FLX35 & FLX55 Series Rotary Sprinklers
Installation and Service Instructions
Introduction
The FLX35 and FLX55 series full and part circle rotary sprinklers
are designed specifically for golf course applications.
Manufactured from durable, high-strength engineering plastic and
stainless-steel components, these sprinklers incorporate many
innovative and time-proven features for lasting, maintenance-free
operation.
Prior to installing the sprinkler, read through the recommended
installation and start-up procedures. Please observe all Warnings
and Cautions when installing and operating this equipment.
Features
• Adjustable Part circle (40°-330°) and true uni-directional full circle (360°) arc coverage
• Arc adjustment in 5° increments
• Dual trajectory main nozzle adjustment – 25° standard or 15° low angle
• Ratcheting riser in 2° increments
• Nozzle base clutching
• Two back nozzle positions
• Industry’s largest precision nozzle selection
• All nozzles are color coded, debris tolerant and threaded in from the front
• Five electric and two hydraulic activation types
o Electric – Satellite systems – Standard 24 VAC solenoid; SPIKEGUARD 24VAC solenoid; Nickel plated
SPIKEGUARD 24VAC solenoid
o Electric – 2-wire systems – DC Latching solenoid; Integrated GDC module w/DC latching solenoid
o Hydraulic – Normally Open valve in head; Check-O-Matic (requires remote valve)
• Constant velocity drive and variable stator provide consistent rotation speeds
• Manual control at the sprinkler ON-OFF-AUTO (electric models only)
• Selectable/lockable pressure regulation settings; 50 psi (3,4 bar), 65 psi (4,5 bar), 80 psi (5,5 bar) or 100 psi (6,9 bar)
• Indestructable stainless steel valve seat and valve communication tube
• Body inlet rock screen serviceable from the top
• All internal components are serviceable from the top of the sprinkler
Specifications and Performance/Application Data
FLX35 Series
FLX55 Series
•
•
•
•
•
Radius: 43'–83' (13,1–25,3 m)
Flow Rate: 8.2–47.3 GPM (31–179 LPM)
Trajectory: Selectable 15° or 25°
Arc: Full Circle (360°) or adjustable part circle (40°–330°)
Recommended Operating Pressure:
65–100 PSI (4,5–6,9 Bar)
•
•
•
•
•
Radius: 55'–92' (16,8–28 m)
Flow Rate: 14.1–61.3 GPM (53,4–232 LPM)
Trajectory: Selectable 15° or 25°
Arc: Full Circle (360°) or adjustable part circle (40°–330°)
Recommended Operating Pressure:
65–100 PSI (4,5–6,9 Bar)
•
•
•
Minimum Pressure: 40 PSI (2,8 Bar)
Maximum Pressure: 150 PSI (10,3 Bar)
Precipitation Rate:
•
•
•
Minimum Pressure: 40 PSI (2,8 Bar)
Maximum Pressure: 150 PSI (10,3 Bar)
Precipitation Rate:
Minimum: 0.43"/hr (10,9 mm/hr)
Minimum: 0.45"/hr (11,4 mm/hr)
Maximum: 0.76"/hr (19,3 mm/hr)
Maximum: 0.94"/hr (23,9 mm/hr)
•
•
•
•
Body Height: 10" (254 mm)
•
•
•
•
Body Height: 11" (289 mm)
Pop-Up Height to Nozzle: 4 3/16" (106 mm)
Inlet Size: 1" (25 mm) NPT, BSP or ACME
Five electric activation types:
Pop-Up Height to Nozzle: 4 3/16" (106 mm)
Inlet Size: 1.5" (40 mm) NPT, BSP or ACME
Five electric activation types:
Standard Solenoid - 24 VAC, 50/60 Hz,
0.30 Amps Inrush, 0.20 Amps Holding
SPIKEGUARD Solenoid - 24 VAC, 50/60 Hz,
0.12 Amp Inrush, 0.10 Amp Holding
Standard Solenoid - 24 VAC, 50/60 Hz,
0.30 Amps Inrush, 0.20 Amps Holding
SPIKEGUARD Solenoid - 24 VAC, 50/60 Hz,
0.12 Amp Inrush, 0.10 Amp Holding
Nickel Plated SPIKEGUARD Solenoid - 24 VAC, 50/60 Hz,
0.12 Amp Inrush, 0.10 Amp Holding
DC Latching Solenoid - Momentary Low Voltage Pulse
