Interactive Manual

Introduction

This machine is a multi-purpose machine intended to be used by professional, hired operators in commercial applications. It is designed primarily for mowing grass on well-maintained lawns in parks, golf courses, sports fields, and on commercial grounds.

Read this information carefully to learn how to operate and maintain your product properly and to avoid injury and product damage. You are responsible for operating the product properly and safely.

You may contact Toro directly at www.Toro.com for product and accessory information, help finding a dealer, or to register your product.

Whenever you need service, genuine Toro parts, or additional information, contact an Authorized Service Dealer or Toro Customer Service and have the model and serial numbers of your product ready. Figure 1 identifies the location of the model and serial numbers on the product. Write the numbers in the space provided.

Important: With your mobile device, you can scan the QR code on the serial number decal (if equipped) to access warranty, parts, and other product information.

Figure 1

Model and serial number location

This manual identifies potential hazards and has safety messages identified by the safety-alert symbol (Figure 2), which signals a hazard that may cause serious injury or death if you do not follow the recommended precautions.

Figure 2

Safety-alert symbol

This manual uses 2 words to highlight information. Important calls attention to special mechanical information and Note emphasizes general information worthy of special attention.

This product complies with all relevant European directives; for details, please see the separate product specific Declaration of Conformity (DOC) sheet.

It is a violation of California Public Resource Code Section 4442 or 4443 to use or operate the engine on any forest-covered, brush-covered, or grass-covered land unless the engine is equipped with a spark arrester, as defined in Section 4442, maintained in effective working order or the engine is constructed, equipped, and maintained for the prevention of fire.

The enclosed engine owner's manual is supplied for information regarding the US Environmental Protection Agency (EPA) and the California Emission Control Regulation of emission systems, maintenance, and warranty. Replacements may be ordered through the engine manufacturer.

Important: This engine is not equipped with a spark arrester muffler. It is a violation of California Public Resource Code Section 4442 to operate the engine on any forest-covered, brush-covered, or grass-covered land. Other states or federal areas may have similar laws.

Warning

CALIFORNIA

Proposition 65 Warning

Diesel engine exhaust and some of its constituents are known to the State of California to cause cancer, birth defects, and other reproductive harm.

Battery posts, terminals, and related accessories contain lead and lead compounds, chemicals known to the State of California to cause cancer and reproductive harm. Wash hands after handling.

Use of this product may cause exposure to chemicals known to the State of California to cause cancer, birth defects, or other reproductive harm.

Safety

This machine has been designed in accordance with EN ISO 5395:2013 and ANSI B71.4-2017.

General Safety

This product is capable of amputating hands and feet and of throwing objects. Always follow all safety instructions to avoid serious personal injury.

Using this product for purposes other than its intended use could prove dangerous to you and bystanders.

Read and understand the contents of this Operator’s Manual before starting the engine.
Use your full attention while operating the machine. Do not engage in any activity that causes distractions; otherwise, injury or property damage may occur.
Do not put your hands or feet near moving components of the machine.
Do not operate the machine without all guards and other safety protective devices in place and working on the machine.
Keep clear of any discharge opening. Keep bystanders and pets a safe distance away from the machine.
Keep children out of the operating area. Never allow children to operate the machine.
Stop the machine, shut off the engine, remove the key, and wait for all moving parts to stop before servicing, fueling, or unclogging the machine.

Improperly using or maintaining this machine can result in injury. To reduce the potential for injury, comply with these safety instructions and always pay attention to the safety-alert symbol , which means Caution, Warning, or Danger—personal safety instruction. Failure to comply with these instructions may result in personal injury or death.

You can find additional safety information where needed throughout this Operator’s Manual.

Safety and Instructional Decals

Safety decals and instructions are easily visible to the operator and are located near any area of potential danger. Replace any decal that is damaged or missing.

93-6681

Cutting/dismemberment—hazard, fan-stay away from moving parts.

93-7276

Explosion hazard—wear eye protection.
Caustic liquid/chemical burn hazard—to perform first aid, flush with water.
Fire hazard—no fire, open flames, or smoking.
Poison hazard—keep children a safe distance away from the battery.

93-7818

Warning—read the Operator's Manual for instructions on torquing the blade bolt/nut to 115-149 N∙m (85-110 ft-lb).

99-3444

Transport speed—fast
Mowing speed—slow

106-6755

Engine coolant under pressure
Explosion hazard—read the Operator's Manual.
Warning—do not touch the hot surface.
Warning—read the Operator's Manual.

117-3270

Warning—do not touch the hot surface.
Cutting/dismemberment hazard, hand; entanglement hazard, belt—stay away from moving parts, keep all guards and shields in place.

117-4764

Thrown object hazard—keep bystanders a safe distance away from the machine.
Cutting hazard of hand, mower blade—stay away from moving parts and keep all guards and shields in place.
Cutting hazard of foot, mower blade—stay away from moving parts and keep all guards and shields in place.

121-3642

Read the Operator’s Manual.

Battery Symbols

Some or all of these symbols are on your battery

Explosion hazard
No fire, open flame, or smoking
Caustic liquid/chemical burn hazard
Wear eye protection.
Read the Operator's Manual.
Keep bystanders a safe distance away from the battery.
Wear eye protection; explosive gases can cause blindness and other injuries.
Battery acid can cause blindness or severe burns.
Flush eyes immediately with water and get medical help fast.
Contains lead; do not discard.

106-9290

Inputs
Not active
High-temperature shutdown
High-temperature warning
In seat
Power take-off (PTO)
Parking brake off
Neutral
Outputs
Power take-off (PTO)
Start
Energize to run (ETR)
Start
Power

121-3598

This machine complies with the industry standard stability test in the static lateral and longitudinal tests with the maximum recommended slope indicated on the decal. Review the instructions for operating the machine on slopes in the Operator's Manual and the conditions in which the machine is being operated to determine whether the machine can be operated in the conditions on that day and at that site. Changes in the terrain can result in a change in slope operation for the machine. If possible, keep the cutting units lowered to the ground while operating the machine on slopes. Raising the cutting units while operating on slopes can cause the machine to become unstable.

Tipping hazard—do not drive across slopes greater than 17 degrees.

133-8062

121–3627

Height-of-cut settings

121-3623

Warning—read the Operator's Manual; do not operate the machine unless you have received training.
Warning—read the Operator's Manual before towing the machine.
Tipping hazard—slow the machine before turning; when driving on slopes, keep the cutting units lowered and your seatbelt fastened.
Warning—do not park on slopes; engage the parking brake, stop the cutting units, lower the attachments, shut off the engine, and remove the key from the ignition before leaving the machine.
Thrown object hazard—keep bystanders away.
Warning—wear hearing protection.
Entanglement hazard—keep away from moving parts; keep all guards and shields in place.

121-3619

PTO—Disengage
PTO—Engage
Lower the cutting units.
Raise the cutting units.
Lock
Engine—Shut off
Engine—Run
Engine—Start
Fast
Slow

Setup

Note: Determine the left and right sides of the machine from the normal operating position.

Activating, Charging, and Connecting the Battery

Note: If the battery is not filled with electrolyte or activated, purchase bulk electrolyte with 1.26 specific gravity from a local battery-supply outlet and add it to the battery.

Danger

Battery electrolyte contains sulfuric acid which is fatal when consumed and causes severe burns.

Do not drink electrolyte and avoid contact with skin, eyes, or clothing. Wear safety glasses to shield your eyes and rubber gloves to protect your hands.
Fill the battery where clean water is always available for flushing the skin.

Remove the battery cover (Figure 3).
Figure 3
1. Battery cover
Remove the filler caps from the battery and slowly fill each cell until the electrolyte is just above the plates.
Install the filler caps and connect a 3 to 4 A battery charger to the battery posts.

Note: Charge the battery at a rate of 3 to 4 A for 4 to 8 hours.
Warning
Charging the battery produces gasses that can explode.
- Keep sparks and flames away from battery.
- Never smoke near the battery.
When the battery is charged, disconnect the charger from the electrical outlet and battery posts.
Remove the filler caps.
Slowly add electrolyte to each cell until the level is up to the fill ring.

Important: Do not overfill the battery. Electrolyte will overflow onto other parts of the machine and severe corrosion and deterioration will result.
Install the filler caps.
Install the positive cable (red) to the positive (+) terminal and the negative cable (black) to the negative (–) terminal of the battery and secure them with the bolts and nuts (Figure 4).

Note: Ensure that the positive (+) terminal is all the way onto the post and the cable is positioned snug to the battery. The cable must not contact the battery cover.
Warning
Incorrect battery cable routing could damage the tractor and cables, causing sparks. Sparks can cause the battery gases to explode, resulting in personal injury.
- Always disconnect the negative (black) battery cable before disconnecting the positive (red) cable.
- Always connect the positive (red) battery cable before connecting the negative (black) cable.
Figure 4
1. Negative (–) battery cable
2. Positive (+) battery cable
Important: If you ever remove the battery, install the battery-clamp bolts with the bolt heads positioned on the bottom side and the nuts on the top side. If the clamp bolts are reversed, they may interfere with the hydraulic tubes when shifting the cutting units.
Coat both battery connections with Grafo 112X (skin over) grease (Toro Part No. 505-47), petroleum jelly, or light grease to prevent corrosion.
Slide the rubber boot over the positive terminal to prevent a possible short from occurring.
Install the battery cover.

Installing the CE Decal

Parts needed for this procedure:

Decal (121-3598)

If this machine will be used for CE, affix the CE-warning decal over the corresponding English warning decal.

Installing the Hood Latch

CE Machines Only

Parts needed for this procedure:

Hood-latch bracket	1
Rivet	2
Washer	1
Screw (1/4 x 2 inches)	1
Locknut (1/4 inch)	1

Unhook the hood latch from the hood-latch bracket.
Remove the 2 rivets securing the hood-latch bracket to the hood (Figure 5).
Figure 5
1. Hood-latch bracket
2. Rivets
Remove the hood-latch bracket from the hood.
While aligning the mounting holes, position the CE lock bracket and the hood-latch bracket onto the hood (Figure 6).

Note: The lock bracket must be against the hood. Do not remove the bolt and nut from the lock-bracket arm.
Figure 6
1. CE lock bracket
2. Bolt and nut
Align the washers with the holes on the inside of the hood.
Rivet the brackets and the washers to the hood (Figure 6).
Hook the latch onto the hood-latch bracket (Figure 7).
Figure 7
1. Hood latch
Install the bolt into the other arm of the hood-latch bracket to lock the latch in position (Figure 8). Tighten the bolt but do not tighten the nut.
Figure 8
1. Bolt
2. Nut
3. Arm of hood-latch bracket

Installing the Exhaust Guard

CE Models Only

Parts needed for this procedure:

Exhaust guard	1
Self-tapping screw	4

Position the exhaust guard around the muffler while aligning the mounting holes with the holes in the frame (Figure 9).
Figure 9
1. Exhaust guard
Secure the exhaust guard to the frame with 4 self-tapping screws (Figure 9).

