Quick Lock Gearbox Catalogue - Select Transmission and Motors

Transcription

SELECT TRANSMISSION & MOTORS AUSTRALIA
THE ULTIMATE
QUARRY
GEARBOX
The Quicklock Bevel Helical Gearbox was especially designed to meet the modern Australian
quarry market needs with its unique features, giving ease of maintenance and reliable service.
Quality metal
labyrinth
breather
External mounted backstop
located on walkway side
for easy access
Oil expansion
tank for vertical
mounting
Input coupling (on
sizes above 100) for
easy motor removal
Bevel helical
gearing for high
efficiency
Keyed taper bush mounting for
easy fitment and removal. Ideal
for short shafts. Available in
metirc and imperial sizes.
Heavy duty torque arm with
multiple mounting
positions
C spanner for
installation and removal
Designed to tackle the shortcomings of current designs such as... No shaft key - Parallel bores - Limited
shaft options - No imperial shafts - Hard to service or no internal backstop... just to mention a few!
The new Quicklock Bevel Helical Gearbox design has stood up to these challenges
and conquered them, creating the Ultimate Quarry Gearbox.
ph 03 9761 7355
info @ stmaustralia.com.auwww.stmaustralia.comfax 03 9761 7222
INDEX
Helical bevelgearboxes and geared motors OMF & QL
21
Mounting position
57
www.stmaustralia.com.au
1
1
M
General information
M4 5
M
3
1.0 GENERAL INFORMATION
1.1 Measurement units
Tab. 1.1
SYMBOL
DEFINITION
Fr 1-2
Radial load
N
MEASUREMENT UNIT
Fa 1-2
Axial load
N
Dimensions
mm
1N=0.1daN @ 0.1kg
FS
Service factor
FS’
Gearbox service factor
kg
Mass
kg
T2M
Output nominal torque
Nm
T2
Gear motor torque
Nm
P
Gear unit power
kW
PtN
Limit thermal capacity
kW
Pc
Correct power
kW
1Nm=0.1daNm@0.1kgm
1kW = 1.36 HP (PS)
P1
Gear motor power
kW
P’
Output power
kW
RD
Dynamic efficiency
RS
Static efficiency
ir
Ratio
n1
Input speed
min-1
1 min-1 = 6.283 rad.
n2
Output speed
Tc
Ambient temperature
IEC
Motor options
°C
1.2 Input speed
n1(rpm)
4
A
O
S
P
PL
PT
2800
2800
2800
2800
2800
2000
1400
1400
1400
1400
1400
1400
900
900
900
900
900
900
500
500
500
500
500
500
Select Transmission & Motors Australia
1.3
Service factor
The service factor FS permits approximate qualification of the type of application, taking into account the type of load (A,B,C),
length of operation h/d (hours/day) and the number of start-up/hour. The coefficient thus calculated must be equal or less than
the motorgear unit service factor FS’ given by the rated torque of gear unit T2M as indicated in the catalogue and the torque M’
required by the application.
The FS values reported in Table 1.3 refer to a drive unit with an electric motor. If a combustion engine is used, a multiplication
factor of 1.3 must be applied for a several-cylinder engine, 1.5 for a single- cylinder engine.
If the electric motor applied is self-braking, consider twice the number of start-up than those actually required.
Tab. 1.2
Load class
h/d
4
8
16
24
A
Uniform load
2
0.85
1.0
1.2
1.4
4
0.9
1.0
1.2
1.4
SERVICE FACTOR
FS
N. START-UP/HOUR
8
16
32
63
0.93
0.93
0.98
1.03
1.1
1.1
1.15
1.2
1.3
1.3
1.35
1.45
1.5
1.5
1.55
1.6
APPLICATIONS
125
1.06
1.24
1.5
1.65
250
1.1
1.3
1.5
1.7
500
1.2
1.3
1.55
1.75
125
250
500
Pure liquid agitators
Fournace feeders
Disc feeders
Air laundry filters
Generators
Centrifugal pumps
Uniform load conveyors
Load class
h/d
B
N. START-UP/HOUR
2
4
8
16
32
63
4
1.11
1.12
1.15
1.19
1.23
1.28
1.32
1.36
1.40
8
1.29
1.31
1.34
1.40
1.45
1.51
1.56
1.60
1.64
16
1.54
1.56
1.59
1.65
1.71
1.78
1.84
1.90
1.96
24
1.73
1.75
1.80
1.90
1.97
2.05
2.10
2.16
2.22
APPLICATIONS
Moderate shock
load
Liquid and solid agitators
Belt conveyors
Medium service winches
Stone and gravel filters
Dewatering screws
Flocculator
Vacuum filters
Bucket elevators
Cranes
Load class
h/d
4
C
N. START-UP/HOUR
2
4
8
16
32
63
125
250
500
1.46
1.46
1.48
1.51
1.57
1.61
1.62
1.64
1.66
8
1.71
1.71
1.73
1.76
1.82
1.86
1.87
1.89
1.89
16
2.04
2.05
2.07
2.10
2.15
2.20
2.21
2.23
2.23
24
2.31
2.31
2.33
2.36
2.42
2.48
2.52
2.54
2.56
APPLICATIONS
Heavy shock load
Heavy duty hoists
Extruders
Crusher rubber calenders
Brick presses
Planing machine
Ball mills
5
1.3 Efficiency
Tab. 1.3
RD (%)
stages
OR
80
100-125-140
132
150-170-190
1
-
-
2
95
-
3
-
93
4
-
-
1.3.1 Backlash
On cylindrical or ipoid gearboxes, output shaft backlash is inside this range: 5’ ¸ 30’.
1.4 Lubrication
Gearboxes lubrication is provided trough a combination of oil immersion and oil-splash patterns, which normally guarantees the
lubrication of all internal components.
For some mounting positions, typically those featuring a vertical shaft, provisions are made to guarantee lubrication of even the
least favourably located drive components.
The gearboxes of smaller size are supplied with SHELL synthetic based oil filled, type OMALA S4 WE, 320 cSt viscosity. This
gearboxes are filled with a “long life” poliglycol based lubricant: this means they are maintenance-free and do not require oil
changes during the operating life.
Available oils are typically grouped into three major classes:
1) Mineral oils
2) Poly-Alpha-Olefin synthetic oils
3) Polyglycol synthetic oils
Oil is normally selected in accordance with environmental and operating conditions. Mineral oil is the appropriate choice for
moderate load, non-continuous duty applications free from temperature extremes.
In severe applications, where gear units are to operate under heavy loads in continuous duty and high temperatures are expected,
synthetic Poly-Alpha-Olefin oils (PAO) are the preferred choice.
6
1.4 Lubrication
Polyglycol oils (PG) should only be used in applications involving high sliding friction, as is the case with worm shafts. These
particular oils should be used with great care, as they are not compatible with other oils, but are totally mixable with water. The oil
mixed with water cannot be told from uncontamined oil, but will degrade very rapidly.
In addition to the oils mentioned above, there are food-grade oils. These are special oils harmless to human health for use in the
food industry. Oils with similar characteristics are available from a number of manufacturers.
This type of oil shall not be mixed with STM SHELL OMALA S4 WE and any other synthetic PG (polyglycol oil).
In case you need to know which oil type can be used please contact our Technical Office.
7
1.4 Lubrication
The Table 1.4 is useful for gearbox lubricant selection.