Integrated GDC Module w/ DC Latching Solenoid -
Momentary Low Voltage Pulse
Nickel Plated SPIKEGUARD Solenoid - 24 VAC, 50/60 Hz,
0.12 Amp Inrush, 0.10 Amp Holding
DC Latching Solenoid - Momentary Low Voltage Pulse
Integrated GDC Module w/ DC Latching Solenoid -
Momentary Low Voltage Pulse
•
•
•
Manual Control (Electric only): On-Off-Auto
Check-O-Matic Model checks up to 37' (11,2 m) of elevation
•
•
Manual Control (Electric only): On-Off-Auto
Check-O-Matic Model checks up to 37' (11,2 m) of elevation
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Eight Nozzle Variations
•
Nine Nozzle Variations
Sprinkler Spacing Guidelines
• Square Spacing
Precipitation Rate Formulas
• Square-spaced sprinklers in pattern:
GPM of full circle x 96.3
No wind
4 mph wind
8 mph wind
-
-
-
55% of diameter
50% of diameter
45% of diameter
2
(Spacing)
• Triangular Spacing
No wind
4 mph wind
8 mph wind
-
-
-
60% of diameter
55% of diameter
50% of diameter
• Triangular-spaced sprinklers in
pattern:
GPM of full circle x 96.3
• Single-Row Spacing
2
(Spacing) (0.866)
No wind
4 mph wind
8 mph wind
-
-
-
50% of diameter
50% of diameter
45% of diameter
• Area and flow:
Note: Designing for zero (0) mph
wind conditions is not recommended.
Design for worst wind conditions.
Total GPM of zone x 96.3
Total irrigated
Square feet of zone
For additional information, refer to
Toro Technical Data Manual,
form number 490-1737.
• Single row:
GPM of full circle x 96.3
(Spacing) (Scallop)
Toro Swing Joints
Use Toro swing joints to connect the sprinklers to the lateral/main line pipe.
Figure 1
Toro swing joints provide swivel joints that allow the sprinkler body to be easily positioned
to finished grade and prevents pipe breakage by providing the flexibility to allow downward
movement if the sprinkler is run over by heavy equipment.
For installation using pipe thread connections (NPT or BSP), use PTFE tape only to seal
all threaded connections.
CAUTION: Use PTFE tape only for sealing pipe thread connections. Use of pipe dope or
other paste sealants can cause deterioration of the sprinkler body threads.
Tape should be applied to the male threaded fitting in compliance with the tape manufacturer
recommendations. Thread the fitting into the mating female threaded fitting in the sprinkler
body and service tee and tighten securely.
For installation using ACME thread connections, do not apply additional sealant.
CAUTION: ACME fittings incorporate an o-ring seal that requires no additional sealant.
Sprinkler fitting installation - Thread the ACME fitting into the sprinkler body and hand tighten until it stops. No
additional tightening or loosening is required.
CAUTION: Loosening beyond 270° will result in a thread leak.
Lateral/Mainline pipe installation - Thread the ACME fitting into the lateral/main line service tee and hand tighten until
it stops, then loosen up to one full turn to ensure flexible movement of the swing joint.
Wire Splices
CAUTION: Communication cable or station wire connections will deteriorate when exposed to moisture and earth
ground causing shorts or open circuits resulting in improper system operation.
All direct burial wire connections must be done with approved waterproof connections installed in compliance with the
manufacturer specifications. Contact your Toro Golf Distributor for approved waterproof connectors.
Always provide a wire service loop for each splice to ensure sufficient wire is available should future servicing be
required.