Adjusting the Lift Arms

Start the engine, raise the cutting units, and ensure that the clearance between each lift arm and the floor-plate bracket is 5 to 8 mm (0.18 to 0.32 inch) as shown in Figure 10.
Figure 10

Cutting units removed for clarity
1. Floor-plate bracket
2. Clearance
3. Lift arm
If the clearance is not in this range, adjust it as follows:
1. Back off the stop bolts (Figure 11).
  Figure 11
  1. Stop bolt
  2. Clearance
  3. Lift arm
2. Back off the jam nut on the cylinder (Figure 12).
  Figure 12
  1. Jam nut
  2. Front cylinder
3. Remove the pin from the rod end and rotate the clevis.
4. Install the pin and check the clearance.
  
  Note: Repeat the procedure if required.
5. Tighten the clevis jam nut.
Ensure that the clearance between each lift arm and stop bolt is 0.13 to 1.02 mm (0.005 to 0.040 inch) as shown in Figure 11.

Note: If the clearance is not in this range, adjust the stop bolts to attain the proper clearance.
Start the engine, raise the cutting units, and ensure that the clearance between the wear strap on the top of the rear-cutting-unit wear bar and the bumper strap is 0.51 to 2.54 mm (0.02 to 0.10 inch) as shown in Figure 13.
Figure 13
1. Wear bar
2. Bumper strap
If the clearance is not in this range, adjust the rear cylinder as follows:

Note: If the rear-lift arm clunks during transport, you can reduce clearance.
1. Lower the cutting units and back off the jam nut on the cylinder (Figure 14).
  Figure 14
  1. Rear cylinder
  2. Adjusting nut
2. Grasp the cylinder rod close to the nut with a pliers and rag, and rotate the rod.
3. Raise the cutting units and check the clearance.
  
  Note: Repeat the procedure if required.
4. Tighten the clevis jam nut.

Important: Lack of clearance at the front stops or rear wear bar could damage the lift arms.

Adjusting the Carrier Frame

Adjusting the Front Cutting Decks

The front and rear cutting decks require different mounting positions. The front cutting deck has 2 mounting positions depending on what height of cut and degree of deck rotation you desire.

For heights of cut in the 2 to 7.6 cm (3/4 to 3 inches) range, mount the front carrier frames in the lower, front mounting holes (Figure 15).

Note: This permits more up travel of the cutting decks relative to the machine when approaching sudden changes in uphill terrain. It does, however, limit the clearance of the chamber to the carrier when cresting sharp, small hills.
Figure 15
1. Upper, front deck mounting hole
2. Lower, front deck mounting hole
3. Rear deck mounting hole
For heights of cut in the 6.3 to 10 cm (2-1/2 to 4 inches) range, mount the front carrier frames in the upper, front mounting holes (Figure 15).

Note: This increases the chamber to carrier clearance due to the higher position of the cutting chamber, but causes the cutting deck to reach its maximum up travel more quickly.

Adjusting the Rear Cutting Deck

The front and rear cutting decks require different mounting positions. The rear cutting deck has 1 mounting position for proper alignment with the Sidewinder® unit under the frame.

For all heights of cut, mount the rear cutting deck in the rear mounting holes (Figure 15).

Adjusting the Height of Cut

Important: This cutting deck often cuts approximately 6 mm (1/4 inch) lower than a reel cutting unit with the same bench setting. It may be necessary to have the rotary cutting decks bench set 6 mm (1/4 inch) above that of the reels cutting in the same area.

Important: Access to the rear cutting units is greatly improved by removing the cutting unit from the machine. If the machine is equipped with a Sidewinder unit, side-wind the cutting units to the right, remove the rear cutting unit, and slide it out to the right side.

Lower the cutting deck to the ground, shut off the engine, and remove the ignition key.
Loosen the bolt securing each height-of-cut bracket to the height-of-cut plate (front and each side) as shown in Figure 16.
Figure 16
1. Spacer
2. Height-of-cut plate
3. Height-of-cut bracket
Beginning with the front adjustment, remove the bolt.
While supporting the chamber, remove the spacer (Figure 16).
Move the chamber to the desired height of cut and install a spacer into the designated height-of-cut hole and slot (Figure 17).

Figure 17
Position the tapped plate in line with the spacer.
Install the bolt (finger tight).
Repeat steps 4 to 7 for each side adjustment.
Tighten the 3 bolts to 41 N∙m (30 ft-lb).

Note: Tighten the front bolt first.

Note: Adjustments of more than 3.8 cm (1-1/2 inches) may require temporary assembly to an intermediate height to prevent binding (e.g., changing from 3.1 to 7 cm (1-1/4 to 2-3/4 inches) height of cut).

Adjusting the Roller Scraper

Optional

The optional rear roller scraper functions best when there is an even gap of 0.5 to 1 mm (0.02 to 0.04 inch) between the scraper and the roller.

Loosen the grease fitting and the mounting screw (Figure 18).
Figure 18
1. Roller scraper
2. Mounting screw
3. Grease fitting
Slide the scraper up or down until you obtain a gap of 0.5 to 1 mm (0.02 to 0.04 inch) between the rod and the roller.
Tighten the grease fitting and screw to 41 N∙m (30 ft-lb) in an alternating sequence.

Installing the Mulching Baffle

Optional

Thoroughly clean debris from the mounting holes on the rear wall and left wall of the chamber.
Install the mulching baffle in the rear opening and secure it with 5 flange-head bolts (Figure 19).
Figure 19
1. Mulching baffle
2. Flange-head bolt
Verify that the mulching baffle does not interfere with the tip of the blade and does not protrude inside the surface of the rear chamber wall.

Danger

Using the high-lift blade with the mulching baffle could cause the blade to break, resulting in personal injury or death.

Do not use the high-lift blade with the baffle.

Product Overview

Figure 20

Tilt-steering lever
Reverse traction pedal
Forward traction pedal
Mow/transport slide
Indicator slot

Figure 21

Parking brake
Cutting-unit-shift lever
Cutting-unit-drive switch
Alternator light
Oil-pressure light
Temperature light
Glow-plug-indicator light
Hour meter
Throttle
Ignition switch
Lift lever lock

Traction Pedals

Press the forward traction pedal to move forward. Press reverse traction pedal to move backward or to assist in stopping when moving forward (Figure 20).

Note: Allow the pedal to move or move it to the NEUTRAL position to stop the machine.

Tilt-Steering Lever

Pull the tilt-steering lever back to tilt the steering wheel to the desired position, then push the lever forward to tighten (Figure 20).

Parking Brake

Whenever you shut off the engine, engage the parking brake to prevent accidental movement of the machine. To engage the parking brake, pull up on the lever (Figure 20).

Note: The engine shuts off when you press the traction pedal with the parking brake engaged.

Ignition Switch

The ignition switch is used to start, stop, and preheat the engine. The ignition switch has 3 positions: OFF, ON/PREHEAT, and START. Rotate the key to the ON/PREHEAT position until the glow-plug-indicator light goes out (approximately 7 seconds); then rotate the key to the START position to engage the starter motor. Release the key when the engine starts (Figure 21).

To shut off the engine, rotate the key to the OFF position.

Note: Remove the key from the switch to prevent accidental starting.

Seat-Adjustment Lever

Move the seat-adjustment lever on the side of the seat outward, slide the seat to the desired position, and release the lever to lock the seat into position (Figure 22).

Fuel Gauge

The fuel gauge registers the amount of fuel in the tank (Figure 22).

Figure 22

Fuel gauge
Seat-adjustment lever

Hour Meter

The hour meter records the number of hours that you operate the machine with the key switch in the RUN position. Use these times for scheduling regular maintenance.

Engine-Coolant-Temperature Warning Light

The temperature warning light glows if the engine coolant temperature is too high. If the coolant temperature rises another 10°, the engine shuts off (Figure 21).

Glow-Plug-Indicator Light

The glow-plug-indicator light glows when the glow plugs are operating (Figure 21).

Oil-Pressure Warning Light

The oil-pressure warning light glows if the engine-oil pressure drops below a safe level (Figure 21). If the oil pressure is low, shut off the engine and determine the cause. Repair the engine-oil system before you start the engine again.

Lift-Lock Lever

Use the lift-lock lever to secure the lift switch (Figure 21), to the RAISE-DECK position, when performing maintenance on the deck or when transporting between mowing locations.

Mow/Transport Slide

Using your heel, move the mow/transport slide to the left to transport, and to the right to mow (Figure 20).

Note: The cutting units operate only in the mow position.

Important: The mow speed is set at the factory to 9.7 km/h (6 mph). You can increase or decrease the mow speed by adjusting the speed-stop screw (Figure 23).

Figure 23

Speed-stop screw

Indicator Slot

The indicator slot in the operator platform indicates when the cutting units are in the center position (Figure 20) .

Throttle

Move the throttle forward to increase the engine speed and rearward to decrease the engine speed (Figure 21).

Cutting-Unit-Drive Switch

The cutting-unit-drive switch has 2 positions: ENGAGE and DISENGAGE. The rocker switch operates a solenoid valve on the valve bank to drive the cutting units (Figure 21).

Cutting-Unit Shift Lever

To lower the cutting units to the ground, move the cutting-unit shift lever forward. To raise the cutting units, pull the shift lever rearward to the RAISE position (Figure 21).

Note: The cutting units do not drop unless the engine is running.

Move the lever to the right or left to move the cutting units in the same direction.

Note: Do this only when the cutting units are raised or if they are on the ground and the machine is moving.

Note: The lever does not need to be held in the forward position while you are lowering the cutting units.

Alternator Light

The alternator light should be off when the engine is running (Figure 21).

Note: If it is on, the charging system should be checked and repaired as necessary.

Note: Specifications and design are subject to change without notice.

Figure 24

Description	Figure 24 reference	Dimension or Weight
Overall width in mowing position	A	192 cm (75-1/2 inches)
Overall width in transport position	B	184 cm (72-1/2 inches)
Height	C	197 cm (77-1/2 inches)
Wheel-base width	D	146 cm (57-1/2 inches)
Wheel-base length	E	166 cm (65-1/2 inches)
Overall length in mowing position	F	295 cm (116 inches)
Overall length in transport position	G	295 cm (116 inches)
Ground clearance		15 cm (6 inches)
Weight		963 kg (2,124 lb)

Note: Specifications and design are subject to change without notice.