Mineral oils
Poly-Alpha-Olefin synthetic oils (PAO)
ISO VG
ISO VG
Manufacturer
Amb. temp.
ur
Tc [°C]
AGIP
ARAL
BP
CASTROL
CHEVRON
ESSO
KLÜBER
MOBIL
MOLIKOTE
OPTIMOL
Q8
SHELL
TEXACO
TOTAL
TRIBOL
Polyglycol synthetic oils(PG)
ISO VG
220
320
460
150
220
320
150
220
320
460
-5° ÷ 25°
0° ÷ 35°
10° ÷ 45°
-10° ÷ 25°
-5° ÷35°
0° ÷ 50°
-10° ÷ 25°
-5° ÷ 35°
0° ÷ 50°
10° ÷ 60°
Blasia
220
Degol BG
220 Plus
Energol
GR-XP 220
Alpha SP
220
Blasia
320
Degol BG
320 Plus
Energol
GR-XP 320
AlphaSP
320
Blasia
460
Degol BG
460 Plus
Energol
GR-XP 460
AlphaSP
460
-
Blasia S
220
Degol GS
220
Enersyn
SG-XP 220
Alphasyn
PG 220
Blasia S
320
Degol GS
320
Enersyn
SG-XP 320
Alphasyn
PG 320
Blasia S
460
Degol GS
460
Enersyn
SG-XP 460
Alphasyn
PG 460
Ultra Gear
320
Ultra Gear
460
HiPerSYN
150
HiPerSYN
220
HiPerSYN
320
HiPerSYN
460
Spartan EP
220
Klüberoil
GEM 1-220
Spartan EP
320
Klüberoil
GEM 1-320
Spartan EP
460
Klüberoil
GEM 1-460
Glycolube
150
Klübersynth
GH 6-150
Glycolube
220
Klübersynth
GH 6-220
Glycolube
320
Klübersynth
GH 6-320
Glycolube
460
Klübersynth
GH 6-460
Mobilgear
XMP 220
Mobilgear
XMP 320
Mobilgear
XMP 460
Blasia SX
320
Degol PAS
320
Enersyn
EPX 320
Alphasyn
EP 320
Tegra
Synthetic
Gear 320
Spartan S
EP 320
Klübersynth
EG 4-320
Mobilgear
SHC XMP
320
Blasia S
150
Degol GS
150
Enersyn
SG 150
Alphasyn
PG 150
Ultra Gear
220
Blasia SX
220
Degol PAS
220
Enersyn
EPX 220
Alphasyn
EP 220
Tegra
Synthetic
Gear 220
Spartan S
EP 220
Klübersynth
EG 4-220
Mobilgear
SHC XMP
220
Glygoyle 22
Glygoyle 30
Glygoyle
HE320
Glygoyle
HE460
L-0122
L-0132
L-1115
L-1122
L-1132
-
-
-
-
Optigear BM Optigear BM Optigear BM
220
320
460
Optigear
Synthetic A
150
El Greco
150
Optigear
Synthetic A
220
El Greco
220
Optigear
Synthetic A
320
El Greco
320
Optiflex A
150
Optiflex A
220
Optiflex A
320
Optiflex A
460
Gade 150
Gade 220
Gade 320
Gade 460
Omala HD
150
Omala HD
220
Omala HD
320
OMALA
S4 WE
150
OMALA
S4 WE
220
Synlube
CLP 220
Carter SY
220
800/220
OMALA
S4 WE
320
Synlube
CLP 320
Carter SY
320
800/320
OMALA
S4 WE
460
Synlube
CLP 460
Carter SY
460
800/460
Goya 220
Goya 320
Goya 460
OMALA
S2 G
220
Meropa
220
Carter EP
220
1100/220
OMALA
S2 G
320
Meropa
320
Carter EP
320
1100/320
OMALA
S2 G
460
Meropa
460
Carter EP
460
1100/460
Degol PAS
150
Enersyn
EPX 150
Alphasyn
EP 150
Tegra
Synthetic
Gear 150
Spartan S
EP 150
Klübersynth
EG 4-150
Mobilgear
SHC XMP
150
Pinnacle EP Pinnacle EP Pinnacle EP
150
220
320
Carter SH
Carter SH
Carter SH
150
220
320
1510/150
1510/220
1510/320
Carter SY
150
800/150
Food-grade synthetic lubricants
Rocol
Foodlube
Hi-Torque
150
AGIP
—
Gear Oil FM
220
Klüberoil 4
Klüberoil 4
UH1 N 150 UH1 N 220
DTE FM
DTE FM
150
220
Cassida
Cassida
Fluid GL
Fluid GL
150
220
ESSO
—
KLÜBER
MOBIL
SHELL
Rocol
Foodlube
Hi-Torque
320
—
Klüberoil 4
UH1 N 320
DTE FM
320
Cassida
Fluid GL
320
STM gearboxes supplied with oil filled, can be used in rooms with a temperature from 0 °C and + 50 °C, if not otherwise indicated.
In case of different ambient conditions, please contact our technical department.
If Back stops are fitted we recommend the use of a Non EP Oil
Manufacturer
Shell
Mineral Oil
Synthetic Oil
ISO VG
ISO VG
220
220
Morlina S2 B
Morlina S4 B
Or suitable equivalent
8
1.5
Thermal capacity
In specific applications check that the absorbed gearbox power does not exceed the below described limit thermal capacity .
Gearbox efficiency is given by the relation between output and input power. The missing quota, converted or exchanged in heat,
has to be lost externally in order to avoid excessive temperatures inside the gearbox.
It is advisable to verify that power applied to the gearbox is less than or equal to thermal limit power PtN .
PtN must not be taken into consideration if duty is followed by an interval sufficient to restore the ambient temperature inside the
gearbox.
In Table 1.5 is indicated maximum power PtN to be applied to gearboxes in continuous duty operating in an external ambient at
30°C.
PtN [kW]
OM
all ratios
100
14.5
125
20.0
132
23.0
140
32.0
150
28.0
170
34.0
190
43.0
* Request to our Technical Dept.
Pto values must be corrected through the following factors:
Tab. 1.6
Corrected limit thermal capacity
P tc = PtN x ft x fa x fu x fl
ft
Ambient
temperature factor
fa
Aeration factor
fu
Duty factor
fl
Lubrication factor
1.6 Selection
ta
10°
15°
20°
25°
30°
35°
40°
45°
50°
ft
1.30
1.23
1.15
1.08
1
0.92
0.84
0.76
0.68
1
1.4
Non ventilated gearbox
Gearbox with forced ventilation
Dt
10
20
30
40
50
60
fu
1.7
1.4
1.25
1.15
1.08
1
0.9
1.0
ta: Ambient temperatur
Dt:
Minutes of operation in one hour
Mineral oil
Synthetic oil
In order to make the appropriate selection of the gear motor, input power has to be calculated according to the following formula:
P’ = (kW) =
T’2 x n2
9550 x RD
where T2‘ (Nm) represents the nominal torque requested by the application.
Once P’ and n2 are known, the gear motor must be selected referring the performance tables where P1 ≥ P’. It is also important
to make sure that the service factor FS’ of the gear motor is equal or higher than the one of the application (FS) otherwise a bigger
size of the gear motor has to be selected keeping P1 unchanged. Then the check of radial, axial loads and the thermal capacity
(where applicable) follows.
In order to select the right gearbox, the torque T2‘ required by the user and the output speed n2 for a certain value of n1 (min-1)
must be taken into consideration. Given the above values, select the corresponding gearbox referring to the tables of the gearbox
performance where T2‘ x FS is lower or equal to T2M where FS is the application service factor.
Then check the axial and radial loads and the thermal capacity (where applicable).
Attention: STM products are not safety devices.
9
1.7
Gearboxes performances
In the performance tables the following factors are listed:
ir
Reduction ratio
n 1
Input speed (min-1)
n 2
Output speed (min-1)
T2M
Maximum torque obtainable with
FS = 1 (Nm)
RD% Dynamic efficiency
P
Nominal input power (kW)
IEC
Motor options
Example
Type
Weight
AM 25/2
ir
1.4
n1 = 2800 min-1
n2
min
n1 = 1400 min-1
T2M
P
RD
n2
n1 = 900 min-1
T2M
P
RD
n2
n1 = 500 min-1
T2M
P
RD
n2
T2M
P
RD
Nm
kW
%
min
Nm
kW
%
min
Nm
kW
%
min
Nm
kW
%
3.4
819
12
1.10
95
409
12
0.55
95
263
13
0.38
95
146
16
0.26
95
3.9
716
12.2
0.96
95
358
12.2
0.48
95
230
13
0.33
95
128
16
0.23
95
4.8
579
12.2
0.78
95
289
12.2
0.39
95
186
13
0.27
95
103
16
0.18
95
5.6
498
12.2
0.67
95
249
12.2
0.33
95
160
13
0.23
95
89
16
0.16
95
7.2
389
12.2
0.52
95
194
12.2
0.26
95
125
13
0.18
95
69
16
0.12
95
-1
-1
-1
-1
IEC
56
(B5 - B14)
63
(B5 - B14)
1.8 Performances of gear motors
In tables of gearmotors performances the following factors are listed:
ir
P1 T2 n1 n2 FS’ reduction ratio
power of threephase motor (kW)
output torque (Nm) of motorized
gearbox taking the efficiency RD
into consideration
Input speed (min-1)
output speed (min-1)
service factor of gearmotors
Example gearmotor
n2
min-1
ir
T2
Nm
0.09 kW
FS’
AM
AC
n1= 2740 min-1 n1= 1360 min-1 n1= 860 min-1
Type
56A 2
56B 4
63B 6
806
3.4
1.0
11.8
25/2
56A 2
703
3.9
1.2
10.5
25/2
56A 2
571
4.8
1.4
8.5
25/2
56A 2
10
P1
1.9
Verification
1) Geometry - Dimensions
Ensure that dimensions are compatible with space constraints (for instance, drum diameter) and shaft ends are compatible with
any couplings, discs or pulleys to be used.
