IRITS 0516 053 Pneumatic Assembly Tools For General Industry.pdf


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P=
S=
C=

QM Series DC Electric Spindles

Clutch Selection Guide

QM 7 S S 190 L 62 S08

Air Screwdrivers & Nutrunners

QE Series DC Electric Nutrunners
Types of Joints
Versatec Electric
QE Screwdrivers
A2

4 A T 013 P



Square (Small Angle)
Hex Detent (Angle)
Square (Angle)
om
op
afe

S06 = 3/8” Square
S08 = 1/2” Square

IC

2

012
016
020

TORQUE

TORQUE

TORQUE

TORQUE

Motor

QA

Positive
Jaw
Clutch

IC Series DC Electric Controllers

QM

FAIR for all sizes where
GOOD for most screws
Series
DC Electric
close torque
IC control
1 isD Spindles
1 where
B close
1 torque
A W
not required.
control is not required.

S

QM 7 S S 190 L 62 S08

A

1=

Tool

B T D A

H

R=

A = Angle N
N = Angle N
S = Angle S

Ser

Series
Stall

3
5
7
9

GOOD where tapping QA
torque greatly exceeds
final torque.

4 A A L S 011 N P

Q

S = Inline
M = Motor
where

N = 1/4” NPT
B = 1/4” BSP

P = Standard
Gearcase
F = Flanged
Gearcase

P 1 S 10 S 1 ( ) ( ) D
B 1 A W S

IC torque
1 isDhigher1
tapping
Lthan
= Lever
final torque.
QA4

1

25 S06

Q2
Series
Air
Screwdrivers
GOOD where
for /allNutrunners
screw sizes.
4VERY
= 1/2
HP
A = Angle
IC
Series
DC
ElectricBEST
Controllers
are not aligned
6sheets
= 3/4 HP
8—
= 1GOOD
HP

