ANVER Corporation Expands its Line of Robotic Press Automation Panel Vacuum Suction Cups
Optimized Anti-Slip Properties and Non-Marking, High-Temperature Tolerant Suction Cups for Automotive and Metal Processing Applications

Hudson, MA/April 27, 2016/ — ANVER Corporation, a leader in vacuum handling technology, grows its line of Press Automation Cups with a new slip-free series that securely grips dry and oily metal sheets or other thin materials in a full range of automotive and metal processing applications.

Suitable for use with high-speed robotic pick-and-place sheet metal handling equipment, these high-quality suction cups provide fast attach and release functionality. Designed with maximized gripping power, ANVER’s Press Automation Cups are capable of dispersing any existing surface oil on stamped panels making them an ideal choice for oily metal, plastic, or composite material. These suction cups, also known as “Panel Cups” have excellent sealing properties on flat or curved workpieces, such as automotive hoods, roofs, or body panels, as well as on material with minimal surface area. Offered in a variety of shapes and sizes, such as a round or oval flat style and a round 1.5 bellows style, these suction cups deliver a powerful suction force, and the bellows style works exceptionally well in areas that require level compensation for low headroom. Best of all, these suction cups will not warp or mark materials that are often prone to deformation.

These silicon-free Press Automation Cups are molded from ANVER NOMATHANE® 50 and 60 (a propriety material) with non-marking, anti-slip properties, and they are optimized for operating in high-temperature environments up to 356°F (180°C). ANVER NOMATHANE® is extremely wear-resistant, which significantly increases product longevity and long-term cost-savings.

Compatible with all popular robotic lifters/end-effectors, ANVER Press Automation Vacuum Cups are available in a wide range of diameters to fit workpieces of various shapes and sizes.

Click here for more product information.