2) Input max rpm n1 max
It’s the max acceptable value for each gearbox size look at 1.2.
3) Axial and overhung loads
Please refer to the paragraph about radial and axial load calculation applied to the gearbox in the Product Section
4) Check mounting position
5) Lubrication
Verify if the oil quantity is corresponding to:
- size
- version
6) Gearbox thermal power:
Look at 1.5.
7) Using conditions:
7.1 - ta > 0 °C: look at points 1.4;
7.2 - ta < -10 °C: contact our techical sales dept.
IMPORTANT:
The data you, the customer, have provided us serves as a basis four our evaluation or selection. The correctness and completeness
of this data is assumed for the intended use of the drive.
The customer agrees that the Company shall not be liable to the extent permissable at law for technical advice or assistance given
in good faith for which it is not contractually bound to provide.
1.9
Verification
O
DIN 931 10.9
Tightening torque
Ms [Nm]
DIN 931 12.9
Retaining screws
N° x M
Slip ping torques
TFU [Nm]
100
125
12
12
8 x M6
10xM6
1520
2500
O
Tightening torque
Ms [Nm]
Retaining screws
Slip ping torques
TFU [Nm]
132
140
150
170
190
-
-
DIN 931 10.9
-
DIN 931 12.9
35
35
35
35
35
71
71
N° x M
7x
M8
10x
M8
10x
M8
10x
M8
12x
M8
12x
M10
12x
M10
ø 60
4600
ø 70
8300
8300
ø 70
8300
ø 80
12000
20200
23000
-
-
-
-
11
1.9
Verification
9) Back-stop device torque
O
100
O
132
12
IR
T1a
5.2
7.4
O
IR
T1a
70.0
5.2
131.5
70.0
7.4
131.5
10.0
70.0
10.2
131.5
12.2
70.0
12.2
131.5
14.6
70.0
14.6
131.5
17.0
70.0
17.0
131.5
21.2
48.3
21.2
90.7
24.6
48.3
24.6
90.7
31.0
48.3
31.9
90.7
40.5
29.4
40.5
55.1
51.0
29.4
52.6
55.1
58.0
20.5
58.0
38.4
73.2
20.5
75.4
38.4
IR
T1a
16.0
17.9
125
O
IR
T1a
161.0
15.7
161.0
18.6
20.3
161.0
21.7
O
IR
T1a
375.3
15.5
375.3
17.5
21.6
375.3
161.0
22.9
24.3
161.0
27.5
O
IR
T1a
426.5
15.5
481.8
426.5
17.5
481.8
18.6
426.5
18.6
481.8
375.3
23.7
426.5
23.7
481.8
25.9
375.3
25.2
426.5
25.2
481.8
161.0
30.3
375.3
28.8
426.5
28.8
481.8
31.2
161.0
34.5
375.3
30.9
426.5
30.9
481.8
36.3
161.0
36.9
375.3
35.7
426.5
35.7
481.8
41.7
161.0
42.6
375.3
41.8
426.5
41.8
481.8
44.9
161.0
46.0
375.3
45.6
426.5
45.6
481.8
52.6
161.0
54.3
375.3
49.8
426.5
49.8
481.8
57.3
161.0
59.4
375.3
54.3
426.5
54.3
481.8
65.1
111.1
66.7
258.9
64.0
258.9
64.0
292.5
76.3
111.1
78.7
258.9
68.9
258.9
68.9
292.5
83.0
111.1
86.0
258.9
75.0
258.9
75.0
292.5
90.8
111.1
94.6
258.9
81.7
258.9
81.7
292.5
99.4
111.1
101.7
157.3
89.4
258.9
89.4
292.5
109.4
111.1
109.8
157.3
98.4
258.9
97.9
292.5
125.5
67.5
129.5
157.3
113.9
156.6
113.9
176.9
136.7
67.5
141.6
157.3
124.1
156.6
124.1
176.9
149.5
67.5
155.7
157.3
135.8
156.6
135.8
176.9
164.6
67.5
185.5
157.3
149.4
156.6
147.8
176.9
180.0
67.5
204.2
157.3
162.7
156.6
162.7
176.9
178.1
156.6
178.1
176.9
196.0
156.6
196.0
176.9
150
170
190
1.9
Verification
9) Back-stop device torque
T1a = income limit torque for back-stop device - [Nm].
The following ratio must be met:
T2r = output torque retrogade motion;
RD= gearbox dinamic performance;
ir= reduction ratio
10) Verify of the electric motor weight:
If the input electric motor is bigger than IEC 180 (weight 165 Kg) and the mounting position is 1-2-3, it will be necessary to contact
our technical sales department to check the electric motor weight and the service factor of the installation.
PKG - Electric motor weight
45°
-45°
P
P
P
P
1
P
2
3
4
5
13
1.9 Verification
11) Determine maximum overload
For starting, T2max may be considered as that portion of acceleration (T2acc ) passing through the gear unit output (low speed) shaft:
Starting
Where:
J: machine and gear unit inertial load reflected to motor shaft (kgm2)
J0: inertial load of rotating parts at motor shaft (kgm2)
T1s: starting torque (Nm)
T1max: max drive torque (Nm)
T2max < 2xT2M
12) Braking torque - Brake motor
For braking T2max may be considered as that portion of deceleration torque (T2dec) passing through the gear unit output (low speed)
shaft:
Where:
J: machine and gear unit inertial load reflected to motor shaft (kgm2)
J0: inertial load of rotating parts at motor shaft (kgm2)
T1f: dynamic braking torque (Nm)
Before using the gearbox, it’s necessary to verify the following formula:
T2max < 2xT2M
If the condition is not respected, it will be necessary to adjust the braking torque.
T2M = Output nominal torque
14
1.10
Scope of the supply
1.10.1 Painting and protection
The gear units are externally painted with an epoxy primer and RAL 5010 blue epoxy enamel, unless different contractual
instructions are given.
The protection is suitable to stand normal industrial environments, also outdoors, and allows additional synthetic paint finishes.
For further details about the supply conditions, please refer to the following table
Paint features
The features of the paint used are the following: thermosetting powder-coating based on polyesther resins, modified with epoxy
resins.
On request , we can supply:
1 -Painting cycle specs;
2 -Specifications for thickness, hardness, resistance to corrosion;
3 -Technical data sheet of the Powder coating used.
In case particularly aggressive environment conditions are expected, special paints will be needed.
ATTENTION
If the product must be painted, protect the machined surfaces and oil seals/gaskets in order to prevent any damage.
It is also necessary to protect the identification plate, the oil level plug (if fitted) and the hole in the breather plug (if fitted) against
obstruction.
Outer painting
Series
O
Size
100-125-132-140150-170-190
Inner painting
Same as outer
painting
Paint type and
features
Can be painted
Powder coating
RAL 5010
Yes
After Degreasing
and sanding and/
or application of a
PRIMER
Machined
surfaces
Shafts
When material
is cast iron, they
are protected with
rustproof oil.
Protected with
rustproof oil.