Attachments/Accessories

A selection of Toro approved attachments and accessories is available for use with the machine to enhance and expand its capabilities. Contact your Authorized Service Dealer or authorized Toro distributor or go to www.Toro.com for a list of all approved attachments and accessories.

To ensure optimum performance and continued safety certification of the machine, use only genuine Toro replacement parts and accessories. Replacement parts and accessories made by other manufacturers could be dangerous, and such use could void the product warranty.

Operation

Before Operation

Note: Determine the left and right sides of the machine from the normal operating position.

Before Operation Safety

General Safety

Never allow children or untrained people to operate or service the machine. Local regulations may restrict the age of the operator. The owner is responsible for training all operators and mechanics.
Become familiar with the safe operation of the equipment, operator controls, and safety signs.
Know how to stop the machine and shut off the engine quickly.
Check that operator-presence controls, safety switches, and shields are attached and functioning properly. Do not operate the machine unless they are functioning properly.
Before mowing, always inspect the machine to ensure that the blades, blade bolts, and cutting assemblies are in good working condition. Replace worn or damaged blades and bolts in sets to preserve balance.
Inspect the area where you will use the machine and remove all objects that the machine could throw.

Fuel Safety

Use extreme care in handling fuel. It is flammable and its vapors are explosive.
Extinguish all cigarettes, cigars, pipes, and other sources of ignition.
Use only an approved fuel container.
Do not remove the fuel cap or fill the fuel tank while the engine is running or hot.
Do not add or drain fuel in an enclosed space.
Do not store the machine or fuel container where there is an open flame, spark, or pilot light, such as on a water heater or other appliance.
If you spill fuel, do not attempt to start the engine; avoid creating any source of ignition until the fuel vapors have dissipated.

Adding Fuel

Recommended Fuel

Use only clean, fresh diesel fuel or biodiesel fuels with low (<500 ppm) or ultra low (<15 ppm) sulfur content. The minimum cetane rating should be 40. Purchase fuel in quantities that can be used within 180 days to ensure fuel freshness.

Important: Use of non-ultra low sulfur fuel causes damage to the engine emission system.

Fuel tank capacity: 42 L (11 US gallons)

Use summer-grade diesel fuel (No. 2-D) at temperatures above -7°C (20°F) and winter grade (No. 1-D or No. 1-D/2-D blend) below that temperature. Use of winter-grade fuel at lower temperatures provides lower flash point and cold-flow characteristics, which eases starting and reduces fuel filter plugging.

Use of summer-grade fuel above -7°C (20°F) contributes toward longer fuel-pump life and increased power compared to winter-grade fuel.

Important: Do not use kerosene or gasoline instead of diesel fuel. Failure to observe this caution damages the engine.

Using Biodiesel

This machine can also use a biodiesel-blended fuel of up to B20 (20% biodiesel, 80% petrodiesel).

Sulfur content: Ultra-low sulfur (<15 ppm)

Biodiesel fuel specification: ASTM D6751 or EN14214

Blended fuel specification: ASTM D975, EN590, or JIS K2204

Important: The petroleum diesel portion must be ultra-low sulfur.

Observe the following precautions:

Biodiesel blends may damage painted surfaces.
Use B5 (biodiesel content of 5%) or lesser blends in cold weather.
Monitor seals, hoses, gaskets in contact with fuel as they may degrade over time.
Fuel filter plugging may occur for a time after you convert to biodiesel blends.
For more information on biodiesel, contact your authorized Toro distributor.

Filling the Fuel Tank

Clean the area around the fuel-tank cap (Figure 25).
Remove the fuel-tank cap.
Fill the tank to the bottom of the filler neck. Do not overfill. Install the cap.
To prevent a fire hazard, wipe up any spilled fuel.
Figure 25
1. Fuel-tank cap

Note: If possible, fill the fuel tank after each use. This minimizes buildup of condensation inside the fuel tank.

Checking the Engine-Oil Level

Before you start the engine and use the machine, check the oil level in the engine crankcase; refer to Checking the Engine-Oil Level.

Checking the Cooling System

Before you start the engine and use the machine, check the cooling system; refer to Checking the Cooling System.

Checking the Hydraulic System

Before you start the engine and use the machine, check the hydraulic system; refer to Checking the Hydraulic System.

Selecting a Blade

Using a Standard Combination Sail

This blade provides excellent lift and dispersion in almost any condition. If you require more or less lift and discharge velocity, consider a different blade.

Attributes: Excellent lift and dispersion in most conditions.

Using an Angled-Sail Blade

The blade generally performs best in lower heights of cut—1.9 to 6.4 cm (3/4 to 2-1/2 inches).

Attributes:

The discharge remains more even at lower heights of cut.
The discharge has less tendency to throw left and thus leaves a cleaner look around bunkers and fairways.
There is a lower power requirement at lower heights of cut and in dense turf.

Using an Atomic Blade

Attributes: This blade provides excellent leaf mulching.

Using a High-Lift-Parallel Sail Blade

The blade generally performs better in the higher heights of cut—7 to 10 cm (2 to 4 inches).

Attributes:

There is more lift and a higher discharge velocity.
Sparse or limp turf is picked up significantly at higher heights of cut.
Wet or sticky clippings are discharged more efficiently, reducing congestion in the deck.
It requires more horsepower to run.
It tends to discharge further left and tends to windrow at lower heights of cut.

Danger

Using the high-lift blade with the mulching baffle may cause the blade to break, resulting in personal injury or death.

Do not use the high-lift blade with the mulching baffle.

Choosing Accessories

Optional Equipment Configurations

	Angle Sail Blade	High-Lift, Parallel-Sail Blade(Do not use with the mulching baffle)	Mulching Baffle	Roller Scraper
Grass Cutting: 1.9 to 4.4 cm (3/4 to 1-3/4 inches) height of cut	Recommended in most applications	May work well in light or sparse turf	Has been shown to improve dispersion and after-cut performance on northern grasses that are cut at least 3 times per week and less than 1/3 of the grass blade is removed. Do not use with the high-lift, parallel-sail blade	Use it whenever the rollers build up with grass or large, flat grass clumps of grass are seen. The scrapers may increase clumping in certain applications.
Grass Cutting: 5 to 6.4 cm (2 to 2-1/2 inches) height of cut	Recommended for thick or lush turf	Recommended for light or sparse turf
Grass Cutting: 7 to 10 cm (2-3/4 to 4 inches) height of cut	May work well in lush turf	Recommended in most applications
Leaf Mulching	Recommended for use with the mulching baffle	Not Allowed	Use with combination sail or angle sail blade only
Pros	Even discharge at lower height of cut; cleaner look around bunkers and fairways; lower power requirements	More lift and higher discharge velocity; sparse or limp turf is picked up at high height of cut; wet or sticky clippings are discharged efficiently	May improve dispersion and appearance in certain grass cutting applications; very good for leaf mulching	Reduces roller buildup in certain applications
Cons	Does not lift the grass well in high height-of-cut applications; wet or sticky grass has a tendency to build up in the chamber, leading to poor quality of cut and higher power requirements	Requires more power to run in some applications; tends to windrow at lower height of cut in lush grass; do not use with the mulching baffle	Grass will build up in the chamber if you attempt to remove too much grass with the baffle in place

Checking the Safety-Interlock System

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Check the safety-interlock system.

Caution

If the safety-interlock switches are disconnected or damaged, the machine could operate unexpectedly and cause personal injury.

Do not tamper with the safety systems.
Check the operation of the switches daily and replace any damaged switches before operating the machine.

Drive the machine slowly to a large, open area..
Lower the cutting unit(s), shut off the engine, and engage the parking brake.
While sitting on the seat, the engine must not start with either the cutting-unit switch engaged or the traction pedal engaged.

Note: Correct the problem if it is not operating properly.
While sitting on the seat, put the traction pedal in NEUTRAL, the parking brake is DISENGAGED, and the cutting unit switch in the OFF position.

Note: The engine should start. Rise from the seat and slowly press the traction pedal, and the engine should shut off in 1 to 3 seconds. If it does not shut off, there is a malfunction in the interlock system that you should correct before resuming operation.

Note: The machine is equipped with an interlock switch on the parking brake. The engine shuts off when you press the traction pedal with the parking brake engaged.

During Operation

During Operation Safety

General Safety

The owner/operator can prevent and is responsible for accidents that may cause personal injury or property damage.
Wear appropriate clothing, including eye protection; long pants; substantial, slip-resistant footwear; and hearing protection. Tie back long hair and do not wear loose jewelry.
Use your full attention while operating the machine. Do not engage in any activity that causes distractions; otherwise, injury or property damage may occur.
Do not operate the machine while ill, tired, or under the influence of alcohol or drugs.
Never carry passengers on the machine and keep bystanders and pets away from the machine during operation.
Operate the machine only in good visibility to avoid holes or hidden hazards.
Before you start the engine, ensure that all drives are in neutral, the parking brake is engaged, and you are in the operating position.
Keep your hands and feet away from rotating parts. Keep clear of the discharge opening at all times.
Look behind and down before backing up to be sure of a clear path.
Use care when approaching blind corners, shrubs, trees, or other objects that may obscure your vision.
Stop the blades whenever you are not mowing.
Stop the machine, remove the key, and wait for all moving parts to stop before inspecting the attachment after striking an object or if there is an abnormal vibration in the machine. Make all necessary repairs before resuming operation.
Slow down and use caution when making turns and crossing roads and sidewalks with the machine. Always yield the right-of-way.
Disengage the drive to the cutting unit, shut off the engine, remove the key, and wait for all moving parts to stop before adjusting the height of cut (unless you can adjust it from the operating position).
Never run an engine in an area where exhaust gasses are enclosed.
Never leave a running machine unattended.
Before leaving the operating position (including to empty the catchers or to unclog the chute), do the following:
- Park the machine on level ground.
- Disengage the power takeoff and lower the attachments.
- Engage the parking brake.
- Shut off the engine and remove the key.
- Wait for all moving parts to stop.
Do not operate the machine when there is the risk of lightning.
Do not use the machine as a towing vehicle.
Use accessories, attachments, and replacement parts approved by The Toro® Company only.

Rollover Protection System (ROPS) Safety

Do not remove the ROPS from the machine.
Ensure that the seat belt is attached and that you can release it quickly in an emergency.
Check carefully for overhead obstructions and do not contact them.
Keep the ROPS in safe operating condition by thoroughly inspecting it periodically for damage and keeping all the mounting fasteners tight.
Replace damaged ROPS components. Do not repair or alter them.

