For the consecutive sixth year, Electrolux Group has engaged in a collaborative effort with students from the esteemed Umeå Institute of Design (UID) in Sweden to conceive innovative product concepts for the forthcoming home environment. The objective for this year’s project was to envision cutting-edge appliances specifically designed for a home assistant robot, serving as the primary user, while catering to the diverse needs of its human owners.
The students conducted an exploration into potential novel solutions and product designs that could be deemed appropriate if the tasks of cleaning, cooking, dishwashing, and washing were predominantly carried out by robots, with humans serving as secondary contributors. Their designs were tailored to cater to a diverse range of consumers, including individuals with visual impairments, an elderly couple with restricted mobility, and an older individual living independently.
“As we look to the future, we know that robots will play a greater role in all our lives. And that provides a fascinating opportunity to explore how we could design home appliances for personal robots to use to help consumers who face challenges,” Thomas Johansson, Design Director, Dish Care, Business Area Europe, Electrolux Group tells urdesign. “We were pleased that the students’ ideas solved challenges faced by their target user but were also solutions that a wide variety of consumers would appreciate and even enjoy.”
Tray Flex Assist
Tray Flex Assist (photo above) is a dishwashing solution for a robot assisting a blind consumer. The robot carries dishes, glassware and cutlery to and from the table in trays with a handle at the top. The trays – in high-contrast colors for those with partial sight – can be placed directly into the drawer-style dishwasher. The dishwasher, which is voice-operated, features an opening for the robot to place its hand to be washed by a silicone brush.
Senti
The Senti design envisioned the robot vacuuming difficult-to-reach areas for the elderly, who would clean together with the robot in their home as a way of staying active. The robot lifts the vacuum and attachments from a docking station, and cleans according to instructions via the app. The robot returns the vacuum to its docking station, emptying the dust and cleaning the attachments.
Atmos
Atmos aims to reduce the dangers and ease the process of cooking using a robot assisting a blind consumer. The team designed a cooktop with a set of holes in the top to release steam or heat – but only when one of the custom pots is placed above it. Steaming and airfrying are possible on the cooktop. The rectangular pots feature four high-contrast colors as well as tactile markings. The robot also delivers them to the table and back again. The consumer can operate everything via voice commands.
Autocare
This compact laundry solution aims to have a robot help an older person living alone. The team designed a laundry basket with compartments and wheels, which the robot pulls over to the washing machine, embedded in the kitchen furniture at (human) waist height. The drum pops out of the wall, and the robot places the clothing items in the top. The drum pops back in and displays the time remaining in large numbers glowing on its front. When the cycle finishes, the drum pops out, a drawer underneath opens, and the laundry drops out into the drawer. The robot can help take clothes to be hung to dry.
“The level of storytelling by the students is pushing us to do better,” says Martin Alexanderson, Senior Design Manager, CX Product Line Wellbeing. “This partnership is not all about us sharing our experience and expertise – we are learning a lot from these talented students as we look into the future together.”
The Electrolux Group collaboration with UID is led by Johansson, Alexanderson and Timo Mashiyi-Veikkola, Director of Design Research, together with Associate Professor Thomas Degn from UID. Previous themes included designs for: single people living in small spaces (2022), multi-generational homes (2021), and the “new normal ” post-COVID world (2020).