Ryobi R181FB1, R1801M1 User Manual

OPERATOR'S MANUAL

R1801M1 ROUTER

With R181FB1 Fixed Base
Double Insulated

Your new router has been engineered and manufactured to our Ryobi’s high standard for dependability, ease of
operation, and operator safety. When properly cared for, the router will give you years of rugged, trouble-free
performance.

WARNING:

To reduce the risk of injury, the user must read and understand the operator’s manual before using this product.

Thank you for buying a Ryobi product.

SAVE THIS MANUAL FOR FUTURE REFERENCE

TABLE OF CONTENTS

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■ Introduction .................................................................................................................................................................... 2

■■

■■

■ General Safety Rules.................................................................................................................................................. 3-4

■■

■■

■ Specific Safety Rules ..................................................................................................................................................... 4

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■■

■ Symbols ...................................................................................................................................................................... 5-6

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■■

■ Electrical ........................................................................................................................................................................ 7

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■■

■ Features...................................................................................................................................................................... 8-9

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■■

■ Unpacking ...................................................................................................................................................................... 9

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■■

■ Operation ................................................................................................................................................................ 10-18

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■■

■ Maintenance ................................................................................................................................................................ 19

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■ Accessories ................................................................................................................................................................. 19

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■ Parts, Ordering, and Service ....................................................................................................................................... 20

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INTRODUCTION

Your router has many features for making the use of this product more pleasant and enjoyable. Safety, performance,
and dependability have been given top priority in the design of this tool making it easy to maintain and operate.

2

GENERAL SAFETY RULES

WARNING:

Read and understand all instructions. Failure to

follow all instructions listed below, may result in elec­tric shock, fire and/or serious personal injury.

SAVE THESE INSTRUCTIONS

WORK AREA

■■

■ Keep your work area clean and well lit. Cluttered

■■

benches and dark areas invite accidents.

■■

■ Do not operate power tools in explosive atmo-

■■

spheres, such as in the presence of flammable
liquids, gases, or dust. Power tools create sparks

which may ignite the dust or fumes.

■■

■ Keep bystanders, children, and visitors away while

■■

operating a power tool. Distractions can cause you to
lose control.

ELECTRICAL SAFETY

■■

■ Double insulated tools are equipped with a polar-

■■

ized plug (one blade is wider than the other). This
plug will fit in a polarized outlet only one way. If the
plug does not fit fully in the outlet, reverse the plug.
If it still does not fit, contact a qualified electrician
to install a polarized outlet. Do not change the plug

in any way. Double insulation eliminates the need

for the three-wire grounded power cord and grounded
power supply system.

■■

■ Avoid body contact with grounded surfaces such as

■■

pipes, radiators, ranges, and refrigerators. There is an
increased risk of electric shock if your body is grounded.

■■

■ Don’t expose power tools to rain or wet conditions.

■■

Water entering a power tool will increase the risk of elec­tric shock.

■■

■ Do not abuse the cord. Never use the cord to carry

■■

the tools or pull the plug from an outlet. Keep cord
away from heat, oil, sharp edges, or moving parts.
Replace damaged cords immediately. Damaged cords

increase the risk of electric shock.

■■

■ When operating a power tool outside, use an outdoor

■■

extension cord marked “W-A” or “W”. These cords are
rated for outdoor use and reduce the risk of electric shock.

PERSONAL SAFETY

■■

■ Stay alert, watch what you are doing and use

■■

common sense when operating a power tool. Do
not use tool while tired or under the influence of
drugs, alcohol, or medication. A moment of inatten-

tion while operating power tools may result in serious
personal injury.

■■

■ Dress properly. Do not wear loose clothing or

■■

jewelry. Contain long hair. Keep your hair, clothing,
and gloves away from moving parts. Loose clothes,

jewelry, or long hair can be caught in moving parts.

■■

■ Avoid accidental starting. Be sure switch is off before

■■

plugging in. Carrying tools with your finger on the switch or
plugging in tools that have the switch on, invites accidents.

■■

■ Remove adjusting keys or wrenches before turning

■■

the tool on. A wrench or a key that is left attached to a
rotating part of the tool may result in personal injury.

■■

■ Do not overreach. Keep proper footing and balance

■■

at all times. Proper footing and balance enables better
control of the tool in unexpected situations.

■■

■ Use safety equipment. Always wear eye protection.

■■

Dust mask, non-skid safety shoes, hard hat, or hearing
protection must be used for appropriate conditions.

■■

■ Do not wear loose clothing or jewelry. Contain long

■■

hair. Loose clothes, jewelry, or long hair can be drawn
into air vents.

■■

■ Do not use on a ladder or unstable support. Stable

■■

footing on a solid surface enables better control of the
tool in unexpected situations.

TOOL USE AND CARE

■■

■ Use clamps or other practical way to secure and

■■

support the workpiece to a stable platform. Holding
the work by hand or against your body is unstable and
may lead to loss of control.

■■

■ Do not force tool. Use the correct tool for your

■■

application. The correct tool will do the job better and
safer at the rate for which it is designed.

■■

■ Do not use tool if switch does not turn it on or off.

■■

Any tool that cannot be controlled with the switch is
dangerous and must be repaired.