5

7

Spindle

Display

R

Series

5
7

QA6
QA8
Network Transfer Mounting Protocol
Power
I/O
R = Remote Start
Angle Angle Angle
Key
Supply Terminals Comms
Drive
Options Memory
Series Handle Rotation Tool 011 Speed
Clutch
Air Inlet
030
040
Series Spindle Display
Network Transfer
Power
Body
Sensor
Maximum
I/O
Motor
Spring Spindle Drive
LocationMounting Protocol
Chip
Activation
015
040
GOOD
sizes (Nm) GOOD
Not recommended
Not recommended
GOOD 055
for
large and
Key
Comms
Supply
Stylefor all screwTorque
Terminals
Tensionfor large and
Q04 = 1/4” Quick
S = Standard
Angle
= Color Graphics
A = No—
Key
IC
in hands of Dexperienced
medium screws
must
unless
stripping torque
stripping torque020 055
medium070
screws
— must
Sunless
= Adjustable
030
070
090
Change
D = PFCS
= 25 mm Head
= Transfer
Key
Shutoff
operators. M = Numeric LED
be adjustedB to
run rather
is considerably higher Q2 Pis= Pistol
considerably
higher 02 = 250
be adjusted
to25turn
= Standard
S =115
Adjustable
090
=D1/4”
Square Chip
S =S04
Standard
= 28 mmAHead
D = Color Graphics04005 = 500
QM3 QM5 QM7 QM9
A = No28
Key
S06 = 3/8” SquareM = Plus
IC SD==Inline
S = Inline
Stall
= Small Grip
Shutoff
slowly
for
small
screws.
than
tapping
torque.
than
tapping
torque.
slowly
for
small
screws.
055
150
S06
=
3/8”
Square
D
=
PFCS
35
=
35
mm
Head
M
=
Numeric
LED
008
035
150
315
B
=
Transfer
Key
S08
=
1/2”
Square
Motor 1 = 115 VAC US
W = Wall Mount
S = Small Anglehead
A = 8 I/O
08 = 850 C =200
Cushion
A = Angle
1M
= 1= Spindle
= 1/2” Square
M =S08
Plus
43 = 43 mmLHead
012 050 190 435
= 3/4”Mount
Square
Z = Offset 2 = 220
CS12
= Cabinet
= Large Anglehead
B = 24 I/O
10 = 1000
Clutch
VAC US
225
S12
=
3/4”
Square
48
=
50
mm
Head
016 055 220 450
S16 = 1” Square
X = High Torque
12A==Inline
1270
= Stall W = Wall Mount
8 I/ODInline
3 = 230 VAC European
1 = 1 Spindle 1 = 115 VAC US Inline
1 = Serial, Ethernet
56 = 60 mm Head
020 090
520
62 = 150 mm Spindle, 50 mm float
15B==1500
C == 1/4”
Cabinet
Mount
24 I/O 040
2 P= =220
VACtoUS
1
Quick
Change
012
025
Push
Start
1
=
Reversible
3
=
PROFIBUS,
Serial,
Ethernet
650
92 = 225 mm Spindle, 50 mm float
Inline
3 S= =230
VAC European
S = Single
3 = 1/4” Bit Finder
01517 = 1750
030 1 = Serial,
055 Ethernet
Trigger
T = Top
4 = DeviceNet, Serial, Ethernet
01K = 1000
22 = 300 mm Spindle, 50 mm float
20
25 mm
Spindle, no float
Transducer
4 ==Serial,
1/4”
Square
02020 = 2000
040 3 = PROFIBUS,
070
L = Lever
Blank = Bottom
5 = Interbus-S, Serial, Ethernet
Ethernet
15C = 1500
28
=
2800
21
50 mm
Spindle, 19 mm float
6 ==Serial,
3/8”
Square
027
055 4 = DeviceNet,
090
T = Trigger/
6 = EtherNet/IP, Modbus-TCP, Serial, Ethernet
Ethernet
18C = 1750
41
=
100
mm
Spindle,
19
mm
float
L
=
Light
9
=
1/4”
Hex
Detent
046
115
Lever
+
Push
5 = Interbus-S, Serial, Ethernet
20C = 2000
61 = 150
mm Spindle,
38 mm
float
H = Heavy
150
6 = EtherNet/IP,
Modbus-TCP,
Serial,
Ethernet
22C = 2200
81
=
200
mm
Spindle,
38
mm
float
S
=
Solid
180
25C = 2500
Series

S06 = 3/8” Square
S08 = 1/2” Square
S12 = 3/4” Square
QM
S16 = 1” Square
2 = 150 mm Spindle, 50 mm float
2 = 225 mm Spindle, 50 mm float
2 = 300 mm Spindle, 50 mm float

R
B
N

S
A
A
G
L
R
Q
S

Model Identification Guide
1 Series Air Screwdrivers / Nutrunners

Fixtured Fastening
1 R AHandles
N ()

QMMH

C 1

B T D A

T = Trigger
Blank = No Trigger

D = Detent
Blank = No Slide

20 & 50 Series Air Screwdrivers
Q2 Series Air
Q
S Screwdrivers
A 02 4 /CNutrunners
26

ers

) D

Q
Options Memory
Chip

P 1 S 10 S 1
Tool

Handle

Power

Clutch

Speed

Handle

Rotation

Lever + Push

9 = 1/4” Hex Detent

41 Series Air Screwdrivers / Nutrunners

41 P A 10 irtools.com
TP Q4

Series

5

Handle Clutch

Speed
Tool
Drive
(rpm) Activation
Series Rotation Tool
Gear Angle Clutch Drive
Network
Kit
Series
Tool
Activation Ratio Head
Comms
Compatibility
Q4 = 1/4” Quick Change
PS = Push to Start
6 = 600
41
A = Adjustable
H4 = 1/4” Hex Detent
TS = Trigger
8 = 800
Shutoff
S4 =Change
1/4” Square
LT = LeverI/O
100C=P
Tools
9 = 950S2= Standard
QC 1
= Push to Start
=Non-shutoff
Cushion
1 = 1/4” Quick
= 3/8” Square
P = Pistol200 =TShutoff
= Lever
Tools
N = LP
PFCS,
Standard
I/O HexS6Detent
10 = 1000
=Clutch
Trigger
+ Push
3+ =Push
1/4”
S = Inline P L= =Positive
Push Square
Lever Jaw 16 = 1600 TP = Trigger
5 =+ 1/4”
A = Angle T A
17 =L1700
= Trigger
= Stall
24 =M
2400
S = Adjustable Shutoff
R = Reversible
25 =N2500
C = Cushion Clutch
Q

