Industrial & Tunneling
Ocenco's field-proven EEBDs provide workers in construction, transportation, chemical processing, manufacturing, energy, and nuclear facilities, and confined-space worksites such as underground water works, sewer systems and tunnels, with breathable air as they escape hazardous atmospheres. The M-20, M-20.2, M-20.3, EBA-75 exceed national and international standards. All of these devices are manufactured to be reliable and withstand the variety of harsh environments created within these industries.
M-20 SCSR
The M-20 is a belt-wearable Self Contained Self Rescuer (SCSR) that is field-proven for use in mines, tunnels, and confined spaces. The simple and easy donning allows the user to obtain respiratory protection in less than ten seconds.
M-20.2 EEBD
The M-20.2 EEBD is a self-contained, closed-circuit breathing apparatus designed to protect workers during escape from toxic, or oxygen-deficient atmospheres. The M-20.2 is typically belt-worn in confined space work areas.
M-20.3 CCER
The M-20.3 CCER meets the NIOSH 42 CFR part 84 subpart O requirements for closed circuit escape respirators. This apparatus is designed to protect workers during escape from toxic, or oxygen-deficient atmospheres. The M-20.3 comes with a protective carry case that is typically belt-worn in confined space work areas.
EBA 6.5 SCSR
The EBA 6.5 is a self-contained, closed circuit breathing apparatus using compressed oxygen as a source rather than generating oxygen from chemicals. The rugged clear case allows the miner to quickly and accurately visually assess the condition of the device. The oxygen delivery system allows the user to inhale immediately from the device when donned, and provides up to 100 liters of oxygen flow during high work rates. Manual adjustment of the oxygen valve will provide a user at rest up to 8 hours of respiratory protection.
EBA-75 CCER
The EBA-75 is a compressed oxygen closed-circuit escape respirator (CCER), also known as a self-contained self-rescuer (SCSR). The rugged clear case allows the miner to quickly and accurately assess the condition of the device. The oxygen delivery system allows the user to inhale immediately from the device when donned, and provides up to 100 liters of oxygen flow during high work rates. The User at Rest procedure will provide a trapped miner up to 6.5 hours of respiratory protection.