15
1.10 Scope of the supply
1.10.2 Lubrication
Please refer to the paragraph about lubrication for further details on state of supply of gearboxes as far as lubrication is concerned.
CAUTION:
Gearbox state of supply is indicated on a nameplate applied on gearbox.
Ensure that nameplate data and state of supply correspond.
Gearbox with no lubricant
RIDUTTORE PRIVO DI OLIO
G E AR B OX WIT HOUT
LUB R IC ANT
Gearbox with lubricant
STM standard
Gearbox with lubricant
“FOOD-TYPE”
ATTENZIONE
WARNING
LUBRIFICATO A VITA CON
OLIO SINTETICO
PAC K E D F OR LIF E WIT H
S INT E T IC OIL
ATTENZIONE! Prima della messa in
funzione del riduttore è indispensabile
montare il tappo di sfiato allegato
ATTENTION! Before to start working is
necessary to assemble the breather plug
ACHTUNG! Bevor arbeit beginnen wichtig
ist die entlueftlungschraube
montieren
1.10.3 Back-stop device
In the event a back-stop device is provided, an arrow indicates its permitted direction of rotation.
16
1.10
Scope of the supply
1.10.4 Connecting the motor and gearbox with STM/ROTEX joint
If gearbox and driving machine are connected by means of a joint, check whether it is necessary to install a key sized as specified
on STM drawing.
Key and nameplate indicating assembly instructions come with any supply.
Should they be missing, report this problem to our Sales Dept. and follow these instructions for installing the motor to gearbox.
Follow are showed some of the nameplates bearing the installation instructions
“ROTEX” type of joint
Ins tallazione
Ins tallation
Montage
Prescrizioni di installazione del Motore
con Riduttore.
Ins tructions for ins talling motor on
gearbox.
Installation des Motors mit dem Getriebe.
Tab. 1.13 Giunto a disegno Rotex / C oupling made to R otex drawing / Kupplung gemäß Rotex-Zeichnung
1
BY
2
3
AY
1
2
1
3
LY
3
Riduttore
G earbox
Getriebe
dY
EY
IE C
dY
EY
KEY
200
55
110
16 x 10
100
<6
225
60
140
18 x 11
130
<6
250
65
140
18 x 11
130
<6
63
280
75
140
20 x 12
130
BY
AY
<6
LY
63
45
55
N.B. Se il motore non è di fornitura STM è
necessario verificare la quota AY riportata
in tabella:
1) Se la quota misurata è minore o uguale
a quella riportata in tabella; sip uò procedere al montaggio;
2)S e la quota misurata è maggiore a
quella riportata in tabella; è necessario
montare una linguetta di dimensione LY ridotta.
N.B . If the motor is not s upplied by S T M,
check height AY s hown on the table:
1)ift he height meas ured is les s than or
equal to the heights hown on the table,
proceed to as s embly.
2)ift he heightm eas ured is greater than
the height s hown on the table, you have to
as s emble a tab with a s maller s ize LY.
Per ulteriori informazioni contattare il Nostro Ufficio Tecnico.
Contact our TechnicalD ept. for more in formation
Für weitere Informationen wenden Sie sich
bitte an unsere Konstruktionsabteilung.
FA S I DI INS TA L L A ZIONE :
A) Montare ilc omponente 2 sulc omponente 1;
B) Montare il componente 3 sul motore;
C) Montare il componente 1 sul riduttore e
serrare le viti di fissaggio.
S T E P INS TA L L AT ION
A) As s emble part 2 on part 1.
MONTA G E
A)Bauteil 2 an Bauteil 1 montieren;
B) Assemble part 3 on the electric motor;
C) Assemble part 1 on the gearbox and
tighten the fixing screws.
B) Bauteil 3 am Motoren montieren;
C) Bauteil 1 am Getriebe anbauen und
Befestigungsschrauben anziehen.
Beachte: Wenn der Motor nicht von STM
geliefert wird, ist das in der Tabelle angegebene Maß AY zu kontrollieren:
1) Wenn das gemessene Maß kleiner oder
gleich dem Sollmaß ist, kann mit der Montage verfahren werden;
2) Wenn das gemessene Maß größer als
das Sollmaß ist,m uss eine Lamelle mit
verkürztem Maß LY montiert werden.
For additional information please refer to STM maintenance booklet available on our internet site:
www.stmspa.com or www.stmaustralia.com.au
1.11 Standards applied
1.11.1 Specifications of non - “ATEX” products
STM SpA gearboxes are mechanical devices for industrial use and incorporation in more complex machines. Consequently, they
should not be considered neither self-standing machines for a pre-determined application according to 2006/42/EEC nor safety
devices.
17
1.11
Standards applied
1.11.2 Specifications of “ATEX” products
Application field
ATEX set of provisions (94/9/CE) is referred to electric and non-electric products which are used and run in a potentially explosive
environment. The potentially explosive environments are divided into different groups and zones according to the probability of
their formation. STM products are in conformity with following classification:
1- Group : II
2- Type : Gas 2G dust 2D
3-Zone : Gas 1 – Dust 21
Max surface temperature allowed
Temperature class
T1
T2
T3
T4
T5(1)
Max surface temperature (°C)
450
300
200
135
100(1)
ATEX temperature class of STM products
(1)
ATEX temperature class on request
STM products are branded temperature class T4 for IIG (gas environment) and 135°C for IID (dust environment).
In case of T5 temperature class it will be necessary to verify the declassed thermal limit power (refer to internal standard
NORM_0198, available on the web site: www.stmspa.com).
The products of the family IID (dust environment) are defined by the max effective surface temperature.
Max surface temperature is determined in standard installation and environmental conditions ( -20°C and +40°C ) and in absence
of dust on product surface.
Any other condition will modify the heat dissipation and consequently the temperature.
1.11.3
Products available
Products available in ‘’ ATEX ‘’ execution:
- OR, OM;
N.B.
All versions with torque limiter and compact motor are excluded from certification.
18
1.11
Standards applied
1.11.4. HOW IS IT APPLIED
In case of request of offer relating to any product in conformity with the provisions ATEX/94/9/CE, the specifications paper should
be filled in (www.stmspa.com).
Perform the inspections as described above. Certified reducers will be delivered with:
- a second nameplate containing ATEX data;
- a breather valve with internal spring, where a breather is needed;
- if in accordance with classes of temperature T4 and T5, a temperature gauge will be included (132 °C in case of T4 and 99 °C
in case of T5).
- Temperature gauge: single-reading thermometer, it blackens once temperature is reached, pointing out the achievement of that
limit.
T H E R M AX
°C
132
°F
270
T H E R M AX
°C
99
°F
210
1.11.5 EC Directives-CE mark-ISO 9001
Directive 2006/95 EEC Low VoltageSTM
geared motors, right angle drives with motor, motovariators and electric motors meet the specification of the low voltage directive.
2004/108/EEC Electromagnetic Compatibility
STM geared motors, right angle drives with motor, motovariators and electric motors correspond to the specifications of the EMC
directive.
Machinery Directive 2006/42/EC
STM geared motors, right angle drives with motor, motovariators and electric motors are not standalone machines, they are
exclusively for installation into a machine or for assembly on a machine.
CE Mark, Conformity Declarations and Manufacturer’s Declaration.
STM geared motors, right angle drives with motor, motovariators and electric motors carry the CE Mark.
It indicates conformity to the low voltage directive and to electromagnetic compatibility directive.
On request STM supplies both the conformity declarations and the manufacturer’s declaration according to the machine directive.
ISO 9001
STM products have been designed and manufactured according to ISO 9001 quality system standard.
On request a copy of the certification can be issued.
19
1.11
Standards applied
1.11.6 Standards applied
All STM products are designed following these standards:
Calculation of gearboxes and bearings
ISO 6336:
Calculation of load capacity of spur and helical gears
BS 721:
Calculation of load capacity for worm gearing.
