuning of system stability
  • User-friendly, easy to learn operation
  • Parameters are entered directly at the control panel and can easily be optimized
  • A total of 10 sets with positions and amperages or finishing steps can be entered
  • Full safety interlock s including standard infrared &heat detector