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Connecting Hydraulic Control Tubing
Step 1 – Route control tubing from the controller to the sprinkler location(s).
Note: Leave an 18" (45.7 cm) service loop of tubing at each sprinkler to facilitate movement of sprinkler and
service operations. Refer to Hydraulic Control Systems Table for tubing run length and sprinkler elevation
information.
Step 2 – Flush tubing thoroughly to remove all air and debris.
Step 3 – Remove the tube retainer and poly cap from the tubing adapter at the base of the sprinkler.
Step 4 – Slide the tube retainer over the end of the control tubing and attach tubing to adapter.
Step 5 – Slide tube retainer over the adapter area to secure tubing.
Hydraulic Control Systems Table
Maximum Distance
Type of System*
From Controller
500'
Elevation Restrictions
Normally Open (01)
with 3/16" Control Tubing
Valve elevation should not exceed
25' above controller elevation or
70' below controller elevation.
Normally Open (01)
with 1/4" Control Tubing
Valve elevation should not exceed
25' above controller elevation or
70' below controller elevation
1000'
* - All hydraulic connections on Toro valves are 1/4" insert type.
- Control line pressure must be equal to or greater than mainline pressure.
- Control line pressure range is 40 to 150 PSI.
System Start Up
WARNING! Never stand or lean over the sprinkler while the irrigation system is being filled, during manual or
automatic operation or when performing sprinkler service procedures. Direct contact with irrigation spray, a failed
or improperly installed sprinkler connection or sprinkler components forcibly ejected upward under pressure can cause
serious injury.
The following is a recommended procedure that will protect system components during system start-up. The procedure
is based on a velocity fill rate of less than 2' (.61 m) per second. See Table 3 below.
Step 1 – Use a jockey pump only to fill the system at a velocity fill rate of less than 2' (0.61 m) per second.
CAUTION: Failure to comply with recommended fill rate will increase line pressure resulting in a water
hammer effect that could damage sprinklers and piping components. See Warning above.
Step 2 – Use quick coupler keys at all tees and greens with quick coupler valves to bleed air from the system
lines during the filling process. For best results, do not compress air and then relieve it – bleed the air
continuously while filling the system.
Step 3 – After water has filled all lines and all air is removed, remove the quick coupler keys.
Recommended System Fill Rate
Pipe Size
Flow
Velocity
Pipe Size
Flow
Velocity
in.
1/2
cm
1.3
1.9
2.5
3.1
3.8
5.0
6.4
GPM
LPM
7.6
ft/sec
m/sec
0.49
0.59
0.46
0.57
0.43
0.55
0.56
in.
3
cm
7.6
GPM
LPM
170.3
283.9
567.8
946.3
1703.0
1893.0
ft/sec
m/sec
0.57
0.57
0.53
0.52
0.60
0.47
2
3
5
10
10
20
30
1.60
1.92
1.50
1.86
1.41
1.80
1.84
45
75
1.86
1.87
1.73
1.70
1.97
1.55
3/4
11.4
18.9
37.9
37.9
75.7
113.6
4
6
8
10
12
10.1
15.2
20.2
25.4
30.5
1
150
250
450
500
1-1/4
1-1/2
2
2-1/2
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Winterization
Winterizing the irrigation system is required in freezing climates to prevent damage from water expansion when it
freezes. Following are three key points for successfully winterizing the system, however, Toro provides a complete
“Winterization and Pressurization Guide” (P/N 373-0849) that is available from your local Toro Distributor.
•
•
•
Open low point drains, vent high points and allow the system to drain naturally several days prior to using
compressed air.
Attach compressor to the highest point possible and use the compressed air to force remaining water out of the
low points and close vents and drains working from high points to low points when clear air is observed.
Regulate compressed air to 50 psi and cycle each sprinkler ONCE until clear.