■■

■ Disconnect the plug from power source before

■■

making any adjustments, changing accessories, or
storing the tool. Such preventive safety measures

reduce the risk of starting the tool accidentally.

■■

■ Store idle tools out of the reach of children and other

■■

untrained persons. Tools are dangerous in the hands of
untrained users.

■ Maintain tools with care. Keep cutting tools sharp
and clean. Properly maintained tools with sharp cutting

edges are less likely to bind and are easier to control.

■ Check for misalignment or binding of moving parts,
breakage of parts, and any other condition that may
affect the tool’s operation. If damaged, have the tool
serviced before using. Many accidents are caused by

poorly maintained tools.

■ Use only accessories that are recommended by the
manufacturer for your model. Accessories that may

be suitable for one tool, may become hazardous when
used on another tool.

■ Keep the tool and its handle dry, clean and free
from oil and grease. Always use a clean cloth when

cleaning. Never use brake fluids, gasoline, petroleum­based products, or any strong solvents to clean your
tool. Following this rule will reduce the risk of loss of
control and deterioration of the enclosure plastic.

3

GENERAL SAFETY RULES

SERVICE

■■

■ Tool service must be performed only by qualified

■■

repair personnel. Service or maintenance performed
by unqualified personnel could result in a risk of injury.

■ When servicing a tool, use only identical replace­ment parts. Follow instructions in the Maintenance
section of this manual. Use of unauthorized parts or

failure to follow Maintenance Instructions may create a
risk of electric shock or injury.

SPECIFIC SAFETY RULES

■■

■ Hold tool by insulated gripping surfaces when performing an operation where the cutting tools may contact

■■

hidden wiring or its own cord. Contact with a “live” wire will make exposed metal parts of the cutting tool “live” and
shock the operator.

■■

■ Make sure your extension cord is in good condi-

ADDITIONAL SAFETY RULES

■■

■ Know your power tool. Read operator’s manual

■■

carefully. Learn its applications and limitations, as
well as the specific potential hazards related to this
tool. Following this rule will reduce the risk of electric

shock, fire, or serious injury.

■■

■ Always wear safety glasses. Everyday eyeglasses

■■

have only impact-resistant lenses; they are NOT
safety glasses. Following this rule will reduce the risk

of serious personal injury.

■■

■ Protect your lungs. Wear a face or dust mask if the

■■

operation is dusty. Following this rule will reduce the
risk of serious personal injury.

■■

■ Protect your hearing. Wear hearing protection

■■

during extended periods of operation. Following this
rule will reduce the risk of serious personal injury.

■■

■ Inspect tool cords periodically and, if damaged,

■■

have repaired at your nearest authorized service
center. Constantly stay aware of cord location.

Following this rule will reduce the risk of electric shock
or fire.

■■

■ Check damaged parts. Before further use of the

■■

tool, a guard or other part that is damaged should
be carefully checked to determine that it will oper­ate properly and perform its intended function.
Check for alignment of moving parts, binding of
moving parts, breakage of parts, mounting, and any
other conditions that may affect its operation. A
guard or other part that is damaged should be
properly repaired or replaced by an authorized
service center. Following this rule will reduce the risk

of shock, fire, or serious injury.

■■

■ Do not abuse cord. Never carry the tool by the cord

■■

or yank it to disconnect it from the receptacle. Keep
cord away from heat, oil, and sharp edges. Follow-

ing this rule will reduce the risk of electric shock or fire.

■■

tion. When using an extension cord, be sure to use
one heavy enough to carry the current your prod­uct will draw. A wire gage size (A.W.G.) of at least
14 is recommended for an extension cord 50 feet
or less in length. A cord exceeding 50 feet is not
recommended. If in doubt, use the next heavier
gage. The smaller the gage number, the heavier the
cord. An undersized cord will cause a drop in line

voltage resulting in loss of power and overheating.

■■

■ Inspect for and remove all nails from lumber before

■■

routing. Following this rule will reduce the risk of
serious personal injury.

■■

■ Drugs, alcohol, medication. Do not operate tool

■■

while under the influence of drugs, alcohol, or any
medication. Following this rule will reduce the risk of

electric shock, fire, or serious personal injury.

■■

■ Save these instructions. Refer to them frequently and

■■

use them to instruct others who may use this tool. If
you loan someone this tool, loan them these instruc­tions also.

WARNING:

Some dust created by power sanding, sawing, grind­ing, drilling, and other construction activities contains
chemicals known to cause cancer, birth defects or
other reproductive harm. Some examples of these
chemicals are:

• lead from lead-based paints,

• crystalline silica from bricks and cement and
other masonry products, and

• arsenic and chromium from chemically-treated
lumber.

Your risk from these exposures varies, depending
on how often you do this type of work. To reduce
your exposure to these chemicals: work in a well ven­tilated area, and work with approved safety equip­ment, such as those dust masks that are specially
designed to filter out microscopic particles.

4

SYMBOLS

Some of the following symbols may be used on this tool. Please study them and learn their meaning. Proper interpreta­tion of these symbols will allow you to operate the tool better and safer.