QS

A
P 0220 4 1C

26
()

Series

1
5
6
7

R
B
N

2

(Q) D

D

Drive

Options Memory
Air Inlet
Tool
Speed Clutch Drive
Location
Chip
Activation
02 = 0.2 HP
# x 100 rpm Q = 1/4” Quick Change
S = Screwdriver
D = Standard Chip
05 = 0.5 HP
= Small Grip
A = Screwdriver
= Small Anglehead
02 = 250 S = Adjustable
D = Standard Chip
Q2 P = Pistol
= Large Anglehead
A = Small Grip
Shutoff
S = Inline A = Push to Start 051 == 500
Stall
= High Torque
S
=
Small
Anglehead
082 == 850
C
=
Cushion
A = Angle G = Pistol
Positive Jaw (Angle Jaws)
L = Large Anglehead
103 == 1000
Clutch
ick Change
Cushion Clutch
L = Lever
= High Torque
124 == 1270
D = Stall
Finder
T = Top
Adjustable
Shutoff (Push toX Start)
R = Angle
15
=
1500
uare
Blank = Bottom 1 = Reversible
1
=
1/4”
Quick
Change
P
=
Push
to
Start
7
=
Adjustable
Shutoff
(Trigger)
Q QRT
178 == 1750
uare
3 =(Trigger/Lever
1/4” Bit Finder+ Push) T = Top
Trigger
Adjustable Shutoff
SS == Inline
20
=
2000
x Detent
= 1/4” Square
L = Lever
Blank = Bottom
9 = Positive Jaw (90˚4Jaws)
28 = 2800
6 = 3/8” Square
T = Trigger/
Series

1

Q220
Series
Drills
& 50 Air
Series
Air Screwdrivers

() () D
Revision

41 Series Air Screwdrivers / Nutrunners
Series
Screwdrivers / Nutrunners
QC1 Air
ToolAir
Qualifiers

41 P A 10 TP Q4
A -N S ( )- K
C 1
1 R100
QC

Series Rotation Tool
Gear Angle Clutch Drive
Activation Ratio Head
Series Mounting Actuation Switch
Switch
Type Orientation
1
P = Push to Start
2
1 = 1/4” Quick Change
T = Trigger + Push
3 = 1/4” Hex Detent
B = Ball L = Lever
5 =Trigger
1/4” Square
A = Inline with
Fixtured
L
F = FlangeA = Trigger
P = Rotated 90˚ to Trigger
Handle
M
Blank = Direct
Blank
=
Trigger
or
Slide
S = Adjustable Shutoff
R = Reversible
N
Not inClutch
Use
C = Cushion
Q
M = Momentary

Trigger
˚ to Trigger
or Slide
Use

ers

Serie

Drive

QA Series Air Nutrunners

Drive

L = Light
H = Heavy
S = Solid

Spindle

QE Series DC Electric Nutrunners
QM3 QM5 QM7 QM9
S = Inline
008 035 150 315
Screwdrivers

QMMH





le

Spring
Tension

Fixtured Fastening Handles






08

3

Maximum
Torque (Nm)

P A2 S04
013
190 Wood
435
T 050
S12 = 3/4” Square
055 220 Screws
450
S16 = 1” Square
520
5 R A N C 1090
62 = 150 mm Spindle, 50 mm float