Arc Adjustment Procedure
The FLX35 and FLX55 sprinkler models can be operated in full-circle or part circle operation. In part-circle operation,
the sprinkler arc can be adjusted from 40°– 330°. When full-circle (360°) operation is selected, the sprinkler will rotate
in a clockwise direction only. The arc is factory preset at 180°. The left side of the arc, located at the end of the
counterclockwise rotation, is non-adjustable (fixed). Therefore, all arc adjustments, whether increasing or decreasing,
will change the right side of the arc, located at the end of the clockwise rotation.
Step 1 – Using the sprinkler tool, pull the sprinkler riser up from the body. See Figure 2.
Step 2 – Find the sprinkler left stop by rotating the turret counter clockwise until it stops. The left stop indicates the
fixed stop of the arc. See Figure 3.
Figure 2
Step 3 – Check the left stop alignment with the left most area being irrigated. Adjust
as follows by ratcheting the riser clockwise or counterclockwise until the
sprinkler left stop points to the correct area. See Figure 4.
995-83
1. If the left stop falls short of the desired border, rotate the turret
counterclockwise to the stop, then ratchet the riser until it is aligned with
the left watering border. See Figure 4.
2. If the left stop exceeds the border, rotate the turret clockwise to the right
stop. Continue to advance the turret the same distance that the left stop
exceeded the border. See Figure 5.
Step 4 – Find the sprinkler right stop by rotating the turret clockwise until it stops.
See Figure 5.
Note: If the sprinkler is set at 360° (full-circle), it will rotate clockwise only.
Step 5 – Adjust the arc while the turret is pointing at the right stop. Hold the
sprinkler riser firmly while pressing the release on the adjustment band.
Rotate the turret counterclockwise or clockwise to the desired right stop. See Figure 6.
Step 6 – Activate the sprinkler to check proper arc setting and adjust as necessary.
Figure 3
Figure 4
Figure 5
Figure 6
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Adjustment Band Indicators
Figure 7
90°
180°
270°
360°
For reference, the adjustment band of the FLX35 and FLX55 has markers at predetermined arcs. By aligning the
adjustment band indicators to the turret arrow, you can set the sprinkler arc to 90°, 180°, 270° or 360°. The arc is
adjustable from 40°–330° in 5° increments. See Figure 7.
Trajectory Adjustment Procedure
The FLX35 and FLX55 sprinkler models are designed with a dual-trajectory main nozzle.
Use the following procedure to select the sprinkler trajection of 15° or 25°.
Step 1 – Using the multi-purpose tool (P/N 995-83), pull the riser from the provided slot in the cap. Pull the riser
assembly until there is enough clearance for handling and hold onto the riser body.
Step 2 – Remove cap screw and cap to unlock the main nozzle.
Step 3 – Use a 5/8" nut driver (P/N 995-99) to turn the main nozzle assembly. Turn the main nozzle assembly
clockwise until the angle indicator points towards the right to set 25° trajection. Continue turning the main
nozzle clockwise until the angle indicator points towards the left to set 15° trajection. See Figure 8 and 9.
Step 4 – Replace the cap. Make sure the main nozzle is secured and retained by the cap.
Step 5 – Secure the cap with the cap screw.
Figure 8
Figure 9
Radius Reduction - FLX34/54 and FLX35/55 Only (Not for FLX35-6/55-6)
For further refinement of the sprinkler’s radius, an optional radius reduction
Figure 10
screw (363-4839) can be added to break up the main nozzle spray. The
sprinkler cap provides an installation hole just above and in front of the
main nozzle. Using a 3/32" Allen wrench (P/N 995-82), thread the radius
reduction screw clockwise into the installation hole. Turn the sprinkler ON
and continue to thread the screw clockwise into the main nozzle stream
until the desired result is achieved. See Figure 10.
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Pilot Valve Operation (Electric Models Only)
The pilot valve controls the operation of the main valve located in the
base of the sprinkler body. The main valve is operated by the
release of water metered through the pilot valve when it is activated
either manually at the sprinkler or by the irrigation system controller.