SYMBOL NAME DESIGNATION/EXPLANATION

V Volts Voltage

A Amperes Current

Hz Hertz Frequency (cycles per second)

W Watt Power

min Minutes Time

Alternating Current Type of current

---

n

o

.../min Per Minute Revolutions, strokes, surface speed, orbits etc., per minute

Direct Current Type or a characteristic of current

No Load Speed Rotational speed, at no load

Class II Construction Double-insulated construction

Wet Conditions Alert Do not expose to rain or use in damp locations.

Read The Operator’s Manual

Eye Protection

Safety Alert Precautions that involve your safety.

No Hands Symbol

To reduce the risk of injury, the user must read and understand
the operator’s manual before using this product.

Always wear safety goggles or safety glasses with side shields
and a full face shield when operating this product.

Failure to keep your hands away from the blade will result in
serious personal injury.

No Hands Symbol

No Hands Symbol

No Hands Symbol

Failure to keep your hands away from the blade will result in
serious personal injury.

Failure to keep your hands away from the blade will result in
serious personal injury.

Failure to keep your hands away from the blade will result in
serious personal injury.

5

SYMBOLS

The following signal words and meanings are intended to explain the levels of risk associated with this
product.

SYMBOL MEANING

DANGER: Indicates an imminently hazardous situation, which, if not avoided, will result

in death or serious injury.

WARNING: Indicates a potentially hazardous situation, which, if not avoided, could result

in death or serious injury.

CAUTION: Indicates a potentially hazardous situation, which, if not avoided, may result

in minor or moderate injury.

(Without Safety Alert Symbol) Indicates a situation that may result in property
damage.

SERVICE

Servicing requires extreme care and knowledge and should
be performed only by a qualified service technician. For
service we suggest you return the product to your nearest
AUTHORIZED SERVICE CENTER for repair. When
servicing, use only identical replacement parts.

WARNING:

Observe all normal safety precautgions related to avoid­ing electrical shock.

WARNING:

To avoid serious personal injury, do not attempt to use
this product until you read thoroughly and understand
completely the operator's manual. Save this operator's
manual and review frequently for continuing safe opera­tion and instructing others who may use this product.

WARNING:

The operation of any tool can result in foreign objects being thrown into your eyes, which can result in
severe eye damage. Before beginning operation, always wear safety goggles or safety glasses with side
shields and a full face shield when needed. We recommend Wide Vision Safety Mask for use over
eyeglasses or standard safety glasses with side shields. Always wear eye protection which is marked to
comply with ANSI Z87.1.

SAVE THESE INSTRUCTIONS

6

ELECTRICAL

DOUBLE INSULATION

Double insulation is a concept in safety in electric power
tools, which eliminates the need for the usual three-wire
grounded power cord. All exposed metal parts are
isolated from the internal metal motor components with
protecting insulation. Double insulated tools do not need
to be grounded.

Important: Servicing of a tool with double insulation
requires extreme care and knowledge of the system and
should be performed only by a qualified service
technician. For service, we suggest you return the tool to
your nearest authorized service center for repair. When
servicing, use only identical Ryobi replacement parts.

WARNING:

The double insulated system is intended to protect the
user from shock resulting from a break in the tool's
internal wiring. Observe all normal safety precautions
related to avoiding electrical shock.

ELECTRICAL CONNECTION

The router has a precision built electric motor. It should
be connected to a power supply that is 120 volts, 60 Hz,
AC only (normal household current). Do not operate this
tool on direct current (DC). A substantial voltage drop will
cause a loss of power and the motor will overheat. If your
tool does not operate when plugged into an outlet,
double-check the power supply.

EXTENSION CORDS

When using a power tool at a considerable distance from
a power source, be sure to use an extension cord that
has the capacity to handle the current the tool will draw.
An undersized cord will cause a drop in line voltage,
resulting in overheating and loss of power. Use the chart
to determine the minimum wire size required in an
extension cord. Only round jacketed cords listed by
Underwriter’s Laboratories (UL) should be used.

When working outdoors with a tool, use an extension cord
that is designed for outside use. This type of cord is
designated with “WA” on the cord’s jacket.

Before using any extension cord, inspect it for loose or
exposed wires and cut or worn insulation.

**Ampere rating (on tool faceplaate)

0-2.0 2.1-3.4 3.5-5.0 5.1-7.0 7.1-12.0 12.1-16.0

Cord Length Wire Size (A.W.G.)

25' 16 16 16 16 14 14

50' 16 16 16 14 14 12

100' 16 16 14 12 10 —

**Used on 12 gauge - 20 amp circuit.

WARNING:

Keep the extension cord clear of the working area. Posi­tion the cord so that it will not get caught on lumber, tools
or other obstructions while you are working with a power
tool. Failure to do so can result in serious personal
injury.

WARNING:

Check extension cords before each use. If damaged
replace immediately. Never use tool with a damaged
cord since touching the damaged area could cause elec­trical shock resulting in serious injury.

7

FEATURES

SPECIFICATIONS

Depth of Cut ....................................................................................................................................0 - 1-1/2 in. (0 - 38 mm)

Collet .............................................................................................................................................................. 1/4 in. (6 mm)

Peak Horsepower ........................................................................................................................................................ 1-1/2

Ampere ................................................................................................................................................................. 8.5 Amps

Input ............................................................................................................................................ 120 Volts, 60 Hz, AC only

No Load Speed ...................................................................................................................................................25,000/min

Power Cord ......................................................................................................................................................... 10 ft. (3 m)

Net Weight .....................................................................................................................................................7 lbs. (3.2 kg.)