Machines with a Fixed Roll Bar

The ROPS is an integral safety device.
Always wear your seat belt.

Slope Safety

Slopes are a major factor related to loss of control and rollover accidents, which can result in severe injury or death. You are responsible for safe slope operation. Operating the machine on any slope requires extra caution.
Evaluate the site conditions to determine if the slope is safe for machine operation, including surveying the site. Always use common sense and good judgment when performing this survey.
Review the slope instructions listed below for operating the machine on slopes and to determine whether you can operate the machine in the conditions on that day and at that site. Changes in the terrain can result in a change in slope operation for the machine.
Avoid starting, stopping, or turning the machine on slopes. Avoid making sudden changes in speed or direction. Make turns slowly and gradually.
Do not operate a machine under any conditions where traction, steering, or stability is in question.
Remove or mark obstructions such as ditches, holes, ruts, bumps, rocks, or other hidden hazards. Tall grass can hide obstructions. Uneven terrain could overturn the machine.
Be aware that operating the machine on wet grass, across slopes, or downhill may cause the machine to lose traction. Loss of traction to the drive wheels may result in sliding and a loss of braking and steering.
Use extreme caution when operating the machine near drop-offs, ditches, embankments, water hazards, or other hazards. The machine could suddenly roll over if a wheel goes over the edge or the edge caves in. Establish a safety area between the machine and any hazard.
Identify hazards at the base of the slope. If there are hazards, mow the slope with a pedestrian-controlled machine.
If possible, keep the cutting unit(s) lowered to the ground while operating on slopes. Raising the cutting unit(s) while operating on slopes can cause the machine to become unstable.
Use extreme caution with grass-collection systems or other attachments. These can change the stability of the machine and cause a loss of control. Always keep the machine in gear when going down slopes. Do not coast downhill (applicable only to gear-drive units).

Starting the Engine

Ensure that the parking brake is engaged and the cutting-unit-drive switch is in the DISENGAGE position.
Remove your foot from the traction pedal and ensure that the pedal is in the NEUTRAL position.
Move the throttle lever to the 1/2-throttle position.
Insert the key into the switch and rotate it to the ON/PREHEAT position until the glow-plug indicator light goes out (approximately 7 seconds); then rotate the key to the START position to engage the starter motor.

Important: To prevent overheating of the starter motor, do not engage the starter for longer than 15 seconds. After 10 seconds of continuous cranking, wait 60 seconds before engaging the starter motor again.
Release the key when the engine starts.

Note: The key automatically moves to the ON/RUN position.
When you start the engine for the first time or after overhauling the engine, operate the machine in forward and reverse for 1 to 2 minutes.

Note: Also, operate the lift lever and cutting-unit-drive switch to ensure that all parts operate properly.
Turn the steering wheel to the left and to the right to check the steering response, then shut off the engine check for oil leaks, loose parts, and any other malfunctions.

Shutting Off the Engine

Move the throttle control to the IDLE position, move the cutting-unit-drive switch to the DISENGAGE position, and rotate the starter key to the OFF position. Remove the key to prevent accidental starting.

Standard-Control Module (SCM)

The Standard-Control Module (SCM) is a potted electronic device produced in a 1-size-fits-all configuration. The module uses solid state and mechanical components to monitor and control standard, electrical features required for safe product operation.

The module-monitor input includes neutral, parking brake, PTO, start, backlap, and high temperature. The module energizes outputs including PTO, Starter, and ETR (energize to run) solenoid.

The module is divided into inputs and outputs. Inputs and outputs are identified by green LED indicators mounted on the printed circuit board.

The start-circuit input is energized by 12 VDC. All other inputs are energized when the circuit is closed to ground. Each input has an LED that illuminates when the specific circuit is energized. Use the input LEDs for switch and input-circuit troubleshooting.

Output circuits are energized by an appropriate set of input conditions. The 3 outputs include PTO, ETR, and START. Output LEDs monitor the relay condition, indicating the presence of voltage at 1 of 3 specific output terminals.

Output circuits do not determine output-device integrity, so electrical troubleshooting includes output-LED inspection, conventional device, and wire-harness-integrity testing. Measure the disconnected-component impedance, impedance through the wire harness (disconnect at SCM), or by temporarily test energizing the specific component.

The SCM does not connect to an external computer or handheld device, cannot be programmed again, and does not record intermittent fault troubleshooting data.

The decal on the SCM includes only symbols. The 3 LED output symbols are shown in the output box, while all other LEDs are inputs as shown in Figure 26.

Figure 26

Backlap (input)
High temperature (input)
In seat (input)
PTO switch (input)
Parking brake—off (input)
Neutral position (input)
PTO (output)
Start (output)
ETR (output)
Start (input)
Power (input)

Here are the logical troubleshooting steps for the SCM device.

Determine the output fault that you are trying to resolve (PTO, START, or ETR).
Move key switch to the ON position and ensure that the red, power LED illuminates.
Move all of the input switches to ensure that all LEDs change state.
Position the input devices at the appropriate position to achieve the appropriate output.

Note: Use the following logic chart to determine the appropriate input condition.
Review the following repair options if a specific output LED illuminates.
- If a specific output LED illuminates without the appropriate output function, check the output harness, connections, and component.
  
  Note: Repair as required.
- If a specific output LED does not illuminate, check both fuses.
- If a specific output LED does not illuminate and the inputs are in the appropriate condition, install a new SCM and determine if the fault disappears.

Each row (across) in the logic chart below identifies input and output requirements for each specific product function. Product functions are listed in the left column. Symbols identify specific circuit condition, including energized to voltage, closed to ground, and open to ground.

Inputs									Outputs
Function	Power ON	In NEUTRAL	Start ON	Brake ON	PTO ON	In Seat	Hi Temp	Backlap	Start	ETR	PTO
Start	—	—	+	O	O	—	O	O	+	+	O
Run (Off Unit)	—	—	O	O	O	O	O	O	O	+	O
Run (On Unit)	—	O	O	—	O	—	O	O	O	+	O
Mow	—	O	O	—	—	—	O	O	O	+	+
Backlap	—	—	O	O	—	O	O	—	O	+	+
Hi Temp	—		O				—		O	O	O

(–) Indicates a circuit closed to ground—LED On
(O) Indicates a circuit open to ground or de-energized—LED Off
(+) Indicates an energized circuit (clutch coil, solenoid, or start input)—LED On
A blank indicates a circuit that is not involved with the logic chart.

To troubleshoot, turn on the key without starting the engine. Identify the specific function that does not work and work across the logic chart. Inspect the condition of each input LED to ensure that it matches the logic chart.

If the input LEDs are correct, check the output LED. If the output LED illuminates but the device is not energized, measure the available voltage at the output device, the continuity of the disconnected device, and the potential voltage on the ground circuit (floating ground).

Operating Tips

Operating the Machine

Start the engine and run it at HALF IDLE until it warms up. Push the throttle lever all the way forward, lift the cutting units, disengage the parking brake, press the forward traction pedal, and carefully drive to an open area.
Practice moving forward and reverse, and starting and stopping the machine. To stop the machine, remove your foot from the traction pedal and let it return to NEUTRAL or press down on the reverse pedal.

Note: When going downhill in the machine, you may need to use the reverse pedal to stop.
When possible, mow up and down hills rather than across them. Have the cutting units lowered when going down a hill to maintain steering control. Do not attempt to turn the machine on a hill.
Practice driving around obstacles with the cutting units up and down. Be careful when driving between narrow objects so that you do not damage the machine or cutting units.
On the Sidewinder unit, get accustomed to the reach of the cutting units so that you do not hang them up or damage them.
Do not shift the cutting units from side to side unless they are down and the machine is moving, or the cutting units are in the transport position. Shifting the cutting units when they are down and the machine is not moving may damage the turf.
Always drive slowly in rough areas.
The Sidewinder unit offers up to a maximum of 33 cm (13 inches) of overhang, allowing you to trim closer to the edge of sand traps and other obstacles, while, at the same time, keeping the tractor tires as far away from the edge of traps or water hazards as possible.
If an obstacle is in the way, shift the cutting units to mow around it.
When transporting the machine from 1 work area to another, raise the cutting units to the fully upward position, move the mow/transport slide to the left to transport, and place the throttle in the FAST position.

Changing Mowing Patterns

Change mowing patterns often to minimize a poor after-cut appearance from repeatedly mowing in the same direction.

Understanding Counterbalance

The counterbalance system maintains hydraulic back pressure on the deck-lift cylinders. This pressure improves traction by transferring the mower-deck weight to the mower-drive wheels. The counterbalance pressure has been set at the factory to an optimal balance of after-cut appearance and traction capability in most turf conditions.

Decreasing the counterbalance setting can produce a more stable mower deck, but can decrease the traction capability. Increasing the counterbalance setting can increase the traction capability, but may result in a poor after-cut appearance. Refer to the machine Service Manual for your traction unit for instructions to adjust the counterbalance pressure.

Resolving After-Cut Appearance

Reference the After-cut Appearance Troubleshooting Guide available at www.Toro.com.

Using Proper Mowing Techniques

To begin cutting, engage the cutting units, then approach the mowing area slowly. Once the front cutting units are over the mowing area, lower the cutting units.
To achieve the professional straight-line cut and striping that is desirable for some applications, find a tree or other object in the distance and drive straight toward it.
As soon as the front cutting units reach the edge of the mowing area, lift the cutting units, and perform a teardrop-shaped turn to quickly line up for your next pass.
To mow around bunkers, ponds, or other contours easily, use the Sidewinder unit and move the control lever to the left or right, depending on your mowing application. You can also shift the cutting units to vary the tire tracking.
The cutting units tend to throw grass to the left side of the machine. If you are trimming around bunkers, mow in a clockwise direction to prevent throwing clippings into the bunker.
Bolt-in mulching baffles are available for the cutting units. The mulching baffles perform well when you maintain turf on a regular schedule to avoid removing more than 25 mm (1 inch) of growth per cutting. When you cut too much growth with the mulching baffles installed, the after-cut appearance may deteriorate and the observed power to cut the turf increases. The mulching baffles also perform well for shredding leaves in the fall.

Selecting the Proper Height-of-Cut Setting to Suit Conditions

Remove no more than approximately 25 mm (1 inch), or 1/3 of the grass blade when cutting. In exceptionally lush and dense grass, you may need to raise your height-of-cut setting.

Mowing with Sharp Blades

A sharp blade cuts cleanly and without tearing or shredding the grass blades like a dull blade. Tearing and shredding causes the grass to turn brown at the edges, which impairs growth and increases susceptibility to diseases. Ensure that the blade is in good condition and that there is a full sail.

