Military Oral Inflator Assembly (Standard)
• Orally inflate by depressing the button end of assembly and exhaling into bladder
(Fig. 1)
.
• Used in conjunction with HP cylinders (described on next page).
Powerline Inflator Assembly
(Purchased separately - Open Circuit Kit P/N 394091)
• MP air is supplied by a quick disconnect air hose supplied from the first stage regulator to a
push button inflation valve at the end of the assembly
(Fig. 2)
.
• Orally inflate by depressing button on end of assembly and exhaling into bladder.
• Required for open circuit scuba.
• Optional for CC and SCC - diving - cover male quick disconnect with rubber cap.
proDuCt oVerVieW
This buoyancy jacket is specifically designed for military use with all types of back or chest worn breathing
apparatus, including open circuit SCUBA, semi-closed circuit or closed circuit rebreathers.
The Atlantis features two air cylinder attachments that allow you to inflate the vest with compressed breathing
air. The air cylinders come equipped with a standard connection for use on the jacket.
The distribution of the buoyancy chambers provides excellent safety performance, either during buoyant ascent
(vertical stability) or at the surface (natural support position with head and shoulders out of the water). The bladder
is constructed of heavy duty urethane coated 1000 denier black fabric which resists cuts, tears and abrasion. Two
drains with tethered caps on the lower lobe side makes draining fast and easy.
Two flaps with closures on both sides protect the cylinders. The bag is sewn throughout with high strength
nylon. Openings at the bottom allow the cylinder valve to be easily accessible for inflation. A crotch harness
with split strap design provides greater comfort while maintaining ease of adjustment.
An optional containment collar (pn 762961) is available for the Atlantis, which helps streamline the vest
when not fully inflated. It features an easy to install bungee system, plush collar (to reduce neck chaffing)
and installation instructions.
p/N 101270
Fig. 1
p/N 42746
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Fig. 2
9