Before using this tool, familiarize yourself with all operat­ing features and safety requirements. However, do not let
familiarity with the tool make you careless.

This new router is equipped with the following features.

See Figure 1.

MOTOR

The router kit has a powerful 8.5 amp motor with
sufficient power to handle tough routing jobs. It delivers
1-1/2 peak horsepower for heavy duty performance.

SWITCH

The router has a conveniently located rocker switch.

SPINDLE LOCK

The spindle lock secures the spindle so that you only
need one wrench to loosen the collet nut and change
cutters.

DEPTH ADJUSTING RING

The depth adjusting ring allows you to adjust the depth of
cut.

LOCKING ARM

The locking arm secures the motor housing in the base.

ERGONOMIC DESIGN

The design of this tool provides for easy handling. It is
designed for comfort and ease of grasp when operating
in different positions and at different angles.

ELECTRICAL CONNECTION

Your router has a precision built electric motor. It should
be connected to a power supply that is 120 volts, 60
Hz, AC only (normal household current). Do not

operate this tool on direct current (DC). A substantial
voltage drop will cause a loss of power and overheating.
If your tool does not operate when plugged into an outlet,
double-check the power supply.

DOUBLE INSULATION

Double insulation is a concept in safety in electric power
tools, which eliminates the need for the usual three-wire
grounded power cord. All exposed metal parts are
isolated from the internal metal motor components with
protecting insulation. Double insulated tools do not need
to be grounded.

CHIP SHIELD

A plastic chip shield on the base of the router provides
protection against flying dust and chips.

8

LOCKING

ARM

GOLD

SPINDLE LOCK

BUTTON

FEATURES

SWITCH

DEPTH

ADJUSTMENT

RING

HANDLE

UNPACKING

INSTRUCTIONS

When unpacking the tool:

■ Carefully remove the tool and accessories from the box.

■ Make sure that all items listed in the packing list are in-

cluded.

■ Inspect the tool carefully to make sure no breakage or
damage occurred during shipping.

■ Do not discard the packing material until you have care­fully inspected and satisfactorily operated the tool.

■ If any parts are damaged or missing, please call
1-800-525-2579 for assistance.

PACKING LIST

Router

Router Base

Collet Wrench

Tool Bag

CHIP SHIELD

Fig. 1

WARNING:

If any parts are missing do not operate the tool until the
missing parts are replaced. Failure to do so could result
in possible serious personal injury.

WARNING:

The tool should never be connected to a power supply
when you are assembling parts, making adjustments,
cleaning, performing maintenance, or when the tool is
not in use. Disconnecting the tool will prevent accidental
starting that could cause injury.

9

OPERATION

WARNING:

Exercise caution when using this tool. Careless actions,
for even a fraction of a second, can result in serious
personal injury.

You may use the router for the purposes listed below:

■ Routing Grooves, shaping edges, etc. in wood.

■ Chamfering, rabbeting, dadoing, and dovetailing in wood.

■ Routing edges on plastic laminates.

WARNING:

Always wear safety goggles or safety glasses with side
shields when using your router. Failure to do so could
result in dust, shavings, chips, loose particles, or foreign
objects being thrown in your eyes resulting in possible
serious injury. If the operation is dusty, also wear a face
or dust mask.

TURNING THE ROUTER ON/OFF

See Figure 2.

■

To turn on the router:

■

To turn off the router:

Toggle the switch to the I position.

Toggle the switch to the O position.

ON

OFF

Fig. 2

OPERATING THE ROUTER

See Figure 3.

Follow these steps to operate the router.

1. Unplug the router.

WARNING:

Failure to unplug the tool could result in accidental
starting causing serious injury.

2. Securely tighten the cutter in the collet nut. Refer to
“Removing/Inserting Cutters” later in this manual.

3. Set the desired depth of cut. Refer to “Adjusting Depth
of Cut” later in this manual.

4. Secure the workpiece.

5. Plug the router into a power source.

6. Hold the router firmly with both hands.

7. Turn on the router and let the motor build to its full
speed.

8. Feed the cutter slowly into the workpiece.

NOTE: Do not let the cutter contact the workpiece before
starting the router and allowing it to develop full speed.

Fig. 3

WARNING:

Never place the router down on a work surface before
the cutter stops.

9. Turn off the router upon completion of cut, and let the
motor come to a complete stop before removing the
router from the workpiece.

10

WARNING:

1

2

0

15/32

1/32

Never connect the router to power supply when you are
assembling parts, making adjustments, installing or re­moving cutters, or when not in use. Disconnecting the
router prevents accidental starting that could cause se­rious injury.

REMOVING AND INSTALLING THE ROUTER
BASE

TO REMOVE THE ROUTER BASE

See Figure 4.

1. Unplug the router.

WARNING:

Failure to unplug the tool could result in accidental start­ing causing serious injury.

2. Place the router upside down with the Ryobi label
away from you.

3. Loosen the locking arm on the base.

4. Depress and hold the gold spindle lock button. The
gold spindle lock button will not depress fully unless it
is in line with the hole in the collet.

