Snugpak Nautilus Sleeping Bag Left - Olive
Snugpak Nautilus Sleeping Bag Left - Olive
A lightweight sleeping bag with a zip on the left side, designed for use in a temperature range of -2 to 3 deg. C. It is suitable for camping and bivouacking in the warmer seasons. The ergonomic shape of the bag guarantees complete freedom of movement while sleeping.
Hydrophobic Aqualight fabric, synthetic Isofibre filling
The outer layer of the sleeping bag is made of Aqualight fabric, which is made of durable 190T polyester and has hydrophobic properties. The filling is synthetic silicone Isofibre, the structure of which traps warm air in the spaces between the fibres, providing effective thermal insulation. The hood is equipped with a flexible drawstring, which allows for a precise fit around the face.
Two-way zip, possibility to connect sleeping bags
The two-way zip is protected on the inside by a thermal strip, which prevents heat loss. An additional tape at the bottom prevents the zipper from jamming, and the hangers on the underside allow for effective ventilation. Two sleeping bags with zips on opposite sides can be connected, leaving the lower part unzipped.
Set elements
- Snugpak Nautilus sleeping bag Left - Olive
- compression bag

Main features
- version with zip on the left side
- designed for spring/summer
- temperature range from -2 to 3 deg. C
- envelope shape
- water-repellent Aqualight fabric
- synthetic Isofibre filling
- two-way zip
- sleeping bags can be joined

MILITARY.PL is the official distributor of Snugpak.
Snugpak is a British brand with many years of experience in the production of outdoor clothing and equipment, especially known for its lightweight and durable synthetic sleeping bags. The brand's products are prized by bushcraft enthusiasts, hikers and uniformed services. Snugpak uses proprietary technologies such as Softie® insulation, Paratex fabrics and compression systems to provide optimal thermal protection, good breathability and moisture resistance. It's a proven choice for year-round expeditions in demanding conditions.