* Pri vsakem nakupu nad 40 EUR je poštnina brezplačna (Pošta Slovenije)
This heavy men's hoodie offers a complete sweater package: a casual oversize fit with heavily oversized shoulders, extra-long sleeves, a large hood and a kangaroo pocket. Ribbed cuffs on the sleeves and hem, as well as heavy terry cotton, provide smooth wearing comfort.
Description:Cotton hoodie zip-up has been created from a combination of cotton and polyester. Our prints on the hood, sleeves and pocket look perfect. The hoodie is finished with practical drawstrings emphasizing its sporty nature. It constitutes a perfect alternative even to a jacket.Washing instructions: Machine wash 30°C inside out
Men&#39;s sweatshirt by Edoti.<br />- round neckline<br />- with a print<br />- bottom and sleeves finished with hem<br />- comfortable cut<br />Model&#39;s height: 179 cm.<br />The model presents the product in size: M.<br /><strong>Material: </strong>70% cotton, 30% polyester
A simple men's hoodie made of a heavy, comfortable sweatshirt that pleases with a shoulder part of a raglan cut. The men's sweater features classic features such as a drawstring hood, a kangaroo pocket and elastic ribbed cuffs on the sleeves and hem. The sweatshirt has a comfortable fit and is made of cotton and polyester. The inside is enhanced with fluffy fleece.
A monochrome sweatshirt with a zipper closure goes well with a casual outfit. The hood is equipped with a drawstring. On the front spacious kangaroo pocket. Long sleeves with cuffs.
Model Information: Model's Measurements: Height: 187cm(6'2'') Bust: 95cm(37in) Waist: 74cm(29in) Hips: 97cm(38in); The product on the mannequin is size M/40/12; ; Material Composition: 70% Cotton,30% Polyester ; Fabric Type: Knitted ; Back Length: 70.0 cm ; Regular Fit: A comfortable, non-tight fit. There is a little more room for mold than slim fit. Please follow the washing instructions given below so that you can use your product for a longer time and take proper care of your product. ; Colors may vary in studio shots due to the difference in light.