5. If the gold spindle lock button does not depress fully,
turn the collet nut while depressing the gold spindle
lock button. As they align, the gold spindle lock button
will depress fully.

6. Turn the depth adjusting ring counterclockwise until
the motor is to its highest position. NOTE: As the
motor is rising, the gold spindle lock button has to be
depressed until it clears the rear window.

7. Align the indicator arrow on the depth adjustment ring
with the indicator point on the base.

8. Pull the base until it dislodges from the motor housing.

TO INSTALL THE ROUTER BASE

1. Unplug the router.

2. Place the fixed or D-handle base on a flat surface.

3. Loosen the locking arm.

4. Align the indicator arrow on the depth adjustment ring
with the indicator point on the base.

5. Align the groove in the motor housing with the tab
inside of the base. NOTE: The tab is located on the
inside of the base in line with the handle.

6. Depress and hold the gold spindle lock button on the
motor.

7. Slide the motor housing into the base.

8. Turn the depth adjusting ring counterclockwise until
the gold spindle lock snaps out as it clears the rear
window, just below the locking arm.

9. Tighten the locking arm.

OPERATION

DEPTH

ADJUSTMENT

RING

DEPTH

INDICATOR

11

LOCKING

ARM

GOLD

SPINDLE LOCK

BUTTON

INDICATOR

ARROW

RING

INDICATOR POINT

Fig. 4

OPERATION

REMOVING/INSERTING CUTTERS

See Figure 5.

Follow these steps to remove or insert cutters.

1. Unplug the router.

WARNING:

Failure to unplug the tool could result in accidental start­ing causing serious injury.

CAUTION:

To prevent damage to the spindle or spindle lock, al­ways allow the motor to come to a complete stop before
engaging the spindle lock.

2. Place the router upside down on a workbench in order
to gain easy access to collet nut.

3. Depress the gold spindle lock button.

4. Loosen the collet nut by turning it counterclockwise
with the wrench provided.

TO

LOOSEN

TO

TIGHTEN

WARNING:

If you are changing a cutter immediately after use, be
careful not to touch the cutter or collet with your hands or
fingers. They will get burned because of the heat buildup
from cutting. Always use the wrench provided.

5. Choose one of these options:

■

To remove the cutter:

Remove the cutter from the collet.

■

To insert the cutter:

a) Insert the shank of the cutter until the shank

bottoms out, then pull it out 1/16 in. (1.6 mm) to
allow for expansion when the bit gets hot.

b) Tighten the collet nut securely by turning it

clockwise with the wrench provided.

c) Release the gold spindle lock button.

GOLD

SPINDLE LOCK

BUTTON

Fig. 5

WARNING:

If the collet nut is not securely tightened, the cutter may
detach during use causing serious personal injury.

WARNING:

Do not use cutters with undersized shanks. Undersized
shanks will not tighten properly and could be thrown
from the tool causing injury.

WARNING:

Do not use cutters that are larger in diameter than the
opening in router subbase. Use of such cutters will
come in contact with the router subbase and damage
both the cutter and router. The use of larger cutters
could also cause possible loss of control or create other
hazardous conditions that could result in serious per­sonal injury or death.

12

OPERATION

1

2

0

15/32

1/32

ADJUSTING DEPTH OF CUT

Proper depth of cut depends on several factors: the peak
horsepower of the router motor, the type of cutter, and
the type of wood. A lightweight, low horsepower router is
designed for making shallow cuts. A router with a high
horsepower rating can safely cut deeper. Small cutters,
such as veining bits with 1/16 in. (1.6 mm) cutting
diameters, are designed to remove only small amounts of
wood. Large cutters, such as straight-flute bits, are made
to remove larger amounts of wood. You can make deeper
cuts in soft woods, such as white pine, than in
hardwoods, like oak or maple.

Based on these considerations, choose a depth of cut
that will not place excessive strain on the router motor. If
you find that extra force is needed or that the motor
speed slows down considerably, turn off the router and
reduce the depth of cut. Then, make the cut in two or
more passes.

When routing a groove that is too deep to safely cut in
one pass, it is best to make the cut in several passes. We
recommend that cuts be made at a depth not exceeding
1/8 in. (3.2 mm) and that several passes be made to
reach deeper cuts.

Adjusting the depth of cut for the plunge router is different
from adjusting the depth of cut for the fixed router.

LOCKING

ARM

Fig. 6

DEPTH

ADJUSTMENT

RING

TO ADJUST DEPTH OF CUT FOR FIXED ROUTERS

See Figures 6 and 7.

Follow these steps to adjust depth of cut for fixed routers.

1. Unplug the router.

WARNING:

Failure to unplug the tool could result in accidental start­ing causing serious injury.

2. Place the router on a flat surface.

3. Loosen the locking arm.

4. Turn the depth adjusting ring counterclockwise until
the tip of the cutter touches the flat surface.

5. Turn the depth indicator ring until the zero lines up with
the indicator point on the base.

6. Position the router so that the cutter can extend below
the subbase for desired depth of cut.

7. Turn the depth adjusting ring to obtain the desired
depth of cut.

8. Tighten the locking arm securely.

NOTE: To adjust the depth of cut when the router is
mounted to a router table, turn the depth adjustment
ring until the cutter reaches the desired depth of cut.

