Reliability

• Rigid structural steel beams on the traverse (Z) and pull-off (X) axes dampen vibrations, ensuring mechanical, electrical, and electronic reliability
• All components are evaluated and chosen on the basis of long-term, trouble-free operation.
• Hydraulic shocks are used to smoothly decelerate pneumatically driven axes
• A frequency inverted brake-motor is used to control movement on the electrically driven axes.
• Servo driven axes are designed for fast and high accuracy applications
• Steel core timing belts are used for power transfer on the electric, servo, and two-stage
  vertical axes
• Long life, hardened guide rails with linear bearings are used on all three linear axes.
• Heavy duty multi-pin connectors are used for all electrical power and communications terminations

Ease of Use

• Simple control panel minimizes complexity for operators
• Controllers are programmed and all equipment is tested at Ventax prior to shipment.
• Electric and AC servomotor axes are adjusted by manual targets (electric or programmed,encoded axis or servomotor)
• End-of-Arm-Tooling is designed with quick disconnects for all electrical and pneumatic hook-ups
• Use of SPI protocol interface for easy integration to your molding machine

Flexibility

• Robots are sized for removal of parts using 80% or more of the vertical tie-bar spacing
• Multiple program storage capability; new programs can be added by customer or Ventax
• Easily adjustable multiple drop points along the traverse axis
• Low overhead two-stage vertical axis accommodates facilities with height restrictions and offers increased speed

Safety

• The robots are safety interlocked with your injection molding machine to inhibit any movement that would be unsafe to the operator, the molding machine, or the robot
• Robot guarding is mandatory for personal safety; Ventax can supply full guarding packages or interface with existing guarding