ISO 281:
Rolling bearings — Dynamic load ratings and rating life
Materials
EN 10084
Case hardening steels for gears and worms
EN 10083
Quenched and Tempered Steels for shafts
UNI EN 1982
Copper for helical worm-gears
UNI EN 1706
Aluminium alloy
UNI EN 1561
Grey iron casting
UNI EN 1563 2004
Spheroidal cast iron
UNI 3097
Ball and roller bearing steel
Material - Housings - Flanges - Covers
Series
O
20
Housings
Flanges - Covers
Grey Cast Iron
Grey Cast Iron
100 - 125 - 132 - 140 - 150 - 170 - 190
100 - 125 - 132 - 140 - 150 - 170 - 190
1.0 HELICAL BEVELGEARBOXES AND GEARED MOTORS
QL,OMF
Page
Technical characteristics
20
Designation21
Versions24
Lubrication25
Axial and overhung loads
27
Gearboxes performances
29
Gearmotors performances
37
Dimensions47
Accessories53
Keys54
100 - 125 - 140
132 - 150 - 170 - 190
21
1.1
Technical characteristics
The design of this series of gearboxes has been set up on a very rigid monolithic structure enabling the application of heavy loads.
OMF - QL
Gearboxes designation
Version
Size
Type
*1
*2
*3
*4
*5
*6
*7
ir
-
132-150
170-190
OM
F
100-125
132-140
150-170
190
C
125
-
132
F1
140
F2
150
P
N
S
170
190
D
DB
CD
Type
Size
Lenght
Example
80
(B5)
80
(B14)
B
100
IEC
Optional
hollow
shaft
diameter
-
O
-
S
A
s
-
See
performance
tables
FD
FDB
QL
Designation Motors
CT18IGBD1
OMP 71
C 1:37.0
80 B5
T
TA
....
H
56
....
A
....
315
ML
OMP 90 1:
92.3
T 56 A 4 B5
ORP 63
P SC
1:27.4
L
Specification:
● [*1] Mounting position output side:
No indication (standard) = output flange on right side;
S = output flange on left side.
80 - 100 - 125 - 140
22
132 - 150 - 170 - 190
1.2
Designation
● [*2] Output shaft Alternative Versions:
No indication = shaft with keyway;
B = Double integral output shaft
C = hollow shaft with shrink disk
N = Output shaft
D = Splined output shaft
DB =Double splined shaft
CD =Splined hollow shaft
FD = Broached flange
FDB =Double broached flange
QL = Quick Locking
L = Adjustement “Quick Locking “
● [*3] Shaft diameter:
See table .
D
N
D
C
DDB
B
D
CD
FDD
FDB
Size
Shaft with keyway
Hollow shaft with shrink disc Output shaft
Double
output
shaft
Standard
Optional
Splined
output
shaft
Double
Double
Splinedhollow Broached
splined shaft
broachedflange
flange
shaft
Standard
Optional
Standard
Optional
-
...
C
C...
100
∅ 45
∅ 40∅ 50
∅ 45
∅ 45 Standard
DIN 5482
58 x 53
DIN 5482
45 x 41
DIN 5482
58 x 53
125
∅ 55
∅ 50∅ 60
∅ 55
∅ 55 Standard
DIN 5482
70 x 64
DIN 5482
55 x 50
DIN 5482
70 x 64
132
∅ 60
∅ 70
∅ 60
∅ 70
∅ 60 Standard∅ 70
Optional
FIAT 70
DIN 5482
70 x 64
FIAT 70
140
∅ 70
∅ 60
∅ 70
-
∅ 70 Standard
FIAT 70
DIN 5482
70 x 64
FIAT 70
150
∅ 70
∅ 80
∅ 70
∅ 80
∅ 70 Standard∅ 80
Optional
FIAT 80
DIN 5482
80 x 74
FIAT 80
170
∅ 90
-
∅ 90
∅ 90 Standard
FIAT 95
DIN 5482
90 x 84
FIAT 95
∅ 100 Standard
DIN 5480
105 x 80
DIN 5482
100 x 94
DIN 5480
105 x 80
N
.
B
190
∅ 100
-
∅ 100
D
DB
CD
FD
FDB
23
1.2Designation
● [*3] Shaft diameter:
See table .
QL
Size
L
“Quick Locking”
Adjustement “Quick Locking”
D
80
100
125
132
∅ 20 - ∅ 25 - ∅ 30
∅ 25 - ∅ 30 - ∅ 35 - ∅ 38 - ∅ 40 - ∅ 42 - ∅ 45 - ∅ 48
∅ 35 - ∅ 40 - ∅ 45 - ∅ 48 - ∅ 50 - ∅ 55
140
∅ 40 - ∅ 45 - ∅ 50 - ∅ 55 - ∅ 60 - ∅ 65
150
∅ 45 - ∅ 50 - ∅ 55 - ∅ 60 - ∅ 65 - ∅ 70
170
∅ 55 - ∅ 60 - ∅ 65 - ∅ 70 - ∅ 75 - ∅ 80
190
∅ 70 - ∅ 75 - ∅ 80 - ∅ 85 - ∅ 90
Please contact our technical sales dept.
● [*4] Mounting Shaft:
No indication (standard) = on right side;
S = on left side, on the opposite.
Quick Locking
Hollow shaft with shrink disc
Output shaft
QL
132-150-170-190
80-100-125-140
S
-
C
S
-
N
D
S
-
S
-
Splined output shaft
Splined hollow shaft
CD
S
-
Broached flange
FDD
S
-
24
1.2
Designation
● [*5] Rotation sense (only necessary for solution with backstop device):
O = CLOCKWISE (looking at the gearbox from the perspective shown below).
A = ANTICLOCKWISE.
● [*6] Mounting backstop device:
No indication = (standard);
S = on the opposite.
N.B.
solo 100-125-132-140-150-170-190
-
-
125 - 140
S
132 - 150 - 170 - 190
● [*7] Shaft arrangement
No indication=Like a picture (standard);
NB:
Only for sizes 80-100-125-132-140-150-170-190 is available to agree a special arrangement with our sales dept.
100-125-140
132-150-170-190
Further specification:
● [M2, M3, M4, M5, M6] Mounting position with indication of breather level and drain plugs; if not specified, standard position is
M1 (see par. 1.4).
● [T] Torque arm
(see pa. 1.9).
Only to flange casing is possible to mount a torque arm.
● [2, 3, 4] Position of the motor terminal box if different from the standard one (1).
25
1.3 63
Versions
Direction of rotation
132
150
170
190
Direction of rotation
80
100
125
140
Terminal board position
26
1.4 Lubrication
Gearboxes lubrication
OM - OR - OC
General information
The use of synthetic oil is recommended (see details in Table 1.4, page 6).
Tab. shows the quantities of oil required for correct parallel-shaft mounted gearbox performance.
It is necessary to specify the mounting position with these gearboxes.
Size 100,125,132,140,150,170 and 190 are supplied pre-arranged for oil lubrication but without lubricant that can be requested
separately.
It is necessary to specify the mounting position with these gearboxes.
27
1.4 Lubrication
80 - 100 - 125 - 140
M1
M3
M2
M5
M4
M6
Lubricant Quantity
Mounting Positions
OM
OR
M1
M2
M3
M4
M5
M6
100
2.20
2.20
2.50
2.50
2.60
2.60
125
4.00
4.00
4.40
4.40
4.50
4.50
140
9.10
9.10
10.2
10.5
13.3
13.3
Mounting
position
* No.of
plugs
State of supply
Gearboxes suplied ready for oil
lubrication
Necessary
8
132 - 150 - 170 - 190
M1
M3
M2
M5
M4
M6
Lubricant Quantity
Mounting Positions
M2
M3
M4
M5
M6
8
8
14
7.5
11
11
150
11
11
21
12
16.5
16.5
125
17
17
33
17
24.5
24.5
190
23
25
43.8
25
33
33
Breather plug
Level plug
Drain plug
State of supply
8
Gearboxes suplied ready for oil
lubrication
8
Necessary
8
8
1
M1
132
Mounting
position
* No.of
plugs
M
OM
OR
M4 5
M
Z2
Oil quantities listed in the table are approximate; to ensure correct lubrication, please refer to the level mark on the gear unit.
WARNING
A) It is necessary to specify the mounting position when ordering. If the mounting position is not specified in the ordering phase,
the gearbox supplied will have plugs pre-arranged for position M1.