100 PSI
(7.0 kg/cm2)
Another important function of the pilot valve is to regulate the water
pressure to the sprinkler nozzle. Pressure regulation compensates
for large variations within the system and maintains a constant
pressure for optimum sprinkler operation. The pilot valve is factory
set to regulate to one of four pressure levels: 50 psi (3.5 bar), 65 psi
(4.6 bar), 80 psi (5.6 bar) or 100 PSI (7.0 bar).
Change the pilot valve operating pressure by loosening the thumb
screw that secures the selector lever. Position the selector lever to
the desired operating pressure and hand-tighten the nut.
See Figure 11.
80 PSI
(5.6 kg/cm2)
65 PSI
(4.6 kg/cm2)
50 PSI (3.5 kg/cm2)
Figure 11
Troubleshooting
Possible equipment failures with causes and corrective action are listed below.
Sprinkler won’t rotate
– Debris wedged between stator and turbine
• Remove obstruction
– Drive assembly defective
• Replace drive assembly
– Nozzle base assembly defective
• Replace riser assembly
Head sticks up
– Dirt in riser assembly
• Flush out. (See Flushing Sprinklers)
– Damaged or missing return spring
• Replace
– Damaged riser
• Replace
Poor distribution pattern
– Nozzle plugged with debris
• Clean or replace nozzle
– Nozzle orifice damaged
• Replace nozzle
– Low operating pressure
• Determine why system overloaded and correct
Valve won’t close (Electric)
– Continuous 24 VAC to sprinkler
• Check controller for voltage source
– Debris in Pilot Valve
• Disassemble and remove all debris
– Leak in pilot valve assembly
• Replace pilot valve assembly
– Plugged supply screen on piston
• Clean or replace screen
– Manual control selector on pilot valve assembly turned to “ON” position
• Turn to “AUTO” position
– Plunger movement restricted
• Inspect and clean or replace
– Valve cylinder misaligned with sprinkler body communication tube
• Remove valve assembly and install correctly
– Foreign object keeping valve from seating
• Remove, clean and check valve for damage. Replace if necessary
– Damaged piston seal or piston assembly
• Replace valve assembly
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Valve won’t close (Hydraulic)
– Leak in control tubing
• Isolate and repair
– Pilot valve leak in controller
• Confirm by observing constant dripping from discharge line of controller. Refer to Controller Service Manual
– Valve cylinder misaligned with sprinkler body communication tube
• Remove valve assembly and install correctly
– Foreign object keeping valve from seating
• Remove, clean and check valve for damage. Replace if necessary
– Damaged piston seal or piston assembly
• Replace valve assembly
Valve won’t open (Electric)
– Control (field) wires severed
• Isolate and repair
– No power to controller
• Establish controller power
– No power from controller to solenoid
• Check for blown fuse and replace
– Manual control selector on pilot valve assembly turned to “OFF” position
• Turn to “AUTO” position
– Pilot valve solenoid inoperative
• Remove and replace
– Pilot valve plunger movement restricted
• Inspect, clean and/or replace
– No supply from main valve
• Debris in control tube, main valve assembly and/or communication passages in body. Flush thoroughly
Valve won’t open (Hydraulic)
– Plugged controller discharge line or discharge port in pilot valve
• Verify by checking for discharge at discharge line when station is activated. If no discharge, refer to
Controller Service Manual
Sprinkler Weeping (Slow leak in valve)
– Damaged or blocked valve seat
• Remove blockage and, if necessary, replace valve assembly
– Damaged piston seal or piston assembly
• Replace valve assembly
– Damaged pilot valve discharge seat
• Clean or replace pilot valve
– Damaged pilot valve plunger
• Clean or replace plunger
– Low pressure on supply line (N.O. Hydraulic Models)
• Check for low pressure reason and correct
– Elevation of normally closed sprinkler exceeds 75' (22.9 m) differential
Several valves on different stations fail to close (Hydraulic)
– Control tubing leak which lowers supply pressure to other stations
• Turn controller from station to station until a station is reached where only valves on that station stay open
The leak would be in the tubing on that station. Isolate and repair
– Leak in supply line to controller
• Verify by checking pressure in all control lines
– Leak in controller pilot valve
• Verify by constant discharge from controller
– Plugged supply line filter
• Replace filter if more than 3 psi (0.21 bar) differential exists
Servicing Procedures
The FLX35 and FLX55 series sprinklers are designed to provide the user trouble-free operation for many years without
scheduled maintenance. If it becomes necessary to disassemble the sprinkler to correct a malfunction or replace a
component, all internal parts of the sprinkler can be accessed from the top. Refer to the Troubleshooting Procedure in
this manual in the event of a malfunction. Some special tools are required for disassembly and/or maintenance of the
sprinkler and are available from your Toro dealer.
