Ermaksan presents new generation hybrid press brake EVO-III which is most eco-friendly press brake ever with its 60% energy saving.
MINIMUM MAINTENANCE WITH CLOSED CIRCUIT HYDRAULIC SYSTEM I REALISTIC 3D MODELLING (ER TOUCH) I PRECISION POSITIONING OF THE SHEET WITH SERVO-MOTOR BACKGAUGE I QUIET OPERATION I LOW ENERGY CONSUMPTION (ENVIRONMENT FRIENDLY) I LOW OPERATION COST
Specifications
Standard Accesssories
• Steel body with mono bloc welding of ST44 material which
is rigid against bending and high tension
• 6 axes (Y1, Y2, X, R, Z1, Z2)
• CNC controlled backgauge system with 4 axes (X, R, Z1, Z2)
AC servo motor
• HOERBIGER hydraulic system
• CNC controlled motorized crowning system
• Top and bottom tools hardened and ground (835mm length)
• Easy clamping top tool holder system
• Control units; ER TOUCH MASTER, DELEM 66T, ER99
• 3D Colour Graphics display and offline software
• Electric panel with cooling system designed and
manufactured from SIEMENS electrical and
automation products in compliance with the CE regulations
• Backlight protection
• Switch side protection covers
• Y1+Y2 axis synchronization with a tolerance of 0.01
provided by linear scales
• CE compliant foot pedal
• Sliding front support arms with T slot and mm/inch scale
• 410 mm throat depth (110 - 170 tons)
• Leuze front light protection system
Product Description
New Generation Technology...
With the rise in the energy prices in the global market, preferability of low energy consumption machines is increasing. In addition to protecting the business profits, consumers shape their productions with the social responsibility awareness such as environmental awareness, effective use of energy resources etc. Setting off from this purpose, Ermaksan combines its experience in producing press brakes for more than 30 years with today’s state of art technologies and offers the new generation Evolution III series hybrid press brakes to its users.
Electro-mechanical press brakes I Low operation cost I Precise bending I Low maintenance cost I Easy service by remote access