B) A breather plug is supplied only with gearboxes that have more than one oil plug.
C)The supply of gearboxes with different plug pre-arrangements has to be agreed with the manufacturer.
D)The gearboxes that need a specific assembling position have the indication of it on the label of the gearbox.
28
1.5
Axial and overhung load
Should transmission movement determine radial loads on the angular shaft end, it is necessary to make sure that resulting values
do not exceed the ones indicated in the tables.
In Table 3.4 permissible radial load for input shaft are listed (Fr1). Contemporary permissible axial load is given by the following
formula:
Fa1 = 0.2 x Fr1
Tab. 3.4
100 - 125
Fr1 [N]
OR .
n1
[min-1]
2800
1400
900
500
100
112
125
650
800
900
1000
600
800
920
1300
800
1000
1200
1600
132 - 140 - 150 -170 - 170
Fr1 [N]
n1
[min-1]
2800
1400
900
500
OR .
132
140
150
170
190
1100
1500
2200
2800
1500
2000
2500
3000
1800
2600
3200
3800
2800
4400
4800
5500
4300
6400
7000
7500
*Contact our technical dept
In Table 3.5 permissible radial loads for output shaft are listed (Fr2).
Permissible axial load is given by the following formula:
Fa2 = 0.2 x Fr2
29
1.5
Axial and overhung load
Tab. 3.5
100 - 125
Fr2 [N]
n2 [min ]
100
125
400
8000
12500
320
9000
14000
260
10000
16000
200
10000
16000
160
10000
16000
125
10000
16000
90
10000
16000
60
10600
17000
40
11800
19000
25
12500
20000
16
12500
20000
10
12500
20000
5
12500
20000
-1
132 - 140 - 150 -170 - 190
Fr2 [N]
n2 [min-1]
132
140
150
170
190
320
13500
14000
17500
19400
25200
250
15500
16000
19200
21100
27800
200
16500
18000
20500
23300
29500
160
17500
18500
22100
24800
32000
112
19000
20000
23500
27000
35200
63
23000
28000
27500
34200
44600
36
29000
30000
34000
41000
53200
<12.5
32500
35000
43000
57000
65000
The radial loads shown in the tables are applied on the middle of standard shaft extensions (see fig. 2.6). Base of these values
is a service factor 1.
Values for speeds that are not listed can be obtained through interpolation but it must be considered that Fr1 at 500 min-1 and Fr2
at 5 min-1 represent the maximum allowable loads.
For radial loads which are not applied on the middle of the shafts, the following values can be calculated:
at 0.3 from extension:
Frx = 1.25 x Fr1-2
at 0.8 from extension:
Frx = 0.8 x Fr1-2
Tab. 2.6
30
1.6
QL gearboxes performances
QL 100
32.0
n1 = 2800 min-1
ir
n2
min
-1
n1 = 1400 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 900 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 500 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
T2M
P
RD
Nm
kW
%
5,2
544
450
27,0
95
272
500
15,0
95
175
508
9,8
95
97
508
5,4
95
7,4
378
684
28,5
95
189
760
15,8
95
121
771
10,3
95
67
771
5,7
95
10,0
281
882
27,3
95
140
980
15,2
95
90
995
9,9
95
50
995
5,5
95
12,2
230
900
22,8
95
115
1000
12,7
95
74
1015
8,3
95
41
1015
4,6
95
14,6
191
1035
21,8
95
96
1150
12,1
95
61
1167
7,9
95
34
1167
4,4
95
17,0
165
1080
19,7
95
83
1200
10,9
95
53
1218
7,1
95
29
1218
4,0
95
21,2
132
1035
15,1
95
66
1150
8,4
95
42
1167
5,5
95
24
1167
3,0
95
24,6
114
1080
13,6
95
57
1200
7,5
95
37
1218
4,9
95
20
1218
2,7
95
31,0
90
990
9,9
95
45
1100
5,5
95
29
1117
3,6
95
16,1
1117
2,0
95
40,5
69
945
7,2
95
35
1050
4,0
95
22
1066
2,6
95
12,4
1066
1,5
95
51,0
55
1035
6,3
95
27
1150
3,5
95
17,6
1167
2,3
95
9,8
1167
1,3
95
58,0
48
900
4,8
95
24
1000
2,7
95
15,5
1015
1,7
95
8,6
1015
1,0
95
73,2
38
900
3,8
95
19,1
1000
2,1
95
12,3
1015
1,4
95
6,8
1015
0,8
95
PtN [kW]
IEC
132 B5
132 B14
112 B5
100 B5
90 B5
80 B5
all ratios
14.5 @ 30ºC ambient
NOTE. Please pay attention to the frame around the input power value: for this gearboxes it’s important to check the thermal
capacity (Table 1.5, page 7). For details please contact our technical department).
For details please contact our technical department.
NOTE.
Listed weights are for reference only and can vary according to the gearbox version.
31
1.6
QL 125
56.0
n1 = 2800 min-1
n1 = 1400 min-1
n1 = 900 min-1
n1 = 500 min-1
n2
T2M
P
RD
n2
T2M
P
RD
n2
T2M
P
RD
n2
T2M
P
RD
min-1
Nm
kW
%
min-1
Nm
kW
%
min-1
Nm
kW
%
min-1
Nm
kW
%
5,2
544
900
53,9
95
272
1000
30,0
95
175
1015
19,5
95
97
1015
10,9
95
7,4
378
1170
48,7
95
189
1300
27,1
95
121
1320
17,7
95
67
1320
9,8
95
10,2
276
1620
49,2
95
138
1800
27,3
95
89
1827
17,8
95
49
1827
9,9
95
12,2
230
1710
43,4
95
115
1900
24,1
95
74
1929
15,7
95
41
1929
8,7
95
14,6
191
1935
40,8
95
96
2150
22,7
95
61
2182
14,8
95
34
2182
8,2
95
17,0
165
2070
37,7
95
83
2300
20,9
95
53
2335
13,7
95
29
2335
7,6
95
21,2
132
1935
28,2
95
66
2150
15,6
95
42
2182
10,2
95
24
2182
5,7
95
24,6
114
2070
26,0
95
57
2300
14,4
95
37
2335
9,4
95
20
2335
5,2
95
31,9
88
2025
19,6
95
44
2250
10,9
95
28
2284
7,1
95
15,7
2284
3,9
95
40,5
69
1845
14,1
95
35
2050
7,8
95
22
2081
5,1
95
12,4
2081
2,8
95
52,6
53
2070
12,2
95
27
2300
6,8
95
17,1
2335
4,4
95
9,5
2335
2,4
95
58,0
48
1800
9,6
95
24
2000
5,3
95
15,5
2030
3,5
95
8,6
2030
1,9
95
75,4
37
1800
7,4
95
18,6
2000
4,1
95
11,9
2030
2,7
95
6,6
2030
1,5
95
ir
PtN [kW]
IEC
180 B5
160 B5
132 B5
132 B14
112 B5
100 B5
90 B5
80 B5
all ratios
NOTE.