INDICATOR

ARROW

DEPTH

INDICATOR

RING

INDICATOR POINT

Fig. 7

13

OPERATION

FEEDING THE ROUTER

The “secret” of professional routing and edge shaping
lies in making a careful set-up for the cut and in selecting
the proper rate of feed.

DIRECTION (EXTERNAL)

See Figure 8.

When routing, the cutter rotates clockwise. Therefore,
you should feed the router into the workpiece from left to
right. When you feed the router from left to right, the
rotation of the cutter pulls the router against the
workpiece. If you feed the router in the opposite direction,
the rotational forces of the spinning bit tend to throw the
router away from the workpiece. This action could cause
you to lose control of the router.

The router motor and bit revolve in a clockwise direction.
This gives the tool a slight tendency to twist in a
counterclockwise direction, especially when the motor
revs up.

Because of the extremely high speed of bit rotation
during a proper feeding operation, there is very little
kickback to contend with under normal conditions.
However, if the bit strikes a knot, hard grain, foreign
object, etc. that affects the normal progress of the cutting
action, there will be a slight kickback. This kickback is
sufficient to spoil the trueness of your cut if you are not
prepared. Such a kickback is always in the direction
opposite to the direction of bit rotation.

To guard against such a kickback, plan your setup and
direction of feed so that you will always be thrusting the
tool—to hold it against whatever you are using to guide
the cut—in the same direction that the leading edge of
the bit is moving. In short, the thrust should be in a
direction that keeps the sharp edges of the bit
continuously biting straight into new (uncut) wood.

DIRECTION (INTERNAL)

See Figure 9.

Whenever you are routing a groove, your travel should be
in a direction that places whatever guide you are using at
the right-hand side. That is, when the guide is positioned
as shown in the first part of the figure, tool travel should
be from left to right and counterclockwise around curves.
When the guide is positioned as shown in the second
part of the figure, tool travel should be right to left and
clockwise around curves. If there is a choice, the first
setup is generally the easiest to use. In either case, the
sideways thrust you use is against the guide.

6

3

4

PROPER CUTTING SEQUENCE

7

1/4 in. to 1 in.

(6.35 mm to 25.4 mm)

GUIDE OUTSIDE

BIT ROTATION

GUIDE INSIDE

BIT ROTATION

8

THRUST

FEED

GUIDE

FEED

5

2

1

Fig. 8

GUIDE

Fig. 9

14

OPERATION

RATE OF FEED

The proper rate of feed depends on several factors: the
hardness and moisture content of the wood, the depth of
cut, and the cutting diameter of the bit. When cutting
shallow grooves in soft woods such as pine, a faster rate
of feed can be used. When making deep cuts in
hardwoods such as oak, a slower rate of feed should be
used.

The best rate of feed is one that does not slow down the
router motor more than one-third of its no-load speed. If
the router is fed too fast, it will take large chips out of the
wood and leave gouge marks. If the router is fed too slow,
it will scorch or burn the wood.

Feeding Too Fast
See Figure 10.

Clean, smooth routing and edge shaping can be done
only when the bit is revolving at a relatively high speed
and is taking very small bites to produce tiny, cleanly
severed chips. If your router is forced to move forward too
fast, the RPM of the bit becomes slower than normal in
relation to its forward movement. As a result, the bit must
take bigger bites as it revolves. “Bigger bites” mean
bigger chips, and a rougher finish. Bigger chips also
require more power, which could result in the router
motor becoming overloaded.

Under extreme force-feeding conditions the relative RPM
of the bit can become so slow—and the bites it has to
take so large — that chips will be partially knocked off
(rather than fully cut off), resulting in splintering and
gouging of the workpiece.

Your router is an extremely high-speed tool (25,000 RPM
no-load speed), and will make clean, smooth cuts if
allowed to run freely without the overload of a forced (too
fast) feed. Three things that cause “force feeding” are bit
size, depth-of-cut, and workpiece characteristics. The
larger the bit or the deeper the cut, the more slowly the
router should be advanced. If the wood is very hard,
knotty, gummy or damp, the operation must be slowed
still more.

You can always detect “force feeding” by the sound of the
motor. Its high-pitched whine will sound lower and
stronger as it loses speed. Also, the strain of holding the
tool will be noticeably increased.

TOO FAST

Fig. 10

TOO SLOW

Fig. 11

Feeding Too Slow
See Figure 11.

It is also possible to spoil a cut by moving the router
forward too slowly. When it is advanced into the work too
slowly, a revolving bit does not dig into new wood fast
enough to take a bite; instead, it simply scrapes away
sawdust-like particles. Scraping produces heat, which can
glaze, burn, or mar the cut and in extreme cases, can
even overheat the bit so as to destroy its hardness.

In addition, it is more difficult to control a router when the
bit is scraping instead of cutting. With practically no load
on the motor the bit will be revolving at close to top RPM,
and will have a much greater than normal tendency to
bounce off the sides of the cut (especially if the wood has
a pronounced grain with hard and soft areas). As a result,
the cut produced may have rippled, instead of straight
sides.

