ACE - Safety Dampers
ACE's TUBUS series safety dampers are ideal for emergency stop, overtravel protection or end-of-travel damping. They are ideal for applications where loads do not need to be slowed down instantly or when working under extreme conditions and are available in different variants for heavy installations or cranes.
Made of co-polyester elastomer, these high-strength absorbers provide high strength and energy absorption in situations where other materials fail or fail to achieve a life span of 1 million cycles.
Economical, they are distinguished by their small size and lightweight construction and can be considered as an alternative to hydraulic stop damping.
Features
- Extremely resistant
- Highly resistant copolyester elastomer
- Lightweight construction
- Economical use
- Heavy load versions available
Two models of TUBUS safety dampers
TUBUS Serie TC & TC-S
A beast of race
ACE TUBUS series TC profile absorbers can also be used as safety shock absorbers.
Indeed, they have been specially designed for use in crane systems and to meet international industry standards OSHA and CMAA.
Features
- Copolyester elastomer compounds
- Economical and compact size
- High energy absorption capacity for energy management systems
Energy capacity from 630 Nm/cycle to 17,810 Nm/cycle
Maximum stroke from 30 mm to 198 mm
Diameter 64 mm to 1776 mm
TUBUS Serie TI
A unique and compact deceleration
TUBUS TI series shock absorbers are single-use shock absorbers for emergency stop applications in linear axes, machine tools, high-speed servomotors and similar areas. They can also be a good alternative to TUBUS profile dampers and hydraulic dampers. Unlike standard shock absorbers, the latter provide an energy absorption of up to 96% without the phenomenon of rebound. The shock absorbers are deformed on impact and therefore cannot be reused afterwards.
Features
- Easy to assemble and maintenance-free
- Unique and compact deceleration
- Irreversible emergency stop damper
- More economical than a hydraulic safety shock absorber
- Energy absorption capacity up to 96% without rebound
Energy capacity 562 Nm/cycle to 10,953 Nm/cycle
Maximum stroke from 25 mm to 80 mm
Up to 4500 Nm in energy capacity