32
1.6
QL 132
70
n1 = 2800 min-1
ir
n1 = 1400 min-1
n1 = 900 min-1
n1 = 500 min-1
n2
T2M
P
RD
n2
T2M
P
RD
n2
T2M
P
RD
n2
T2M
P
RD
min-1
Nm
kW
%
min-1
Nm
kW
%
min-1
Nm
kW
%
min-1
Nm
kW
%
16.0
175.3 1530.0 30.2
93.0
87.7 1700.0 16.8
93.0
56.3 1725.5 10.9
93.0
31.3 1725.5
6.1
93.0
17.9
156.1 1620.0 28.5
93.0
78.0 1800.0 15.8
93.0
50.2 1827.0 10.3
93.0
27.9 1827.0
5.7
93.0
20.3
138.3 1800.0 28.0
93.0
69.1 2000.0 15.6
93.0
44.4 2030.0 10.2
93.0
24.7 2030.0
5.6
93.0
21.7
129.3 1980.0 28.8
93.0
64.7 2200.0 16.0
93.0
41.6 2233.0 10.5
93.0
23.1 2233.0
5.8
93.0
24.3
115.1 2070.0 26.8
93.0
57.6 2300.0 14.9
93.0
37.0 2334.5
9.7
93.0
20.6 2334.5
5.4
93.0
27.5
102.0 2412.0 27.7
93.0
51.0 2680.0 15.4
93.0
32.8 2720.2 10.0
93.0
18.2 2720.2
5.6
93.0
31.2
89.8 2835.0 28.7
93.0
44.9 3150.0 15.9
93.0
28.9 3197.3 10.4
93.0
16.0 3197.3
5.8
93.0
36.3
77.2 3150.0 27.4
93.0
38.6 3500.0 15.2
93.0
24.8 3552.5
9.9
93.0
13.8 3552.5
5.5
93.0
41.7
67.1 3150.0 23.8
93.0
33.5 3500.0 13.2
93.0
21.6 3552.5
8.6
93.0
12.0 3552.5
4.8
93.0
44.9
62.3 3150.0 22.1
93.0
31.2 3500.0 12.3
93.0
20.0 3552.5
8.0
93.0
11.1 3552.5
4.5
93.0
52.6
53.2 3150.0 18.9
93.0
26.6 3500.0 10.5
93.0
17.1 3552.5
6.8
93.0
9.5
3552.5
3.8
93.0
57.3
48.9 3150.0 17.3
93.0
24.4 3500.0
9.6
93.0
15.7 3552.5
6.3
93.0
8.7
3552.5
3.5
93.0
65.1
43.0 3150.0 15.2
93.0
21.5 3500.0
8.5
93.0
13.8 3552.5
5.5
93.0
7.7
3552.5
3.1
93.0
76.3
36.7 3150.0 13.0
93.0
18.4 3500.0
7.2
93.0
11.8 3552.5
4.7
93.0
6.6
3552.5
2.6
93.0
83.0
33.7 3150.0 12.0
93.0
16.9 3500.0
6.6
93.0
10.8 3552.5
4.3
93.0
6.0
3552.5
2.4
93.0
90.8
30.8 3150.0 10.9
93.0
15.4 3500.0
6.1
93.0
9.9
3552.5
4.0
93.0
5.5
3552.5
2.2
93.0
99.4
28.2 3150.0 10.0
93.0
14.1 3500.0
5.5
93.0
9.1
3552.5
3.6
93.0
5.0
3552.5
2.0
93.0
109.4
25.6 3150.0
9.1
93.0
12.8 3500.0
5.0
93.0
8.2
3552.5
3.3
93.0
4.6
3552.5
1.8
93.0
125.5
22.3 3150.0
7.9
93.0
11.2 3500.0
4.4
93.0
7.2
3552.5
2.9
93.0
4.0
3552.5
1.6
93.0
136.7
20.5 3150.0
7.3
93.0
10.2 3500.0
4.0
93.0
6.6
3552.5
2.6
93.0
3.7
3552.5
1.5
93.0
149.5
18.7 3150.0
6.6
93.0
9.4
3500.0
3.7
93.0
6.0
3552.5
2.4
93.0
3.3
3552.5
1.3
93.0
164.6
17.0 3150.0
6.0
93.0
8.5
3500.0
3.4
93.0
5.5
3552.5
2.2
93.0
3.0
3552.5
1.2
93.0
180.0
15.6 3150.0
5.5
93.0
7.8
3500.0
3.1
93.0
5.0
3552.5
2.0
93.0
2.8
3552.5
1.1
93.0
PtN [kW]
IEC
90 B5
100 B5
112 B5
132 B5
160 B5
180 B5
all ratios
NOTE.
33
1.6
QL 140
110.0
n1 = 2800 min-1
ir
n2
min
-1
n1 = 1400 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 900 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 500 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
T2M
P
RD
Nm
kW
%
IEC
7,6
369
3600
146,4
95
184
4000
81,3
95
119
4060
53,1
95
66
4060
29,5
95
10,3
272
3600
108,0
95
136
4000
60,0
95
87
4060
39,2
95
49
4060
21,8
95
12,3
228
3690
92,9
95
114
4100
51,6
95
73
4162
33,7
95
41
4162
18,7
95
14,9
187
3780
78,1
95
94
4200
43,4
95
60
4263
28,3
95
33
4263
15,7
95
20,2
139
3780
57,8
95
69
4200
32,1
95
45
4263
20,9
95
25
4263
11,6
95
24,6
114
3870
48,5
95
57
4300
27,0
95
37
4365
17,6
95
20
4365
9,8
95
132 B5
132 B14
33,4
84
3960
36,6
95
42
4400
20,3
95
27
4466
13,3
95
15,0
4466
7,4
95
112 B5
40,7
69
3690
28,0
95
34
4100
15,5
95
22
4162
10,1
95
12,3
4162
5,6
95
100 B5
51,3
55
4050
24,4
95
27
4500
13,5
95
17,5
4568
8,8
95
9,7
4568
4,9
95
90 B5
57,4
49
3780
20,3
95
24
4200
11,3
95
15,7
4263
7,4
95
8,7
4263
4,1
95
80 B5
72,3
39
3600
15,4
95
19
4000
8,5
95
12,4
4060
5,6
95
6,9
4060
3,1
95
PtN [kW]
200 B5
180 B5
160 B5
all ratios
NOTE.
34
1.6
QL 150
120
n1 = 2800 min-1
ir
n2
min
-1
n1 = 1400 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 900 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 500 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
T2M
P
RD
Nm
kW
%
15.7
178.2 2430.0 48.8
93.0
89.1 2700.0 27.1
93.0
57.3 2740.5 17.7
93.0
31.8 2740.5
9.8
93.0
18.6
150.3 2880.0 48.7
93.0
75.1 3200.0 27.1
93.0
48.3 3248.0 17.7
93.0
26.8 3248.0
9.8
93.0
21.6
129.9 3510.0 51.3
93.0
65.0 3900.0 28.5
93.0
41.8 3958.5 18.6
93.0
23.2 3958.5 10.3
93.0
22.9
122.5 3780.0 52.1
93.0
61.2 4200.0 29.0
93.0
39.4 4263.0 18.9
93.0
21.9 4263.0 10.5
93.0
25.9
108.3 4050.0 49.4
93.0
54.2 4500.0 27.4
93.0
34.8 4567.5 17.9
93.0
19.3 4567.5
9.9
93.0
30.3
92.4 4500.0 46.8
93.0
46.2 5000.0 26.0
93.0
29.7 5075.0 17.0
93.0
16.5 5075.0
9.4
93.0
34.5
81.2 4500.0 41.1
93.0
40.6 5000.0 22.9
93.0
26.1 5075.0 14.9
93.0
14.5 5075.0
8.3
93.0
36.9
75.8 4500.0 38.4
93.0
37.9 5000.0 21.3
93.0
24.4 5075.0 13.9
93.0
13.5 5075.0
7.7
93.0
42.6
65.7 4500.0 33.3
93.0
32.8 5000.0 18.5
93.0
21.1 5075.0 12.1
93.0
11.7 5075.0
6.7
93.0
46.0
60.8 4500.0 30.8
93.0
30.4 5000.0 17.1
93.0
19.5 5075.0 11.2
93.0
10.9 5075.0
6.2
93.0
54.3
51.6 4500.0 26.1
93.0
25.8 5000.0 14.5
93.0
16.6 5075.0
9.5
93.0
9.2
5075.0
5.3
93.0
59.4
47.2 4500.0 23.9
93.0
23.6 5000.0 13.3
93.0
15.2 5075.0
8.7
93.0
8.4
5075.0
4.8
93.0
66.7
42.0 4500.0 21.3
93.0
21.0 5000.0 11.8
93.0
13.5 5075.0
7.7
93.0
7.5
5075.0
4.3
93.0
78.7
35.6 4500.0 18.0
93.0
17.8 5000.0 10.0
93.0
11.4 5075.0
6.5
93.0
6.4
5075.0
3.6
93.0
86.0
32.5 4500.0 16.5
93.0
16.3 5000.0
9.2
93.0
10.5 5075.0
6.0
93.0
5.8
5075.0
3.3
93.0
94.6
29.6 4500.0 15.0
93.0
14.8 5000.0
8.3
93.0
9.5
5075.0
5.4
93.0
5.3
5075.0
3.0
93.0
101.7
27.5 4500.0 13.9
93.0
13.8 5000.0
7.7
93.0
8.8
5075.0
5.1
93.0
4.9
5075.0
2.8
93.0
109.8
25.5 4500.0 12.9
93.0
12.8 5000.0
7.2
93.0
8.2
5075.0
4.7
93.0
4.6
5075.0
2.6
93.0
129.5
21.6 4500.0
11.0
93.0
10.8 5000.0
6.1
93.0
7.0
5075.0
4.0
93.0
3.9
5075.0
2.2
93.0
141.6
19.8 4500.0 10.0
93.0
9.9
5000.0
5.6
93.0
6.4
5075.0
3.6
93.0
3.5
5075.0
2.0
93.0
155.7
18.0 4500.0
9.1
93.0
9.0
5000.0
5.1
93.0
5.8
5075.0
3.3
93.0
3.2
5075.0
1.8
93.0
185.5
15.1 4320.0
7.3
93.0
7.5
4800.0
4.1
93.0
4.9
4872.0
2.7
93.0
2.7
4872.0
1.5
93.0
204.2
13.7 4140.0
6.4
93.0
6.9
4600.0
3.6
93.0
4.4
4669.0
2.3
93.0
2.4
4669.0
1.3
93.0
PtN [kW]
IEC
100 B5
112 B5
132 B5
160 B5
180 B5
200 B5
all ratios
NOTE.
