Pick size (cm)
LWJORI 736 - JACKET
Style # 11010237
LEGO® Wear CONTEMPORARY puffer jacket for boys and girls.
This soft puffer jacket will be amazing during the cold months. It is made in a lovely and slightly shiny quality.
The wonderful LEGO® Wear CONTEMPORARY jacket is water-repellent with a water column of 3.000 mm. It is breathable and windproof, and it has a detachable hood. The hood is mounted on a unique snap button band, and if you pull the hood, it detaches from the jacket. In the sides of the hood, there are elasticated inserts for a nice fit.
On the chest and at the lower part of the back, the iconic 3M Scotchlite reflector badges are providing visibility in traffic. The jacket is treated with the fluorine-free Bionic-Finish ECO impregnation. It is closed with a YKK zipper with a zipper puller on the front, and there is a wind placket under as well as over the zipper. The front placket has Velcro closure. Double-sided chin guard at the top of the zipper.
At the sleeve openings, there are comfortable elastics with two purposes: to keep the wind out and to keep the heat in. Inside the cuffs, a soft fleece makes sure that the jacket is comfortable. Strap in the neck and inner name label for name and telephone number.
Choose between two smart colours.
The classic cable knit hat LWASMUS 701 is a cute match for this jacket.
The jacket has 3M Scotchlite reflectors and a detachable hood. No strings in the hood or neck area.
Material and care
- 100% nylon - woven
- 40° Machine wash warm inside out
- Do not dry clean
- Do not iron
- Tumble dry on low temperature inside out
- Do not bleach or use detergents w optical bleaches
- Soft chin guard.
- Soft elastic at sleeve opening.
- 100% polyester insulation.
- 100% polyester lining.
- Wind placket over and under main zipper.
- Hook and loop closure.
- 3M Scotchlite reflector.
- YKK main zipper.
- 3.000 mm water column.
- Bionic Finish ECO water repellent finish on the surface.
3.000 mm water column.
Water repellent surface
Bionic Finish ECO water repellent finish on the surface.