Dyson Ball
The new Dyson Ball™ vacuums took 6 years, 497 engineers and 2,496 prototypes to develop. The result – canisters and uprights with greater manoeuvrability.
Compare the range
No loss of suction. No akward moves.
Conventional vacuums with fixed wheels can be awkward to steer. Dyson Ball™ vacuums turn on a dime, manoeuvring easily around furniture and other obstacles.
Dyson Engineering
DC01 - 1993
Dyson cyclone technology
Dyson engineers have been working to improve vacuum cleaner cyclone technology since inventing it more than 20 years ago. It’s why Dyson cyclones capture more dirt and dust than any other cyclone.
DC43 - 2011
Radial Root Cyclone™ technology
The latest Dyson Ball™ vacuums have Radial Root Cyclone™ technology. Reconfigured air channels and improved flow efficiency reduce turbulence and preserve air pressure, maximising suction power. These refinements help to remove more dirt, dust, allergens and pet hair from the home.
Maneuverability: upright vacuums
Wheels can be awkward
Vacuums with fixed wheels can only go in straight lines. Changing direction is awkward. To turn a corner you have to go back and forth, back and forth.
No more awkward moves
Dyson Ball™ vacuum cleaners turn on a dime - manoeuvring around obstacles with a turn of the wrist. Key components are housed in the ball, creating a low centre of gravity and increasing stability.
Maneuverability: canister vacuums
Others can over-steer or drift
Conventional canister vacuums can be awkward - heavy to pull, head the wrong way and collide with obstacles. If they ride on castors, they tend to drift. If they have fixed wheels, they can over-steer. Either way they can head in unwanted directions.
A Dyson Ball™ canister vacuum follows with greater control
Dyson Ball™ canisters are the only canister vacuums with a central steering mechanism. The pivot point is located near the centre of the machine, enabling it to make tighter turning circles and follow more smoothly.
Easier to use
Ball engineering: canister vacuums
The ball has been engineered to hold many of the machine’s key components, including the motor and cord rewind system. The surface of the ball is smooth to reduce friction and prevent it from digging into the carpet pile.
Ball engineering: upright vacuums
The motor and other components are located inside the ball itself, creating a low centre of gravity and greater stability. The latest Dyson Ball™ upright vacuums have even more core vacuum components inside the ball, reducing clutter on the outside of the machine. They can steer easily into tight spaces.