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Servicing Sprinkler Mechanism
WARNING! Never stand or lean over the sprinkler while the irrigation system is being filled, during manual or
automatic operation or when performing sprinkler service procedures. Direct contact with irrigation spray, a failed
or improperly installed sprinkler connection or sprinkler components forcibly ejected upward under pressure can cause
serious injury.
Servicing Sprinkler Mechanism
Note: Refer to Figure 12 for the following procedure.
Step 1 – Insert the hooked end of the multi-purpose tool (P/N 995-83) into the slot in the cap (2) and pull the riser
assembly up until there is enough clearance to handle.
Step 2 – Insert the hooked end of the tool into the snap ring slot (3). Pull the snap ring inward towards the sprinkler
assembly, then upward to remove from the groove in body. Hold onto the riser body (13) and carefully
extract it from the sprinkler body.
CAUTION: The seal/retainer (4) will rapidly move upward (caused by the decompressing spring [5]) as it
clears the sprinkler body.
Step 3 – Three small tabs are provided on the edge of the multi-purpose tool. Insert tabs into the debris filter screen
(17). Holding the plastic base of riser assembly, turn the screen counterclockwise to remove.
Step 4 – Remove the variable stator (16) from riser assembly.
Step 5 – Remove the drive assembly retaining screw (14) and pull the drive assembly (15) using a pair of pliers.
See Figure 13.
CAUTION: When removing or installing the drive assembly, do not use the turbine to pull the drive
assembly. Use the drive assembly body to extract it out. Failure to comply may cause separation of the drive
assembly components.
Note: During reassembly, ensure drive assembly is properly aligned with the retaining screw.
Step 6 – Using a 5/8" nut driver (P/N 995-99), unscrew main nozzle (12) from nozzle base assembly.
Step 7 – Using a 5/16" nut driver (P/N 995-105), unscrew the inner (7) and intermediate (8) nozzles.
Step 8 – Remove the cap screw (1) and cap (2).
Note: During reassembly, ensure the cap is correctly installed with the Toro Logo positioned over the main
nozzle (12) and the snap ring is correctly installed and fully seated in the sprinkler body.
Note: During reassembly, ensure that the inner nozzle orifice is aligned as shown.
Step 9 – Thoroughly clean and inspect all parts and replace as necessary. Reassemble in reverse order.
Step 10 –When installing the riser assembly to the sprinkler body, align the ratchet ring with the inside body rib. Use
the indicator on top of the sprinkler body to center the ratchet ring. See Figure 14.
Figure 13
Figure 12
9
Figure 14
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Servicing Main Valve
WARNING! If the valve snap ring is difficult to remove, residual water pressure may be remaining in the system.
To prevent possible serious injury due to valve being ejected upward under pressure, confirm the following
conditions exist prior to removing the snap ring and valve.
A. Water supply to sprinkler is shut off at source.
B. All pressure is bled from system, including control tubes.
C. AC power is disconnected at source.
Step 1 – See WARNING above. To remove valve assembly,
Figure 15
Figure 16
squeeze snap ring ears together with snap ring
pliers (P/N 995-100) and remove snap ring from
sprinkler body. See Figure 15.
Step 2 – Use valve removal tool P/N 995-08 for FLX35
or 995-09 for FLX55 to remove valve assembly
from base of sprinkler body. Valve removal tool is
inserted into sprinkler body and pushed through
valve ribs. A slight twist will catch tool under ribs
enabling valve removal by pulling straight up and
out. See Figure 16.
