LIGHTWEIGHT FORM, HEAVYWEIGHT PERFORMANCE
Drawing inspiration from the creative and delicate craft of Japanese folded paper art, the Origami Dripper presents a pour over dripper that is as functional as it is beautiful.
Featuring 20 vertical creases to provide optimal control of flow rate and brew time, the Origami AIR S Dripper is composed of AS resin plastic for improved portability and durability, and in your choice of 6 translucent colours to match any space or style.
Available in Small (1-2 Cup) size only, and with or without AS Resin or Acacia Wood Support.
Plastic construction yields a more durable, lighter weight and more thermally efficient dripper.
20 vertical grooves provide ideal airflow between cone-shaped filter and dripper and between dripper and support/carafe, thus ensuring optimal control of brewing speed and time.
Fits all cone-shaped (Origami, V60, etc.) and Kalita Wave style filters.
With cone-shaped filters, the vertical creases equally limit contact between filter and brewer walls for improved thermal efficiency and performance.
AS Resing (plastic) dripper; AS Resin (plastic) support; Acacia wood support (hand-wash only).
Small — ø4.5" x H2.75" x ø1" outlet | ø115mm x H70mm x ø25mm outlet
Designed and Made in Japan
Designed by and for the most demanding baristas, Origami develops products in pursuit of ultimate functionality with playful and colourful designs that elegantly marry form and function in perfect harmony. Valuing quality, tradition and ease of use, Origami creates uniquely delightful coffee experiences.
Thoughtfully designed with the wishes of top baristas in mind, the Origami Dripper features 20 vertical creases to assure ideal airflow during the brewing process. The result is a playful and beautiful form that is equally functional in regulating optimal flow rate and brew time.
Made in Japan of prestigious Mino-yaki ceramic—with its tradition of over 400 years of high quality—Origami's design also lessens contact between the brewer wall and cone-shaped filter to provide superior thermal performance for even more exacting results.