The EB262 light weight, professional handheld X-Series blower is a force to be reckoned with. Shindaiwa's best in class handheld blower is packed with power and features to increase the professional's productivity. Featuring a 25.4 cm3 professional grade engine, secondary handle for ultimate maneuverability and anti vibration technology.
EB262
Shindaiwa's most powerful handheld blower, packed with features to power through tough jobs.
Where to buyProfessional Engine
The professional grade 25.4 cm3 engine has an output of 0.9 kW giving a max air speed of 76.7 m/sec. What does this actually mean? the concentrated bursts of air are able to shift stuck down wet leaves and heavier debris like twigs with ease.
Features for comfort and dependability
Featuring cruise control as well as a Posi-lock and Ez-lock system for operator convenience alongside a double grid design and secondary handle for accuracy and ease of use. The chrome coated cylinder and 2 layer air filter (pleated and sponge) make the EB262 extremely durable.
Rotational control design
Rotational control design ensures that the blower does not rotate towards the user's leg. This reduces fatigue in the user's wrist.
Best Features.
Easy Start Engine
Shindaiwa’s patented system for effortless starting.
Powerful
Features one of Shindaiwa’s most powerful engines.
Ease of Use
Power on and get the job done. Intuitive controls and features make your job a breeze.
Product Details.
Engine displacement (cm³) | 25.4 |
---|---|
Output (kw) | 0.9 |
Output (ps) | 1.2 |
Dry Weight (kg) | 4.4 |
Fuel tank capacity (l) | 0.60 |
Fuel Consumption At Maximum Engine Power (L/h) | 0.65 |
Blowing Air Force(N) | A:15.8 / B:15.7 |
Air Volume (m³/h) | 774 |
Max Air Speed (m/sec) | 76.7 |
Start Assist System | - |
Nozzle Type | Round Straight / Flat straight |
Vibration Levels (m/s²) (Nozzle TypeA/Nozzle TypeB/Nozzle TypeA:Rear Handle) | A:6.6 / B:7.1 |
CO² (g/kW・h) 1 | 1008 |
- 1
- This CO² measurement results from testing a (parent) engine representative of the engine type (engine family) over a fixed test cycle under laboratory conditions and does not imply or express any guarantee of the performance of a particular engine.