Checking the Condition of the Mower Deck

Ensure that the cutting chambers are in good condition. Straighten any bends in the chamber components to ensure correct blade tip/chamber clearance.

Maintaining the Machine After Mowing

After mowing, thoroughly wash the machine with a garden hose with no nozzle to avoid contamination and damage to the seals and bearings caused by excessive water pressure. Ensure that the radiator and oil cooler are kept free of dirt or grass clippings. After cleaning, inspect the machine for possible hydraulic-fluid leaks, damage, or wear to the hydraulic and mechanical components, and check the cutting-unit blades for sharpness.

Important: After washing the machine, move the Sidewinder mechanism from left to right several times to remove the water between the bearing blocks and cross tube.

After Operation

After Operation Safety

Clean grass and debris from the cutting units, mufflers, and engine compartment to help prevent fires. Clean up oil or fuel spills.
If the cutting units are in the transport position, use the positive mechanical lock (if available) before you leave the machine unattended.
Allow the engine to cool before storing the machine in any enclosure.
Remove the key and shut off the fuel (if equipped) before storing or transporting the machine.
Never store the machine or fuel container where there is an open flame, spark, or pilot light, such as on a water heater or on other appliances.
Keep all parts of the machine in good working condition and all hardware tightened, especially blade-attachment hardware.
Maintain and clean the seat belt(s) as necessary
Replace all worn or damaged decals.

Hauling the Machine

Remove the key and shut off the fuel (if equipped) before storing or transporting the machine.
Use care when loading or unloading the machine into a trailer or a truck.
Use full-width ramps for loading the machine into a trailer or a truck.
Tie the machine down securely.

Locating the Tie-Down Points

There are tie downs located at the front and rear sides of the machine (Figure 27).

Note: Use properly-rated DOT-approved straps in 4 corners to tie down the machine.

2 on the front of the operator's platform
Rear tire

Figure 27

Tie-down point

Pushing or Towing the Machine

In an emergency, you can move the machine a very short distance by actuating the bypass valve in the hydraulic pump and pushing or towing the machine.

Important: Do not push or tow the machine faster than 3 to 4.8 km/h (2 to 3 mph). If you push or tow at a faster speed, internal transmission damage may occur. If you must move the machine a considerable distance, transport it on a truck or trailer.

Important: The bypass valve must be open whenever you push or tow the machine. Close the valve once you have pushed or towed the machine to the desired location.

Locate the bypass valve on the pump (Figure 28) and loosen it by rotating 90° (1/4 of a turn).
Figure 28
1. Bypass valve
Push or tow the machine.
Finish pushing or towing the machine and close the bypass valve by rotating it 90° (1/4 turn).

Important: Ensure that the bypass valve is closed before you start the engine. Running the engine with an open bypass valve causes the transmission to overheat.

Maintenance

Note: Determine the left and right sides of the machine from the normal operating position.

Recommended Maintenance Schedule(s)

Maintenance Service Interval	Maintenance Procedure
After the first hour	Torque the wheel-lug nuts.
After the first 10 hours	Torque the wheel-lug nuts. Check the condition and tension of all belts. Change the hydraulic filter.
After the first 50 hours	Change the engine oil and engine-oil filter.
Before each use or daily	Check the safety-interlock system. Check the engine-oil level. Drain the water separator. Check the tire pressure. Check the engine-coolant level. Clean debris off the radiator and oil cooler (clean them more frequently in dirty conditions). Check the hydraulic-fluid level. Check the hydraulic lines and hoses. Check the blade stopping time.
Every 25 hours	Check the electrolyte level.(If the machine is in storage, check it every 30 days.)
Every 50 hours	Lubricate all of the bearings and bushings. Remove the air-cleaner cover and clean out the debris. Do not remove the filter.
Every 100 hours	Check the condition and tension of all belts.
Every 150 hours	Change the engine oil and engine-oil filter.
Every 200 hours	Service the air-cleaner filter.(More frequently in extreme dusty or dirty conditions) Torque the wheel-lug nuts. Check the parking-brake adjustment. Change the hydraulic filter.
Every 400 hours	Replace the fuel filter. Change the hydraulic fluid.
Every 500 hours	Grease the bearings in the rear axle.
Every 1,000 hours	Drain and clean the fuel tank.
Every 2 years	Drain and clean the fuel tank.

Pre-Maintenance Procedures

Maintenance Safety

Before adjusting, cleaning, repairing, or leaving the machine, do the following:
- Park the machine on a level surface.
- Move the throttle switch to the low-idle position.
- Disengage the cutting units.
- Lower the cutting units.
- Ensure that the traction is in neutral.
- Engage the parking brake.
- Shut off the engine and remove the key.
- Wait for all moving parts to stop.
- Allow machine components to cool before performing maintenance.
If the cutting units are in the transport position, use the positive mechanical lock (if available) before you leave the machine unattended.
If possible, do not perform maintenance while the engine is running. Keep away from moving parts.
Use jack stands to support the machine or components when required.
Carefully release pressure from components with stored energy.

Preparing the Machine for Maintenance

Ensure that the PTO is disengaged.
Park the machine on a level surface.
Engage the parking brake.
Lower the cutting unit(s) if necessary.
Shut off the engine and wait for all moving parts to stop.
Turn the ignition key to the STOP position and remove it.
Allow machine components to cool before performing maintenance.

Removing the Hood

Unlatch and raise the hood.
Remove the hairpin cotter securing the hood pivot to the mounting brackets (Figure 29).
Figure 29
1. Hairpin cotter
Slide the hood to the right side, lift the other side, and pull it out of the brackets.

Note: Reverse this procedure to install the hood.

Using the Cutting Deck Service Latch

When servicing the cutting decks, use the service latch to prevent injury.

Center the cutting deck sidewinder with the traction unit.
Raise the cutting decks to the transport position.
Engage the parking brake and turn off the machine.
Release the latch rod from the front carrier-frame retainer (Figure 30).
Figure 30
1. Service-latch hook
Lift the outside of the front cutting decks and place the latch over the frame pin mounted on the front of the operator's platform (Figure 30).
Sit on the operator’s seat and start the machine.
Lower the cutting decks to the mow position.
Turn off the machine and remove the key.
Reverse this procedure to unlatch the cutting decks.

Lubrication

Greasing the Bearings and Bushings

Maintenance Service Interval	Maintenance Procedure
Every 50 hours	Lubricate all of the bearings and bushings.
Every 500 hours	Grease the bearings in the rear axle.

The machine has grease fittings that you must lubricate regularly with No. 2 lithium grease. Also, lubricate the machine immediately after every washing.

The grease fitting locations and quantities are as follows:

Rear cutting-unit pivot (Figure 31)

Figure 31
Front cutting-unit pivot (Figure 32)

Figure 32
2 sidewinder-cylinder ends (Figure 33)

Figure 33
Steering pivot (Figure 34)

Figure 34
2 rear lift-arm pivots and lift cylinder (Figure 35)

Figure 35
2 left, front lift-arm pivots and lift cylinder (Figure 36)

Figure 36
2 right, front lift-arm pivots and lift cylinder (Figure 37)

Figure 37
Neutral-adjustment mechanism (Figure 38)

Figure 38
Mow/transport slide (Figure 39)

Figure 39
Belt-tension pivot (Figure 40)

Figure 40
2 (per cutting unit) cutting unit spindle-shaft bearings (Figure 41)

Note: You can use either fitting, whichever is more accessible. Pump grease into the fitting until a small amount appears at the bottom of the spindle housing (under the deck).

Figure 41
2 (per cutting unit) rear roller bearings (Figure 42)

Figure 42

Note: Ensure that the grease groove in each roller mount aligns with the grease hole in each end of the roller shaft. To help align the groove and hole, there is also an alignment mark on an end of the roller shaft.

Important: Do not lubricate the Sidewinder cross tube. The bearing blocks are self-lubricated.

Engine Maintenance

Engine Safety

Shut off the engine and remove the key before checking the oil or adding oil to the crankcase.
Do not change the governor speed or overspeed the engine.

Servicing the Air Cleaner

Check the air-cleaner body for damage that could cause an air leak and replace it if it is damaged. Check the entire intake system for leaks, damage, or loose hose clamps. Also, inspect the rubber intake-hose connections at the air cleaner and turbocharger to ensure that the connections are complete.

Ensure that the cover is seated correctly and seals with the air-cleaner body.

Servicing the Air-Cleaner Cover

Maintenance Service Interval	Maintenance Procedure
Every 50 hours	Remove the air-cleaner cover and clean out the debris. Do not remove the filter.

Check the air-cleaner body for damage which could cause an air leak. Replace a damaged air cleaner body.

Clean the air-cleaner cover (Figure 43).

Figure 43

Servicing the Air-Cleaner Filter

Maintenance Service Interval	Maintenance Procedure
Every 200 hours	Service the air-cleaner filter.(More frequently in extreme dusty or dirty conditions)

Before removing the filter, use clean and dry, low-pressure air (275 kPa or 40 psi) to help remove large accumulations of debris packed between the outside of the primary filter and the canister.

Important: Avoid using high-pressure air that could force dirt through the filter and into the intake tract, causing damage. This cleaning process prevents debris from migrating into the intake when you remove the primary filter.
Remove the primary filter (Figure 44).

Important: Do not clean the used element to prevent the possibility of damaging the filter media. Inspect the new filter for shipping damage, checking the sealing end of the filter and the body. Do not use a damaged element.

Important: Do not attempt to clean the safety filter. Replace the safety filter after every 3 primary-filter services (Figure 45).
Figure 44
1. Rubber outlet valve
2. Air-cleaner latch
3. Air cleaner primary filter
4. Air-cleaner body
5. Air-cleaner-restriction sending unit
6. Rubber intake hose
Figure 45
1. Safety filter
Replace the primary filter (Figure 44).
Insert the new filter by applying pressure to the outer rim of the element to seat it in the canister.

Note: Do not apply pressure to the flexible center of the filter.
Clean the dirt-ejection port located in the removable cover.
Remove the rubber outlet valve from the cover, clean the cavity, and replace the outlet valve.
Install the cover, orienting the rubber outlet valve in a downward position between the 5 o’clock to 7 o’clock positions when viewed from the end, and secure the latch (Figure 44).

Servicing the Engine Oil

Checking the Engine-Oil Level

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Check the engine-oil level.

The engine is shipped with oil in the crankcase; however, check the oil level before and after you start the engine for the first time.

The crankcase capacity is approximately 2.8 L (4 US qt) with the filter.

