Adept Viper Six-axis Robots

Specification

The Adept Viper six-axis robots are available in two models: the Adept Viper s650 and the Adept Viper s850. The Adept Viper s650 six-axis robot offers a 650 mm reach, while the Adept Viper s850 six-axis robot offers an 850 mm reach. The speed and precision of the Adept Viper line of six-axis robots make them ideal for a wide variety of articulated robotic applications requiring fast and precise automation.

The Adept Viper™ s1300 six-axis robot is an extended-reach and higher-payload version of the Adept Viper s650 and Adept Viper s850 robots. The Adept Viper six-axis robot family is a high-performance line of six-axis robots designed specifically for assembly applications. The speed and precision of the Adept Viper six-axis robots also make them ideal for material handling, packaging, machine tending, and many other operations requiring fast and precise automation.

The Adept Viper™ s1700 six-axis robot is an extended-reach and higher-payload version of the Adept Viper s650 and Adept Viper s850 robots. The Adept Viper six-axis robot family is a high-performance line of six-axis robots designed specifically for assembly applications. The speed and precision of the Adept Viper six-axis robots also make them ideal for material handling, packaging, machine tending, and many other operations requiring fast and precise automation.

 

Adept Cobra Four-axis Robots

Models:

Adept Cobra s350

Adept Cobra i600

Adept Cobra i800

Adept Cobra PLC600

Adept Cobra PLC800

Adept Cobra s600

Adept Cobra s800

Adept Cobra s800 Inverted

Sample Model - Adept Cobra™ s800 Inverted SCARA

The Adept Cobra™ s800 Inverted SCARA robot is a high performance SCARA robot system designed for packaging and material handling applications. The inverted SCARA design makes it ideal for mounting above a conveyor belt and minimizing the machine footprint. With an 800 mm reach and 5.5 kg payload, this robot is well suited for a much wider range of applications than specialized picking robots.

 

 

Adept Quattro - High Speed Parallel Robots

Specification:

The Adept Quattro robot is specifically designed for high-speed manufacturing, packaging, material handling and assembly. It is the only robot in the world that features a unique four-arm with rotational platform designed for maximum speed, maximum acceleration and exceptional performance across the entire work envelope. In addition, the powerful embedded amplifiers and compact controls make installation easy and enable saved workspace. The high speed and precision of the Quattro robot make it a perfect choice for flexible and productive “one at a time” packaging, manufacturing, material handling, kitting and assembly applications.

 

 

AdeptSight

Specification:

AdeptSight provides easy-to-use, PC-based, vision-guidance and inspection in an out-of-the-box solution for all Adept robots, as well as a powerful framework that can be used to develop customized vision guidance and inspection applications. It allows quick development of robust and accurate vision-guided and inspection applications thanks to a simple graphical user interface.

Add vision capabilities that will help you deal with smaller parts and tighter tolerances, achieve higher quality products without the need for complex programming or additional development tools. AdeptSight simplifies deployment in difficult conditions thanks to robust vision algorithms that are tolerant to poor lighting, noise, and occlusions.

 

 

AdeptVision

Specification:

The AdeptVision sAVI Guidance option allows you to add vision inspection and/or vision guidance to any AdeptSix robot, Adept SmartModules or Adept SmartMotion system.

Interfacing motion and vision is simple since the vision instructions are completely integrated into V+ and AIM MotionWare. Adept's camera calibration utility supports any camera-mounting configuration and compensates for perspective distortion.

Adept pioneered vision-guided conveyor-belt tracking in the early 80's, and today remains the leader in this application segment. Vision guidance is used for applications such as printed circuit board assembly, vision-based part feeding and vision-guided conveyor tracking.

 

Robotics