The Float Mini table combines classic residential aesthetics with Humanscale’s world-class ergonomic design system to create a simple and compact solution for both home and work environments. The Float Mini accommodates each users work style in their own space by encouraging natural movement in users with a work surface that glides to a range of heights as well as the option for caster wheels.
- 16” x 27” bamboo tabletop
- Compact design seamlessly fits into a variety of environments
- Quick and simple installation
- Adjusts seamlessly from 27.25” H to 45.4” H with pneumatic cylinder (28.25" H to 46.4" H with the use of casters)
Compact Design
Offered with a 16” x 27” workspace and a caster wheel option, Float Mini accommodates each users work style in even the most compact spaces.
Healthy Materials
The quickly renewable bamboo top provides a more sustainable option than the traditional wood top. Although standard in most other sit/stand desks, Float Mini does not utilize any harmful Red List chemicals, such as formaldehyde. In addition, Humanscale chose to use bamboo for the work surface as opposed to traditional wood. Bamboo takes less than 10 years to replenish, making it the more planet-friendly option. By comparison, the wood used in standard tops comes from old-growth forests, which can take up to 100 years to regrow.
Natural Movement
Incorporating the use of a non-powered pneumatic cylinder, Float Mini encourages natural movement in a wide range of uses by providing a worksurface that glides to a variety of heights and does not have to be used within reach of a power source.
The Float Mini table combines classic residential aesthetics with Humanscale’s world-class ergonomic design system to create a simple and compact solution for both home and work environments. The Float Mini accommodates each users work style in their own space by encouraging natural movement in users with a work surface that glides to a range of heights as well as the option for caster wheels.
- 16” x 27” bamboo tabletop
- Compact design seamlessly fits into a variety of