Use high-quality engine oil that meets the following specifications:

API Classification Level Required: CH-4, CI-4, or higher.
Preferred oil: SAE 15W-40 above -17º C (0º F)
Alternate oil: SAE 10W-30 or 5W-30 (all temperatures)

Note: Toro Premium Engine Oil is available from your distributor in either 15W-40 or 10W-30 viscosity. See the parts catalog for part numbers. Also, refer to the engine owner's manual (included with the machine) for further recommendations.

Note: The best time to check the engine oil is when the engine is cool before it has been started for the day. If you have already run the engine, allow the oil to drain back down to the sump for at least 10 minutes before checking. If the oil level is at or below the ADD mark on the dipstick, add oil to bring the oil level to the FULL mark. Do not overfill. If the oil level is between the FULL and ADD marks, you do not need to add oil.

Check the engine-oil level as shown in Figure 46.

Figure 46

Changing the Engine Oil and Filter

Maintenance Service Interval	Maintenance Procedure
After the first 50 hours	Change the engine oil and engine-oil filter.
Every 150 hours	Change the engine oil and engine-oil filter.

Start the engine and let it run 5 minutes to allow the oil to warm up.
With the machine parked on a level surface, shut off the engine, remove the key, and wait for all moving parts to stop before leaving the operating position.
Change the engine oil as shown in Figure 47.

Figure 47
Change the engine-oil filter as shown in Figure 48.

Figure 48

Fuel System Maintenance

Draining the Fuel Tank

Maintenance Service Interval	Maintenance Procedure
Every 1,000 hours	Drain and clean the fuel tank.
Every 2 years	Drain and clean the fuel tank.

Drain and clean the tank also if the fuel system becomes contaminated or if you are storing the machine for an extended period of time. Use clean fuel to flush out the tank.

Servicing the Water Separator

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Drain the water separator.
Every 400 hours	Replace the fuel filter.

Draining the Water Separator

Place a drain pan under the fuel filter.
Loosen the drain valve on the bottom of the filter (Figure 49).
Figure 49
1. Vent plug
2. Water separator/filter
3. Drain valve
Tighten the valve after draining.

Replacing the Fuel Filter

Clean the area where the filter mounts (Figure 49).
Remove the filter and clean the mounting surface.
Lubricate the gasket on the filter with clean oil.
Install the filter by hand until the gasket contacts the mounting surface; then rotate an additional 1/2 turn.

Bleeding the Fuel System

Perform the pre-maintenance procedure; refer to Maintenance Safety
Ensure that the fuel tank is at least half full.
Unlatch and raise the hood.

Danger

Under certain conditions, diesel fuel and fuel vapors are highly flammable and explosive. A fire or explosion from fuel can burn you and others and can cause property damage.

Never smoke when handling fuel, and stay away from an open flame or where fuel fumes may be ignited by a spark.
Open the air-bleed screw on the fuel-injection pump (Figure 50).
Figure 50
1. Air-bleed screw on the fuel-injection pump
Turn the key in the ignition switch to the ON position.

Note: The electric fuel pump will operate, forcing air out around the air-bleed screw. Leave the key in the ON position until a solid stream of fuel flows out around the screw.
Tighten the screw and turn the key to the OFF position.

Note: Normally, the engine should start after performing this procedure. However, if the engine does not start, there may be air trapped between the injection pump and injectors; refer to Bleeding Air from the Injectors.

Bleeding Air from the Injectors

Note: Use this procedure only if the fuel system has been purged of air through normal priming procedures and the engine does not start; refer to Bleeding the Fuel System.

Loosen the pipe connection to the No. 1 nozzle and holder assembly (Figure 51).
Figure 51
1. Fuel injectors
Move the throttle to the FAST position.
Turn the key in the key switch to the START position and watch the fuel flow around the connector.

Note: Turn the key to the OFF position when solid flow is observed.
Tighten the pipe connector securely.
Repeat this procedure on the remaining nozzles.

Electrical System Maintenance

Electrical System Safety

Disconnect the battery before repairing the machine. Disconnect the negative terminal first and the positive last. Connect the positive terminal first and the negative last.
Charge the battery in an open, well-ventilated area, away from sparks and flames. Unplug the charger before connecting or disconnecting the battery. Wear protective clothing and use insulated tools.

Servicing the Battery

Maintenance Service Interval	Maintenance Procedure
Every 25 hours	Check the electrolyte level.(If the machine is in storage, check it every 30 days.)

Maintain the battery-electrolyte level properly and keep the top of the battery. If you store the machine in a hot location, the battery will discharge more rapidly than if you store the machine in a cool location.

Maintain the cell level with distilled or demineralized water. Do not fill the cells above the bottom of the split ring inside each cell. Install the filler caps with the vents pointing to the rear (toward the fuel tank).

Danger

Battery electrolyte contains sulfuric acid which is fatal if consumed and causes severe burns.

Do not drink electrolyte and avoid contact with skin, eyes, or clothing. Wear safety glasses to shield your eyes and rubber gloves to protect your hands.
Fill the battery where clean water is always available for flushing the skin.

Keep the top of the battery clean by washing it periodically with a brush dipped in ammonia or a solution of bicarbonate of soda. Flush the top surface with water after cleaning. Do not remove the filler caps while cleaning the battery.

The battery cables must be tight on the terminals to provide good electrical contact.

Warning

Incorrectly routing the battery cable could damage the tractor and cables, causing sparks. Sparks can cause the battery gases to explode, resulting in personal injury.

Always disconnect the negative (black) battery cable before disconnecting the positive (red) cable.
Always connect the positive (red) battery cable before connecting the negative (black) cable.

If the terminals have corrosion, disconnect the cables (the negative (–) cable first) and scrape the clamps and terminals separately. Connect the cables (positive (+) cable first) and coat the terminals with petroleum jelly.

Servicing the Fuses

The fuses in machines electrical system are located under console cover.

If the machine stops or has other electrical system issues, check the fuses. Grasp each fuse in turn and remove them 1 at a time, checking if any are blown.

Important: If you need to replace a fuse, always use the same type and amperage-rated fuse as the one you are replacing, otherwise you could damage the electrical system. Refer to the decal next to the fuses for a diagram of each fuse and its amperage.

Note: If a fuse blows frequently, you probably have a short in the electrical system and should have it serviced by a qualified service technician.

Drive System Maintenance

Checking the Tire Pressure

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Check the tire pressure.

Danger

Low tire pressure decreases machine side-hill stability. This could cause a rollover, which may result in personal injury or death.

Do not underinflate the tires.

The correct air pressure in the tires is 97 to 124 kPa (14 to 18 psi) as shown in Figure 52.

Important: Maintain pressure in all tires to ensure a good quality of cut and proper machine performance.Check the air pressure in all the tires before operating the machine.

Figure 52

Checking the Torque of the Wheel-Lug Nuts

Maintenance Service Interval	Maintenance Procedure
After the first hour	Torque the wheel-lug nuts.
After the first 10 hours	Torque the wheel-lug nuts.
Every 200 hours	Torque the wheel-lug nuts.

Torque the wheel-lug nuts to 61 to 88 N∙m (45 to 65 ft-lb).

Warning

Failing to maintain proper torque of the wheel-lug nuts could result in personal injury.

Torque the wheel-lug nuts to the proper torque value.

Adjusting the Traction Drive for Neutral

If the machine moves when the traction pedal is in the NEUTRAL position, adjust the traction cam.

Park the machine on a level surface, lower the cutting units, engage the parking brake, shut off the engine, and remove the key from the ignition switch.
Chock or block the front and rear wheels on one side.
Raise the opposite front and rear wheel off the floor and place support blocks under the frame.

Warning

If the machine is not supported adequately, it may accidentally fall, injuring anyone under the machine.

A front wheel and a rear wheel must be raised off the ground; otherwise, the machine will move during adjustment.
Loosen the locknut on the traction adjustment cam (Figure 53).
Figure 53
1. Traction adjustment cam
2. Locknut
Warning

The engine must be running so that you can make a final adjustment of the traction adjustment cam. Contact with hot or moving parts can result in personal injury.

Keep your hands, feet, face, and other body parts away from the muffler, other hot parts of the engine, and rotating parts.
Start the engine and rotate the cam hex in both directions to determine the mid position of the neutral span.
Tighten the locknut securing the adjustment.
Shut off the engine.
Remove the support blocks and lower the machine to the shop floor. Test drive the machine to ensure that it does not move when the traction pedal is in neutral.

Cooling System Maintenance

Cooling System Safety

Swallowing engine coolant can cause poisoning; keep out of reach from children and pets.
Discharge of hot, pressurized coolant or touching a hot radiator and surrounding parts can cause severe burns.
- Always allow the engine to cool at least 15 minutes before removing the radiator cap.
- Use a rag when opening the radiator cap, and open the cap slowly to allow steam to escape.
Do not operate the machine without the covers in place.
Keep your fingers, hands and clothing clear of rotating fan and drive belt.
Shut off the engine and remove the key before performing maintenance.

Checking the Cooling System

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Check the engine-coolant level.

Clean any debris off of the radiator (Figure 54).

Figure 54

Radiator

Clean the radiator hourly if conditions are extremely dusty and dirty; refer to Cleaning the Cooling System.

The cooling system is filled with a 50/50 solution of water and permanent ethylene glycol anti-freeze. Check the coolant level at the beginning of each day before starting the engine.

The capacity of the cooling system is approximately 5.7 L (6 US qt).

Caution

If the engine has been running, the pressurized, hot coolant can escape and cause burns.

Do not open the radiator cap when the engine is running.
Use a rag when opening the radiator cap, and open the cap slowly to allow steam to escape.

Check the coolant level in the expansion tank (Figure 55).

Note: With a cold engine, the coolant level should be approximately midway between the marks on the side of the tank.
Figure 55
1. Expansion tank
If the coolant level is low, remove the expansion-tank cap and replenish the system.

Note: Do not overfill.
Install the expansion-tank cap.

Cleaning the Cooling System

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Clean debris off the radiator and oil cooler (clean them more frequently in dirty conditions).

Raise the hood.
Clean the engine area thoroughly of all debris.
With compressed air, start from the front of the radiator and blow the debris out toward the back.
Clean the radiator from the back side and blow toward the front.

Note: Repeat the procedure several times until you remove all chaff and debris.

Important: Cleaning the radiator with water promotes premature corrosion damage to components and compacts debris.
Figure 56
1. Radiator
Close and latch the hood.

Brake Maintenance

Adjusting the Parking Brake

Maintenance Service Interval	Maintenance Procedure
Every 200 hours	Check the parking-brake adjustment.