TORQUE

er

QM

Sensor

Body
Maximum Mounting Output
Tool
Drive
650
Style Activation Torque (Nm)
92 = 225 mm Spindle, 50 mm float
S = Single
01K = 1000
Options
Series
Tool
Type
Max
Torque
Speed
Voltage
Body
Maximum Mounting Output
Tool
Series
Motor
Drive
22 = 300 mm
Spindle, 50 mm float
Clutch to Fit
A
Transducer
15C = 1500
Activation
(in lbs)
Style
Torque
(Nm)
Activation
Your Job
18CDrive
= 1750
Q04 = 1/4”
Angle
B Quick
QE4
QE6
QE8
4
Series Rotation
Tool
Gear
Clutch
QE
L = Light
20C = 2000
Change
Angle Angle Angle A2 = Size 2 Anglehead
6
Activation Ratio
H = Heavy
22C = 2200
= 1/4” Internal
Q04 = 1/4” Quick
Angle
013N = 115VAC
030
065 In A4 = Size 4 Anglehead H04
QE4
QE6
QE8TURNS
Inline
TURNS
TURNS
E = Electric
TURNS
Plug
8
4 TURNS
QE
S = Solid
25C= =Size
2500
Hex
A5 = Size 5 Anglehead
Change
2 Anglehead
040
070 Controller
Angle Angle Angle A2
01 = 1.3 / 1.8 020B = 24
VDC from
6
S04
=
1/4”
Square
A6
=
Size
6
Anglehead
A
=
Trigger
K
1
=
1/4”
Quick
Change
C
=
Cushion
Clutch
H04 = 1/4” Internal
A4
=
Size
4
Anglehead
027
055
090
5
013
030
065
03
=
3.5
low at start
Turning resistance
Initial resistance high
Starting
torque builds
Low resistance at
8
AResistance
= Angle
L = Lever
A7 = Size 7 Anglehead S06 = 3/8” Square
L = Lever
L
3 = 1/4”
Bit Finder
P040
= Positive
Hex
5 Anglehead
034
080
115
7
020
070Jaw A5 = Size
Inline
04 = 4.8
during10rundown
but
gradually
increases
through
tapping
travel,
until penetration027
made,
start builds
gradually
= Inline
P = Push to StartSand
1S5
(Small
Angle)
S08 = 1/2”
Square
A8 =Square
Size 8as
Anglehead
M D055
= Stall 090
A6 = Size 6 Anglehead S04 = 1/4” Square
150 = 1/4”
= 10.4 # x 100 = rpm
= Inlinesuddenly as bolt
T = Pistol TriggerTpeaks
squeeze
to (Angle)easing
until
sudden AR==Angle
then resistance slacks
through
entire
rundown
2S3
1/4” Hex Detent
S12 =off
3/4”
Square
N
S06 = 3/8” Square
A7
=
Size
7
Anglehead
225 =progresses
034
080
115
15 = 15
Reversible
Inline / Pistol
(Push to Start)
= 1/4” Square (Angle)
A8seats.
= Size 8 Anglehead S08 = 1/2” Square
400
150 head
head
seats.26 = 26
final2S5
turn.
(B) or gradual (A) stop. S = Inline
off until head seats.
until
10 = Pistol Solid
Z =Motor
Offset
T = Inline
B = Brushless
C = Clean Room
S12 = 3/4” Square
225
40 = 40
Inline Inline Inline
11 = Push to Start, Trigger Permit
Inline / Pistol
(Push to Start)
M = Micro M = Motor
SS
= Soft Stop
400
010
020
055
20
=
50
mm
Spindle,
no
float
10 = Pistol Solid
Adjustable
P = Pistol
Z = Offset
Blank = Brushed
Motor
ESD
=
ESD
Safe
EXCELLENT for all screw
for all21screw
sizes
for all screw
EXCELLENT for Inline
all sizeInline Not
recommended.
015
028BEST070
Inline
= 50 mm
Spindle, 19BEST
mm float
11 = Push to Start, Trigger Permit
M = Motor
Precision
Series
Mounting
020
033where
090precise
010 Actuation
055
41 =torque
100 mm Spindle, 19
mm except
float where
sizes where precise torque
sizes
screws
— not
suitable
if020 Switch
20Switch
= 50 mm Spindle, no float
P = Pistol
Shut-Off
T = Trigger
Type Orientation
025
050
150
015
028
070
61
=
150
mm
Spindle,
38
mm
float
21 = 50 mm Spindle, 19 mm float
control
is required.
control is required.
tapping torque
tapping torque exceeds
L
=
Lever
230
020
033
090
81 = 200 mm Spindle, 38 mm float
Clutch
41 = 100 mm Spindle, 19 mm float
exceeds final torque. T = Trigger
stripping torque. 025 050
E = Extended Lever
150
62 = 150 mm Spindle, 50 mm float
61 = 150 mm Spindle, 38 mm float
P = Trigger + Push
B = Ball
= Inline
with Trigger
Fixtured
L = Lever
230
82 = 200 mm Spindle, 50 mm float
81 =A200
mm Spindle,
38 mm float
P = Standard Gearcase
S
=
Push
to
Start
F
=
Flange
= Rotated
90˚ to50
Trigger
Handle
E
=
Extended
Lever
02
=
250
mm
Spindle,
50
mm
float
62 =P150
mm Spindle,
mm float
F = Flanged Gearcase
Adjustable
GOOD
VERY
GOOD
most
VERY
GOOD for all
GOOD
forBlank
most=Pscrews
FAIR for82
all=Blank
screw
sizes.
CVERY
= Remote
Startfor most
Direct
= Trigger
or Slide
P = Trigger
+ Push
22 for
= 300
mm Spindle, 50
mm float
200
mm
Spindle,
50 mm float
R
=
Reaction
Bar
=
Standard
Gearcase
Cushion
Not
in
Use
S
=
Push
to
Start
screw sizes where torque
screw1pc.
sizes where torque
screw sizes where
where final torque
02 = 250 mm Spindle, 50 mm float
B = Bolt on Flange,
F = Flanged Gearcase
M
=
Momentary
Clutch
Start
J = Bolt on Flange,
2pc.
= ReactionDBar
control is IMPORTANT.
control
is IMPORTANT.
tapping torque does notC = Remote
Texceeds
= TriggertappingR torque.
= Detent 22 = 300 mm Spindle, 50 mm float
Air Mounting Output Drive
Tool =1pc.
Motor
Clutch
Bolt on Flange,
= NoRevision
Trigger B =Body
Blank
No Slide Maximum
exceed final torque. Series Blank
Torque (Nm) Inlet
Activation
J =Style
Bolt on
Flange, 2pc.
Series