“Too-slow feeding” can also cause your router to take off
in a wrong direction from the intended line of cut. Always

grasp and hold your router firmly with both hands
when routing.

You can detect “too-slow feeding” by the runaway, high­pitched sound of the motor; or by feeling the “wiggle” of
the bit in the cut.

15

OPERATION

DETERMINING DEPTH OF CUT

See Figure 12

As previously mentioned, the depth of cut is important
because it affects the rate of feed that, in turn, affects the
quality of the cut (and, also, the possibility of damage to
your router motor and bit). A deep cut requires a slower
feed than a shallow one, and a too deep cut will cause
you to slow the feed so much that the bit is no longer
cutting, it is scraping, instead.

Making a deep cut is never advisable. The smaller bits —
especially those only 1/16 inch (1.6 mm) in diameter —
are easily broken off when subjected to too much side
thrust. A large enough bit may not be broken, but if the
cut is too deep a rough cut will result — and it may be
very difficult to guide and control the bit as desired. For
these reasons, we recommend that you do not exceed
1/8 in. depth of cut in a single pass, regardless of the
bit size or the softness or condition of the workpiece.

To make deeper cuts it is therefore necessary to make as
many successive passes as required, lowering the bit 1/8
in. for each new pass. In order to save time, do all the
cutting necessary at one depth setting, before lowering
the bit for the next pass. This will also assure a uniform
depth when the final pass is completed.

.

2ND.

PASS

OF CUT

1ST.

PASS

DEPTH

2ND.

PASS

WIDTH

OF CUT

1ST.

PASS

Fig. 12

ROUTING

Your router is a versatile tool and can be used for many
different applications. You may rout grooves, carve
designs using a template, carve designs by freehand,
taper table and chair legs, mortise door jambs, or create
joints.

ROUTING GROOVES

See Figure 13.

When routing across the face of boards, set router at
desired depth of cut, place the edge of router base
against workpiece, and turn on the router. Slowly feed
the cutter into the workpiece along desired line of cut.

WARNING:

If desired depth of cut is greater than can be safely
cut in one pass, make cuts in two or more passes.

When routing straight cuts across stock, clamp a straight
edge to the workpiece to use as a guide. Position the
straightedge parallel to the line of cut and offset the
distance between the cutting edge of the cutter and the
edge of the router base. Hold the router base against the
straightedge and rout the groove.

Fig. 13

16

OPERATION

When routing a groove wider than the diameter of the
cutter, clamp a straightedge on both sides of the cutlines.
Position both guides parallel to the desired line of cut and
spaced equal distances from the desired edges of the
groove. Rout along one guide; then, reverse direction and
rout along the other guide. Clean out any remaining
waste in the center of the groove freehand.

ROUTING BY FREEHAND

See Figure 14.

When used freehand, your router becomes a flexible and
versatile tool. This flexibility makes it possible to easily
rout signs, relief sculptures, etc.

There are two basic techniques for freehand routing:

■■

■ Routing letters, grooves, and patterns into wood.

■■

■■

■ Routing out the background, leaving the letters or

■■

pattern raised above the surface.

When freehand routing, we suggest the following:

■■

■ Draw or layout the pattern on workpiece.

■■

■■

■ Choose the appropriate cutter.

■■

NOTE: A core box or V-groove bit is often used for
routing letters and engraving objects. Straight bits and
ball mills are often used to make relief carvings.
Veining bits are used to carve small, intricate details.

■■

■ Rout the pattern in two or more passes. Make the first

■■

pass at 25% of the desired depth of cut. This will
provide better control as well as being a guide for the
next pass.

NOTE: Do not rout deeper than 1/8 in. per pass.

WARNING:

Do not use large router bits for freehand routing. Use of
large router bits when freehand routing could cause loss
of control or create other hazardous conditions that could
cause possible serious personal injury. When using a
router table, large router bits should be used for edging
only. Do not use router bits that are larger in diameter
than the opening in router subbase for any purpose.

Fig. 14

17

OPERATION

EDGING WITH PILOTS

See Figure 15.

You can cut rabbets and molded edges using piloted
cutters. The pilot, which extends below the cutter, allows
the cutter to turn while the pilot follows the edge of the
workpiece. Some pilots are solid extensions of the cutter.
Others are ball bearing guides that are fastened to the
end of the cutter.

Arbor-type bits with pilots are excellent for quick, easy
edge shaping. They follow workpiece edges that are
either straight or curved. The pilot prevents the bit from
making too deep a cut. Holding the pilot firmly in contact
with the workpiece edge throughout the cut prevents the
cut from becoming too shallow.

Whenever the workpiece thickness together with the
desired depth of cut (as adjusted by router depth setting)
are such that only the top part of the edge is to be
shaped (leaving at least a 1/16 inch [1.6 mm] thick uncut
portion at bottom), the pilot can ride against the uncut
portion, which serves to guide it. However, if the
workpiece is too thin or the bit is set so low that there will
be no uncut edge to ride the pilot against, an extra board
must be placed under the workpiece to act as a guide.
This guide board must have exactly the same contour —
straight or curved — as the workpiece edge. If the guide
is positioned so that its edge is flush with the workpiece
edge, the bit will make a full cut (in as far as the bit
radius). On the other hand, if the guide is positioned as
shown (out from the workpiece edge), the bit will make
less than a full cut — which will alter the shape of the
finished edge.