Loosen the set screw securing the knob to the parking-brake lever (Figure 57).
Figure 57
1. Knob
2. Set screw
3. Parking-brake lever
Torque the knob to 41 to 68 N∙m (30 to 40 in-lb) to actuate the lever.
Tighten the set screw.

Belt Maintenance

Servicing the Engine Belts

Maintenance Service Interval	Maintenance Procedure
After the first 10 hours	Check the condition and tension of all belts.
Every 100 hours	Check the condition and tension of all belts.

Checking the Alternator-Belt Tension

Open the hood.
Apply 30 N (22 in-lb) of force to the alternator belt, midway between the pulleys (Figure 58).
Figure 58
1. Alternator belt
If the belt does not deflect 11 mm (7/16 inch), complete the following procedure to tension the belt:
1. Loosen the bolt securing the brace to the engine and the bolt securing the alternator to the brace.
2. Insert a pry bar between the alternator and engine, and pry out at the alternator.
3. When you obtain the proper tension, tighten the alternator and brace bolts to secure the adjustment.

Replacing the Hydrostat-Drive Belt

Insert a nut driver or small piece of tubing onto the end of the belt-tensioning spring.

Caution

The spring that tensions the belt is under a heavy load, and releasing the tension of the spring improperly may cause injury.

Use care when de-tensioning the spring and replacing the belt.
Push down and forward on the spring end to unhook it from the bracket and release tension on the spring (Figure 59).
Figure 59
1. Spring end
2. Hydrostat-drive belt
Replace the belt.
Reverse this procedure to tension the spring.

Controls System Maintenance

Adjusting the Throttle

Position the throttle lever rearward so that it stops against the control-panel slot.
Loosen the throttle-cable connector on the injection-pump-lever arm (Figure 60).
Figure 60
1. Injection-pump-lever arm
Hold the injection-pump-lever arm against the low-idle stop and tighten the cable connector.
Loosen the screws securing the throttle control to the control panel.
Push the throttle-control lever completely forward.
Slide the stop plate until it contacts the throttle lever and tighten the screws securing the throttle control to the control panel.
If the throttle does not stay in position during operation, torque the locknut, used to set the friction device on the throttle lever, to 5 to 6 N∙m (40 to 55 in-lb).

Note: The maximum force required to operate the throttle lever should be 27 N∙m (20 in-lb).

Hydraulic System Maintenance

The reservoir is filled at the factory with approximately 13.2 L (3.5 US gallons) of high-quality hydraulic fluid. Check the level of the hydraulic fluid before the engine is first started and daily thereafter. The recommended replacement fluid is Toro Premium All-Season Hydraulic Fluid (Available in 19 L (5 US gallons) pails or 55-gallon drums. See the parts catalog or Toro distributor for part numbers.)

Alternate fluids: If the Toro fluid is not available, you may use other fluids provided they meet all the following material properties and industry specifications. Do not use synthetic fluid. Consult with your lubricant distributor to identify a satisfactory product.

Note: Toro will not assume responsibility for damage caused by improper substitutions, so use only products from reputable manufacturers who will stand behind their recommendation.

High Viscosity Index/Low Pour Point Anti-wear Hydraulic Fluid, ISO VG 46
	Material Properties:
		Viscosity, ASTM D445	cSt @ 40° C 44 to 48cSt @ 100° C 7.9 to 8.5
		Viscosity Index ASTM D2270	140 to 160
		Pour Point, ASTM D97	-34° F to -49° F
	Industry Specifications:
		Vickers I-286-S (Quality Level), Vickers M-2950-S (Quality Level), Denison HF-0

Important: The ISO VG 46 Multigrade fluid has been found to offer optimal performance in a wide range of temperature conditions. For operation in consistently high ambient temperatures, 65° F (18° C) to 120° F (49° C), ISO VG 68 hydraulic fluid may offer improved performance.

Premium Biodegradable Hydraulic Fluid-Mobil EAL EnviroSyn 46H

Important: Mobil EAL EnviroSyn 46H is the only synthetic biodegradable fluid approved by Toro. This fluid is compatible with the elastomers used in Toro hydraulic systems and is suitable for a wide-range of temperature conditions. This fluid is compatible with conventional mineral oils, but for maximum biodegradability and performance the hydraulic system should be thoroughly flushed of conventional fluid. The fluid is available in 19 L (5 US gallons) containers or 55-gallon drums from your Mobil Distributor.

Important: Many hydraulic fluids are almost colorless, making it difficult to spot leaks. A red dye additive for the hydraulic system oil is available in 20 ml (0.67 fl oz) bottles. One bottle is sufficient for 15 to 22 L (4 to 6 US gallons) of hydraulic fluid. Order Part No. 44-2500 from your authorized Toro distributor.

Hydraulic System Safety

Seek immediate medical attention if fluid is injected into skin. Injected fluid must be surgically removed within a few hours by a doctor.
Ensure that all hydraulic-fluid hoses and lines are in good condition and all hydraulic connections and fittings are tight before applying pressure to the hydraulic system.
Keep your body and hands away from pinhole leaks or nozzles that eject high-pressure hydraulic fluid.
Use cardboard or paper to find hydraulic leaks.
Safely relieve all pressure in the hydraulic system before performing any work on the hydraulic system.

Checking the Hydraulic System

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Check the hydraulic-fluid level.

Perform the pre-maintenance procedure; refer to Preparing the Machine for Maintenance.
Clean the area around the filler neck and hydraulic-tank cap (Figure 61).
Figure 61
1. Hydraulic-tank cap
Remove the hydraulic-tank cap (Figure 61).
Remove the dipstick from the filler neck and wipe it with a clean rag.
Insert the dipstick into the filler neck, then remove it and check the fluid level.

Note: The fluid level should be within 6 mm (1/4 inch) of the mark on the dipstick.
If the level is low, add the appropriate fluid to raise the level to the FULL mark.
Install the dipstick and cap onto the filler neck.

Changing the Hydraulic Filter

Maintenance Service Interval	Maintenance Procedure
After the first 10 hours	Change the hydraulic filter.
Every 200 hours	Change the hydraulic filter.

Use a genuine Toro replacement filter (Part No. 86-3010).

Important: Using any other filter may void the warranty on some components.

Perform the pre-maintenance procedure; refer to Preparing the Machine for Maintenance.
Pinch off the hose to the filter-mounting plate.
Clean around the filter-mounting area, place a drain pan under the filter, and remove the filter (Figure 62).
Figure 62
1. Hydraulic filter
Lubricate the new filter gasket and fill the filter with hydraulic fluid.
Ensure that the filter mounting area is clean and screw the filter on until the gasket contacts the mounting plate; then tighten the filter 1/2 turn.
Release the hose to the filter-mounting plate.
Start the engine and let it run for approximately 2 minutes to purge air from the system.
Shut off the engine and check for leaks.

Changing the Hydraulic Fluid

Maintenance Service Interval	Maintenance Procedure
Every 400 hours	Change the hydraulic fluid.

If the fluid becomes contaminated, contact your local Toro distributor to flush the system. Contaminated fluid looks milky or black.

Turn the engine off and raise the hood.
Disconnect the hydraulic line or remove the hydraulic filter and let the hydraulic fluid flow into a drain pan (Figure 62 and Figure 63).
Figure 63
1. Hydraulic line
Install the hydraulic line when the hydraulic fluid stops draining (Figure 63).
Fill the reservoir (Figure 64) with approximately 13.2 L (3.5 US gallons) of hydraulic fluid; refer to Checking the Hydraulic System.

Important: Use only the hydraulic fluids specified. Other fluids could damage the system.
Figure 64
1. Hydraulic-tank cap
Install the reservoir cap.
Start the engine.
Use all the hydraulic controls to distribute the hydraulic fluid throughout the system, check for leaks, then shut off the engine.
Check the fluid level and add enough to raise the level to the FULL mark on the dipstick.

Note: Do not overfill.

Checking the Hydraulic Lines and Hoses

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Check the hydraulic lines and hoses.

Check the hydraulic lines and hoses for leaks, kinked lines, loose mounting supports, wear, loose fittings, weather deterioration, and chemical deterioration. Make all necessary repairs before operating the machine.

Cutting Unit Maintenance

Separating the Mower Decks from the Traction Unit

Perform the pre-maintenance procedure; refer to Preparing the Machine for Maintenance.
Remove the hydraulic-motor-mounting screws and disconnect and remove the hydraulic motor from the deck (Figure 65).

Important: Cover the top of the spindle to prevent contamination.
Figure 65
1. Motor-mounting screws
Remove the lynch pin or retaining nut securing the deck carrier frame to the lift-arm-pivot pin (Figure 66).
Figure 66
1. Lynch pin
2. Lift-arm-pivot pin
Roll the cutting deck away from the traction unit.

Mounting the Mower Decks to the Traction Unit

Perform the pre-maintenance procedure; refer to Preparing the Machine for Maintenance.
Move the cutting deck into position in front of the traction unit.
Slide the deck-carrier frame onto the lift-arm-pivot pin and secure it with the lynch pin or retaining nut (Figure 66).
Using the hydraulic-motor-mounting screws, install the hydraulic motor to the deck (Figure 65).

Note: Ensure that the O-ring is properly positioned and not damaged.
Grease the spindle.

Servicing the Blade Plane

The rotary deck comes from the factory preset at 5 cm (2 inches) height-of-cut and blade rake of 7.9 mm (0.31 inch). The left and right heights of cut are also preset to within ± 0.7 mm (0.03 inch) of the other.

The cutting deck is designed to withstand blade impacts without deforming the chamber. If the blade strikes a solid object, inspect the blade for damage and the blade plane for accuracy.

Inspecting the Blade Plane

Remove the hydraulic motor from the cutting deck and remove the cutting deck from the tractor.

Note: Use a hoist (or a minimum of 2 people) and place the cutting deck on a flat table.
Mark an end of the blade with a paint pen or marker.

Note: Use this end of the blade to check all heights.
Position the cutting edge of the marked end of the blade at the 12 o’clock position (straight ahead in the direction of mowing) and measure the height from the table to the cutting edge of the blade (Figure 67).

Figure 67
Rotate the marked end of the blade to the 3 o’clock and 9 o’clock positions and measure the heights (Figure 67).
Compare the 12 o’clock position measured height to the height-of-cut setting.

Note: It should be within 0.7 mm (0.03 inch). The 3 o’clock and 9 o’clock heights should be 3.8 ± 2.2 mm (0.15 ± 0.09 inch) higher than the 12 o’clock setting and within 2.2 mm (0.09 inch) of each other.

