For nearly 40 years the 690 series has been the standard of durability and reliability for commercial applications. The 690 Series is extremely robust: made of brass, stainless steel and engineering plastics, offers an unmatched performance in the most demanding environments.
For nearly 40 years the 690 series has been the standard of durability and reliability for commercial applications. The 690 Series is extremely robust: made of brass, stainless steel and engineering plastics, offers an unmatched performance in the most demanding environments.
For nearly 40 years the 690 series has been the standard of durability and reliability for commercial applications. The 690 Series is extremely robust: made of brass, stainless steel and engineering plastics, offers an unmatched performance in the most demanding environments.
Entry: 37 mm (1½”) NPT
Radius: 26,5–33,0 m (87’-108’)
Working pressure: 80-150 psi (5,5–10,3 psi)
Thread: BSP
SPECIFICATIONS
Dimensions
Body diameter: 254 mm (10” )
Height: 405 mm (16")
Operational Specifications
Radius: 26,5–33,0 m (87’-108’)
Flow rate: 193-311 lpm (51.0–82.2 GPM )
Working pressure: 5,5–10,3 bar (80-150 ps (i)
Lift height to nozzle: 20 mm ( ¾”)
Inlet: 38 mm NPT ( 1½”)
Check-O-Matic: it Retains a column of water of 11.2 m (37’)
Solenoid valve in head: 24 VAC, 50/60 Hz.
Consumption at start: 60 Hz; 0,30 amps.
Current maintenance: 60 Hz, 0,20 amp.
All internal components are accessible from above.
Thread: BSP
Artificial playing surfaces
The features of radius and flow are perfect for cooling and rinsing artificial playing surfaces such as football fields.
Models of electric valve-in-head
Provide individual head control, so that watering times can be adapted to the needs of irrigation of different soil, turf and terrain, pressure regulation to ensure all nozzles perform at the same pressure, and manual control of on/off in the head.
Balanced application rate
These sprinklers, in applications of single or double row, operate at a slower speed in the non-overlap area and a faster speed over the overlapped areas to provide a balanced application rate.