The 4300 Silent Garden Pump by GARDENA was developed in Germany and is characterised by high power and efficiency.
This device is particularly suitable for garden irrigation using both rainwater and tap water.
Thanks to its highly efficient hydraulics, it allows significant energy savings: with a consumption of only 650 W, the pump can deliver a flow rate of 4300 litres per hour and a head of 43 metres (4.3 bar).
These features make it the ideal choice for powering a sprinkler. Additionally, the pump can draw water from depths of up to 8 metres.
Using water from wells, cisterns, or rainwater collection barrels is an effective method for water conservation, especially during hotter summers. This results in significant cost savings and contributes to making an environmentally conscious choice.
The Gardena 4300 Silent pump features a plastic casing that significantly reduces noise levels during operation. This feature ensures particularly quiet operation.
Moreover, the rubber feet ensure low vibrations and stable ground adherence. The power button is easily accessible and operable, allowing for foot use as well.
Thanks to its degree of protection and waterproofing, the pump can withstand weather conditions such as humidity and sunlight, allowing for outdoor use throughout the season.
The pump is equipped with a stainless steel shaft and a ceramic seal with a double seal system between the motor and hydraulics, ensuring robustness and durability over time.
It is also equipped with a dry-running safety device, which protects the motor from overheating if it is operated without water.
Filling the pump is easy thanks to its large opening, and the drain valve allows for quick emptying. This feature facilitates water drainage to protect the pump from frost.
Attention:
These pumps are suitable for water transfer (e.g., from one cistern to another) or for “small” garden surface irrigation. We do not guarantee suitability for use with various types of sprinklers or full irrigation systems (which require design by a technician with calculations on flow rate, head, pressure, pipe diameters, valves, nozzles, etc.) that may require more specific pumps for systems.