Note: If valve removal tool is not available, use
snap ring pliers to grasp rib of valve cylinder
assembly and pull up and out of sprinkler body.
Step 3 – Reinstall valve assembly using valve insertion tool
P/N 995-76 for FLX35 or 995-101 for FLX55 as
follows:
• Load snap ring onto insertion tool carrier with stepped side against carrier as shown in Figure 17. While
holding snap ring in compressed position, slide retainer clip in to hold snap ring ears
• Load valve assembly on carrier as shown.
• Locate position of communication tube in bottom of sprinkler body and orient insertion tool accordingly.
• Insert tool straight down into sprinkler body aligning bosses on t-handle with holes on sprinkler body
flange. When valve assembly clears vertical side wall ribs inside body, pull up on snap ring release
mechanism (FLX55 models only) and press valve assembly into position. Snap ring will lock into groove
when properly installed. Remove insertion tool and check snap ring to confirm that it is fully seated in
groove.
Figure 17
Snap Ring In
Retainer Clip
Snap Ring Release
Mechanism
Stepped Side
of Snap Ring
Valve Assembly
Orientation In Carrier
Press Valve Assembly
Into Position
Snap Ring
Released
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Servicing Pilot Valve
WARNING! Never stand or lean over the sprinkler while the irrigation system is being filled, during manual or
automatic operation or when performing sprinkler service procedures. Direct contact with irrigation spray, a failed
or improperly installed sprinkler connection or sprinkler components forcibly ejected upward under pressure can cause
serious injury.
Note: Refer to Figure 18 for the following procedure.
Step 1 – Make sure that the water supply to sprinkler
is positively shut off and any residual pressure
has been bled off. If the sprinkler is pressurized,
main valve will open when the pilot valve is
disconnected from control tube.
Figure 18
15
9
14
10
13
8
Step 2 – Carefully remove turf and soil from the side of
the sprinkler to expose pilot valve and control
tubing.
12
11
6
16
Step 3 – Remove the two retaining screws from the pilot
1
2
7
valve housing.
5
Step 4 – Pull the pilot valve assembly away from the
sprinkler body and cut the control tubing just
below tube retainer. Unless pilot valve has been
previously removed, control tubing length will be
sufficient for re-connection.
17
18
3
4
Step 5 – Remove tube retainer and remaining piece of
control tubing from valve body fitting.
Step 6 – Remove the solenoid (1, 2 or 3) or Normally-
Closed hydraulic actuator (4) by turning it
counterclockwise.
Step 7 – Remove the retaining nut (18) and washer (17)
from the pressure adjuster (11) and pull the pilot valve body assembly out of housing (16).
Step 8 – Remove diaphragm assembly (15), piston (14), spring (13), traveling adjuster (12), pressure adjuster (11) and
o-ring (7).
Step 9 – Remove selector shaft assembly (9) and plunger assembly (5). (The selector shaft retains the plunger in the
valve body.)
Step 10 –Thoroughly clean and inspect all parts. Replace damaged parts as necessary and reassemble in reverse
order.
Note: For service part numbers, refer to www.toro.com and click Parts. Select the “Irrigation” category and
search for “Pilot Valves”.
Flushing Sprinklers
WARNING! Never stand or lean over the sprinkler while the irrigation system is being filled, during manual or
automatic operation or when performing sprinkler service procedures. Direct contact with irrigation spray, a failed
or improperly installed sprinkler connection or sprinkler components forcibly ejected upward under pressure can cause
serious injury.
Step 1 – With sprinkler operating, carefully step down on center of cap several times. Water will flow around riser and
flush out debris.
Step 2 – Cycle sprinkler on and off several times to check for proper retraction. Cap should be even with top of body
flange when fully retracted. If riser sticks in up position, check for debris lodged between riser and body.
Flush out all debris. Remove sprinkler mechanism if necessary.
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NOTES:
Form Number 373-0859 Rev. A
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