NOTE: When edge shaping with guides, you can use any
of the piloted bits without a pilot. The size (diameter) of
the pilot determines the maximum cut width that you can
make with the pilot against the workpiece edge. The
small pilot exposes all of the bit; the large one reduces
this amount by 1/16 inch (1.6 mm).

When routing all edges of a panel or board, rout the end
grain first. Any splintering that occurs at the corners will
then be removed when routing the sides. Start each side
1/4 in. (6.35 mm) away from the end. Feed the cutter into
the wood until the pilot contacts the uncut edge. Then,
slowly back the router to shape the corner. Next, move
the router forward to shape the rest of the edge. Be
careful to keep the pilot pressed against the uncut edge.
Repeat this procedure on each side of the panel. Figure
20 shows the proper sequence of cuts to make when
edge routing four sides of a panel.

ROUTER

PILOT

WORK

TOP EDGE SHAPING

ROUTER

WORK

PILOT

GUIDE

WHOLE EDGE SHAPING

Fig. 15

18

MAINTENANCE

WARNING:

When servicing use only identical Ryobi replacement parts. Use of any other parts may create a hazard or cause
product damage.

GENERAL

Avoid using solvents when cleaning plastic parts. Most
plastics are susceptible to damage from various types of
commercial solvents and may be damaged by their use.
Use clean cloths to remove dirt, carbon dust, etc.

WARNING:

Do not at any time let brake fluids, gasoline, petroleum­based products, penetrating oils, etc. come in contact
with plastic parts. They contain chemicals that can dam­age, weaken, or destroy plastic.

Electric tools used on fiberglass material, wallboard,
spackling compounds, or plaster are subject to
accelerated wear and possible premature failure, as the
fiberglass chips and grindings are highly abrasive to
bearings, brushes, commutators, etc. Consequently, we
do not recommended that this tool be used for extended
work on these types of materials. If, however, you do
work with any of these materials, it is extremely important
that you clean the tool frequently by blowing it with an air
jet.

CUTTERS

Get faster and more accurate cutting results by keeping
cutters clean and sharp. Remove all accumulated pitch
and gum from cutters after each use.

When sharpening cutters, sharpen only the inside of the
cutting edge. Never grind the outside diameter. Be sure
when sharpening the end of a cutter to grind the
clearance angle the same as originally ground.

COLLET

Dust and chips may collect on the collet from time to time,
making it necessary to clean the collet. To do so, remove
the collet assembly and wipe it with a clean dry rag.
Clean the taper in the shaft in the same manner. Never
immerse the collet or end of the shaft in a solvent or in
water. Before replacing the collet assembly, put a drop of
SAE30 motor oil on the inside of the nut, on the threads
of the shaft, and on the taper in the shaft. Replace the
collet assembly onto the shaft by hand only. Never
tighten the collet nut without a bit in the collet. This action
could permanently damage the collet.

WARNING:

Always wear safety goggles or safety glasses with side
shields during power tool operation or when blowing
dust. If operation is dusty, also wear a dust mask.

LUBRICATION

All of the bearings in this tool are lubricated with a
sufficient amount of high grade lubricant for the life of the
unit under normal operating conditions. Therefore, no
further lubrication is required.

ACCESSORIES

The following recommended accessories are currently
available.

ACCESSORIES

Template ........................................................... 4070177

Edge Guide ....................................................... 6090080

ADJUSTING LOCKING ARM TENSION

Over time and with repeated use, the locking arm may
become loose. When this occurs, tighten the elastic stop
nut slightly. The elastic stop nut should be loose enough
so there is some play in the locking arm when it is in the
open position. Make sure the motor housing does not
move up or down when clamped.

NOTE: Do not over tighten the elastic stop nut. The
locking arm should clamp tightly to secure the motor
housing.

If the locking arm becomes worn beyond adjustment, a
repair kit is available. Please contact your service center
to order the appropriate router locking arm repair kit.

WARNING:

The use of attachments or accessories not listed could
be hazardous.

19

OPERATOR'S MANUAL

R1801M1 ROUTER

With R181FB1 Fixed Base
Double Insulated

• SERVICE

Now that you have purchased your tool, should a need ever exist for repair parts or service,
simply contact your nearest Ryobi Authorized Service Center. Be sure to provide all pertinent
facts when you call or visit. Please call 1-800-525-2579 for your nearest Ryobi Authorized
Service Center. You can also check our Web site at www.ryobitools.com for a complete list
of Authorized Service Centers.

• MODEL NO. AND SERIAL NO.

The model number of this tool will be found on a plate attached to the motor housing.
Please record the model number and serial number in the space provided below.

• HOW TO ORDER REPAIR PARTS

WHEN ORDERING REPAIR PARTS,
ALWAYS GIVE THE FOLLOWING INFORMATION:

• MODEL NUMBER

• SERIAL NUMBER

R1801M1

983000-446

RYOBI TECHNOLOGIES INC.

1428 Pearman Dairy Road Anderson, SC 29625
Post Office Box 1207 Anderson, SC 29622

www.ryobitools.com

Phone 1-800-525-2579