If any of these measurements are not within specification, proceed to Adjusting the Blade Plane.

Adjusting the Blade Plane

Start with the front adjustment (change 1 bracket at a time).

Remove the height-of-cut bracket (front, left, or right) from the deck frame (Figure 68).
Figure 68
1. Height-of-cut bracket
2. Shims
Adjust the 1.5 mm (0.06 inch) shims and/or 0.7 mm (0.03 inch) shim between the deck frame and bracket to achieve the desired height of cut (Figure 68).
Install the height-of-cut bracket to the deck frame with the remaining shims assembled below the height-of-cut bracket (Figure 68).
Secure the socket-head bolt and spacer and flange nut.

Note: The socket-head bolt and spacer are held together with Loctite to prevent the spacer from falling inside the deck frame.
Verify the 12 o’clock position setting and adjust if needed.
Determine if you need to adjust only 1 or both (right and left side) height-of-cut brackets.

Note: If the 3 o’clock or 9 o’clock side is 1.6 to 6.0 mm (0.06 to 0.24 inch) higher than the new front height, then you do not need to adjust for that side. Adjust the other side to within ± 2.2 mm (0.09 inch) of the correct side.
Adjust the right and/or left height-of-cut brackets by repeating steps 1 through 3.
Secure the carriage bolts and flange nuts.
Verify the 12, 3, and 9 o’clock heights.

Servicing the Front Roller

Inspect the front roller for wear, excess wobble, or binding. Service or replace the roller or components if any of these conditions exist.

Removing the Front Roller

Remove the roller-mounting bolt (Figure 69).
Figure 69
1. Bearing
2. Mounting bolt
3. Front roller
4. Bearing spacer
Insert a punch through the end of the roller housing and drive the opposite bearing out by alternating taps to the opposite side of inner-bearing race.

Note: There should be a 1.5 mm (0.06 inch) lip of inner race exposed.
Push the second bearing out in the press.
Inspect the roller housing, bearings, and bearing spacer for damage (Figure 69).

Note: Replace damaged components and assemble the front roller.

Installing the Front Roller

Pressing on the outer race only or equally on the inner and outer race, press the first bearing into the roller housing (Figure 69).

Note: Press on the outer race only or equally on the inner and outer race.
Insert the spacer (Figure 69).
Pressing on outer race only or equally on the inner and outer race, press the second bearing into the roller housing until it contacts the spacer (Figure 69).
Install the roller assembly into the deck frame.

Important: Securing the roller assembly with a gap larger than 1.5 mm (0.06 inch) creates a side load on the bearing and can lead to premature bearing failure.
Verify that there is no more than a 1.5 mm (0.06 inch) gap between the roller assembly and the roller-mount brackets of the deck frame.

Note: If there is a gap over 1.5 mm (0.06 inch), install enough 5/8-inch diameter washers to take up the slop.
Torque the mounting bolt to 108 N∙m (80 ft-lb).

Blade Maintenance

Blade Safety

A worn or damaged blade can break, and a piece of the blade could be thrown toward you or bystanders, resulting in serious personal injury or death.

Inspect the blade periodically for wear or damage.
Use care when checking the blades. Wrap the blades or wear gloves, and use caution when servicing the blades. Only replace or sharpen the blades; never straighten or weld them.
On multi-bladed machines, take care as rotating 1 blade can cause other blades to rotate.

Servicing the Blade

Removing the Blade

Replace the blade if it hits a solid object, if it is out of balance, or if it is bent. Always use genuine Toro replacement blades to ensure safety and optimum performance. Never use replacement blades made by other manufacturers, because they could be dangerous.

Perform the pre-maintenance procedure; refer to Maintenance Safety.
Block the cutting deck to prevent it from falling accidentally.
Grasp the end of the blade using a rag or thickly padded glove and remove the blade bolt, anti-scalp cup, and blade from the spindle shaft (Figure 70).
Figure 70
1. Blade bolt
2. Anti-scalp cup
Use the anti-scalp cup and blade bolt to install the blade with the sail facing toward the cutting deck (Figure 70).
Torque the blade bolt to 115 to 149 N∙m (85 to 110 ft-lb).

Inspecting and Sharpening the Blade

Note: Check the blade before using the machine. Sand and abrasive material can wear away the metal that connects the flat and curved parts of the blade. If you notice wear, replace the blade; refer to Removing the Blade.

Perform the pre-maintenance procedure; refer to Maintenance Safety.
Block the cutting deck to prevent it from falling accidentally.
Examine the cutting ends of the blade carefully, especially where the flat and curved parts of the blade meet (Figure 71).
Figure 71
1. Cutting edge
2. Sail
3. Damaged area (wear, slot, or crack)
Inspect the cutting edges of all the blades. Sharpen the cutting edges if they are dull or nicked, sharpen only the top of the cutting edge, and maintain the original cutting angle to ensure sharpness (Figure 72).

Note: The blade remains balanced if the same amount of metal is removed from both cutting edges.
Figure 72
1. Sharpen the blade at this angle only.
Lay the blade on a level surface and check its ends to ensure that the blade is straight and parallel.

Note: The blade ends must be slightly lower than the center, and the cutting edge must be lower than the heel of the blade. These characteristics produce a good quality of cut and require less power from the engine.

Note: If the blade ends are higher than the center, or if the blade cutting edges are higher than the heel, replace the blade. These characteristics indicate that the blade is bent or warped.
Use the anti-scalp cup and blade bolt to install the blade with the sail facing toward the cutting deck.
Tighten the blade bolt to 115 to 149 N∙m (85 to 110 ft-lb).

Checking the Blade Stopping Time

Maintenance Service Interval	Maintenance Procedure
Before each use or daily	Check the blade stopping time.

The cutting-deck blades should stop within 7 seconds after you shut off the cutting units.

Note: Ensure that the decks are lowered onto a clean section of turf or hard surface to avoid thrown dust and debris.

To verify the stopping time, have an assistant stand at least 6 m (20 ft) away from the cutting unit and watch the blades on 1 of the cutting units. Shut off the cutting units and record the time that it takes for the blades to come to a complete stop. If the time is longer than 7 seconds, the braking valve needs adjustment; contact your authorized Toro distributor for assistance in making this adjustment.

Storage

Follow these procedures whenever you store the machine for more than 30 days.

Storing the Battery

If you are storing the machine for more than 30 days, remove the battery and charge it fully. Store the battery in a cool atmosphere to avoid quick deterioration of the charge in the battery. To prevent the battery from freezing, make sure that it is fully charged. The specific gravity of a fully charged battery is 1.265 to 1.299.

Preparing the Traction Unit

Thoroughly clean the traction unit, the cutting units, and the engine.
Check the tire pressure; refer to Checking the Tire Pressure.
Check all fasteners for looseness; tighten as necessary.
Grease or oil all grease fittings and pivot points; refer to Greasing the Bearings and Bushings.

Note: Wipe up any excess lubricant.
Lightly sand and use touch-up paint on painted areas that are scratched, chipped, or rusted.

Note: Repair any dents in the metal body.
Service the battery and cables as follows:
1. Remove the battery terminals from the battery posts.
2. Remove the battery.
3. Slowly recharge the battery before storage and every 60 days thereafter for 24 hours to prevent lead sulfation of the battery.
  
  To prevent the battery from freezing, make sure it is fully charged. The specific gravity of a fully charged battery is 1.265 to 1.299.
4. Clean the battery, terminals, and posts with a wire brush and baking-soda solution.
5. Coat the cable terminals and battery posts with Grafo 112X skin-over grease (Toro Part No. 505-47) or petroleum jelly to prevent corrosion.
6. Store the battery on the shelf or on the machine in a cool area. Leave the cables disconnected if you store it on the machine.

Preparing the Engine

Drain the engine oil from the oil pan and install the drain plug.
Remove and install a new oil filter.
Fill the engine with approximately 3.8 L (4 US qt) of SAE 15W-40 motor oil.
Start the engine and run it at idle speed for approximately 2 minutes.
Shut off the engine.
Thoroughly drain all fuel from the fuel tank, fuel lines, fuel filter, and water separator assembly.
Flush the fuel tank with fresh, clean diesel fuel.
Secure all the fuel-system fittings.
Thoroughly clean and service the air-cleaner assembly.
Seal the air-cleaner inlet and the exhaust outlet with weatherproof tape.
Check the anti-freeze protection and add as needed for expected minimum temperature in your area.

Preparing the Cutting Deck

If the cutting deck is separated from the traction unit for any length of time, install a spindle plug in the top of the spindle to protect the spindle from dust and water.

Groundsmaster® 3505-D Rotary Mower

Model No. 30849-Serial No. 403207001 and Up

Introduction

Warning

Safety

General Safety

Safety and Instructional Decals

Setup

Activating, Charging, and Connecting the Battery

Danger

Warning

Warning

Installing the CE Decal

Installing the Hood Latch

Installing the Exhaust Guard

Adjusting the Lift Arms

Adjusting the Carrier Frame

Adjusting the Front Cutting Decks

Adjusting the Rear Cutting Deck

Adjusting the Height of Cut

Adjusting the Roller Scraper

Installing the Mulching Baffle

Danger

Product Overview

Traction Pedals

Tilt-Steering Lever

Parking Brake

Ignition Switch

Seat-Adjustment Lever

Fuel Gauge

Hour Meter

Engine-Coolant-Temperature Warning Light

Glow-Plug-Indicator Light

Oil-Pressure Warning Light

Lift-Lock Lever

Mow/Transport Slide

Indicator Slot

Throttle

Cutting-Unit-Drive Switch

Cutting-Unit Shift Lever

Alternator Light

Attachments/Accessories

Operation

Before Operation

Before Operation Safety

General Safety

Fuel Safety

Adding Fuel

Recommended Fuel

Using Biodiesel

Filling the Fuel Tank

Checking the Engine-Oil Level

Checking the Cooling System

Checking the Hydraulic System

Selecting a Blade

Using a Standard Combination Sail

Using an Angled-Sail Blade

Using an Atomic Blade

Using a High-Lift-Parallel Sail Blade

Danger

Choosing Accessories

Optional Equipment Configurations

Checking the Safety-Interlock System

Caution

During Operation

During Operation Safety

General Safety

Rollover Protection System (ROPS) Safety

Machines with a Fixed Roll Bar

Slope Safety

Starting the Engine

Shutting Off the Engine

Standard-Control Module (SCM)

Operating Tips

Operating the Machine

Changing Mowing Patterns

Understanding Counterbalance

Resolving After-Cut Appearance

Using Proper Mowing Techniques

Selecting the Proper Height-of-Cut Setting to Suit Conditions