Air Nozzle 20 E
Air pressure [bar] Height [m] Shooting time every [s] Air demand [l]
0.50
1.50
2.00
1.50
1.00
4.50
3.00
2.50
1.50
8.50
4.20
4.50
2.00
12.00
5.10
5.50
2.50
15.00
6.30
10.50
Air Nozzle 24 E
Air pressure [bar] Height [m] Shooting time every [s] Air demand [l]
1.00
4.60
3.90
3.00
2.00
11.00
6.10
9.00
3.00
15.00
7.60
11.50
4.00
18.00
9.30
20.00
4.50
20.00
9.30
21.50
5.00
21.00
9.30
25.00
Air Nozzle
20
E
24
E
Dimensions
(
L x W x H)
[
mm]
758
x 300 x 483
1120
x 300 x 483
Nozzle diameter
[
mm]
20
24
Min. water level
[
mm]
330
330
Max. air pressure
[
bar]
3
5
Air inlet dia.
[
inch]
½
½
Water jet height up to
[
m]
15
21
Voltage
(
solenoid valve)
[
V/DC]
24
24
Nominal current
(
solenoid valve)
[
A]
Material
stainless steel
stainless steel
Weight
[
kg]
14,50
17,00
Order no.
58904
58904
Example for 60 m fountain (on request)
Air Nozzle detail
21
OASE Fountain Technology / Lake Management – Catalogue
Nozzles
Controllable
System integration
In general groups of Air Nozzles are to be connected
to a compressed air piping system, in which usu-
ally the pipe itself is the air reservoir, which is
more or less steadily refilled by a compressor. So no
additional pressure tank directly coupled to the Air-
Nozzle is needed. However the pipe volume and the
default pressure should to be chosen in such way
that after a shot with all shooters the residual pres-
sure doesn´t fall below 90% of the default value.
In more elaborate supply systems the set pressure
can be varied so that different jet heights can be
achieved.
Water Level & Refill behavior
It is important for a long term stable performance that
the water level is kept constant. Because the filling
grade as well as the refill time depends on that. In
that sense the best environment for these water fea-
tures are bodies of water in which the water level is
defined by a weir or an overflow.