Select the



S04

Body
Style

Motor

Free Compressing
5 5& 7 Series
Air
MSheet
= Motor
Gaskets
Self-Tapping
)Running-Slam
4 A
7 QE Z Metal
15 10 N ( )
= Offset
9
(Hard Drive)
(Soft Draw)
Screws
Screws

E L (




Series

SeriesTool Handle
Handle

Speed
Power
rpm

ClutchChuck/
Revision Angle
Speed Gearcase
Drive
Bit Holder
Head

Q2
P Pistol
S = Screwdriver
S Inline
A = Screwdriver
A Angle

Memory
Chip

05
02==500
0.2 HP 1 = 1/4” Chuck
# x 100 rpm LQ==Long
1/4” Quick Change
08
Blank = Standard
05==850
0.5 HP 2 = 3/8” Chuck
09 = 900
3 = 3/16” Collet
D = Standard Chip
12 = 1270
with 9/32”-40
Stall
A = Push to Start 151 == 1500
Thread
Positive Jaw
(Angle Jaws)
G = Pistol
172 == 1750
5 = 1/4”-28
Female
Cushion Clutch
L = Lever
203 == 2000
Thread
4 = 45 Degrees
Adjustable
R = Angle
214 == 2100
7 =Shutoff
3/8”-24(Push to Start)
Adjustable Shutoff
Q = QRT
277 == 2700
Male (Trigger) 5 = 90 x 90 Degrees
9 = 90+Degrees
8
=
Adjustable
Shutoff
(Trigger/Lever
Push)
S = Inline
30 = 3000
Thread
Positive Jaw(no
(90˚
Jaws)
359 == 3500
chuck)
38 = 3800
51 = 5100

728 Series Air Pistol Drills

728

J

A1

Tool

D = Drill

G
L
R
A

1

7