35
1.6
QL 170
180.0
n1 = 2800 min-1
ir
n2
min
-1
n1 = 1400 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 900 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 500 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
T2M
P
RD
Nm
kW
%
IEC
15.5
180.9 4140.0 84.3
93.0
90.4 4600.0 46.8
93.0
58.1 4669.0 30.6
94.0
32.3 4669.0 17.0
93.0
17.5
160.1 4500.0 81.1
93.0
80.1 5000.0 45.1
93.0
51.5 5075.0 29.4
94.0
28.6 5075.0 16.3
93.0
18.6
150.3 5040.0 85.3
93.0
75.2 5600.0 47.4
93.0
48.3 5684.0 30.9
94.0
26.8 5684.0 17.2
93.0
23.7
118.1 6300.0 83.8
93.0
59.1 7000.0 46.6
93.0
38.0 7105.0 30.4
94.0
21.1 7105.0 16.9
93.0
25.2
110.9 6750.0 84.3
93.0
55.4 7500.0 46.8
93.0
35.6 7612.5 30.6
94.0
19.8 7612.5 17.0
93.0
28.8
97.2 6750.0 73.9
93.0
48.6 7500.0 41.0
93.0
31.2 7612.5 26.8
94.0
17.4 7612.5 14.9
93.0
30.9
90.7 6750.0 69.0
93.0
45.4 7500.0 38.3
93.0
29.2 7612.5 25.0
94.0
16.2 7612.5 13.9
93.0
35.7
78.4 6750.0 59.6
93.0
39.2 7500.0 33.1
93.0
25.2 7612.5 21.6
94.0
14.0 7612.5 12.0
93.0
41.8
66.9 6750.0 50.9
93.0
33.5 7500.0 28.3
93.0
21.5 7612.5 18.4
94.0
12.0 7612.5 10.2
93.0
45.6
61.5 6750.0 46.7
93.0
30.7 7500.0 26.0
93.0
19.8 7612.5 16.9
94.0
11.0 7612.5
9.4
93.0
100 B5
49.8
56.2 6750.0 42.7
93.0
28.1 7500.0 23.7
93.0
18.1 7612.5 15.5
94.0
10.0 7612.5
8.6
93.0
112 B5
54.3
51.6 6750.0 39.2
93.0
25.8 7500.0 21.8
93.0
16.6 7612.5 14.2
94.0
9.2
7612.5
7.9
93.0
132 B5
64.0
43.7 6750.0 33.2
93.0
21.9 7500.0 18.5
93.0
14.1 7612.5 12.0
94.0
7.8
7612.5
6.7
93.0
160 B5
68.9
40.6 6750.0 30.9
93.0
20.3 7500.0 17.2
93.0
13.1 7612.5 11.2
94.0
7.3
7612.5
6.2
93.0
180 B5
75.0
37.3 6750.0 28.4
93.0
18.7 7500.0 15.8
93.0
12.0 7612.5 10.3
94.0
6.7
7612.5
5.7
93.0
200 B5
81.7
34.3 6750.0 26.0
93.0
17.1 7500.0 14.5
93.0
11.0 7612.5
9.4
94.0
6.1
7612.5
5.2
93.0
225 B5
89.4
31.3 6750.0 23.8
93.0
15.7 7500.0 13.2
93.0
10.1 7612.5
8.6
94.0
5.6
7612.5
4.8
93.0
98.4
28.5 6750.0 21.6
93.0
14.2 7500.0 12.0
93.0
9.1
7612.5
7.8
94.0
5.1
7612.5
4.4
93.0
113.9
24.6 6750.0 18.7
93.0
12.3 7500.0 10.4
93.0
7.9
7612.5
6.8
94.0
4.4
7612.5
3.8
93.0
124.1
22.6 6750.0 17.2
93.0
11.3 7500.0
9.5
93.0
7.3
7612.5
6.2
94.0
4.0
7612.5
3.5
93.0
135.8
20.6 6750.0 15.7
93.0
10.3 7500.0
8.7
93.0
6.6
7612.5
5.7
94.0
3.7
7612.5
3.2
93.0
149.4
18.7 6750.0 14.2
93.0
9.4
7500.0
7.9
93.0
6.0
7612.5
5.2
94.0
3.3
7612.5
2.9
93.0
162.7
17.2 6750.0 13.1
93.0
8.6
7500.0
7.3
93.0
5.5
7612.5
4.7
94.0
3.1
7612.5
2.6
93.0
178.1
15.7 6210.0
11.0
93.0
7.9
6900.0
6.1
93.0
5.1
7003.5
4.0
94.0
2.8
7003.5
2.2
93.0
196.0
14.3 5940.0
9.6
93.0
7.1
6600.0
5.3
93.0
4.6
6699.0
3.5
94.0
2.6
6699.0
1.9
93.0
PtN [kW]
all ratios
NOTE.
36
1.6
QL 190
250
n1 = 2800 min-1
ir
n2
min
-1
n1 = 1400 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 900 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
n1 = 500 min-1
T2M
P
RD
n2
Nm
kW
%
min
-1
T2M
P
RD
Nm
kW
%
15.5
180.9 5796.0 118.0
93.0
90.4
6440.0
65.6
93.0
58.1
6537
42.8
93.0
32.3
6537
23.8
93.0
17.5
160.1 6300.0 113.6
93.0
80.1
7000.0
63.1
93.0
51.5
7105
41.2
93.0
28.6
7105
22.9
93.0
18.6
150.3 7056.0 119.4
93.0
75.2
7840.0
66.4
93.0
48.3
7958
43.3
93.0
26.8
7958
24.1
93.0
23.7
118.1 8640.0 114.9
93.0
59.1
9600.0
63.8
93.0
38.0
9744
41.7
93.0
21.1
9744
23.1
93.0
25.2
110.9 8820.0 110.1
93.0
55.4
9800.0
61.2
93.0
35.6
9947
39.9
93.0
19.8
9947
22.2
93.0
28.8
97.2 9000.0 98.5
93.0
48.6 10000.0 54.7
93.0
31.2
10150
35.7
93.0
17.4
10150
19.8
93.0
30.9
90.7 9225.0 94.2
93.0
45.4 10250.0 52.4
93.0
29.2
10404
34.2
93.0
16.2
10404
19.0
93.0
35.7
78.4 9450.0 83.5
93.0
39.2 10500.0 46.4
93.0
25.2
10658
30.3
93.0
14.0
10658
16.8
93.0
41.8
66.9 9450.0 71.2
93.0
33.5 10500.0 39.6
93.0
21.5
10658
25.8
93.0
12.0
10658
14.3
93.0
45.6
61.5 9450.0 65.4
93.0
30.7 10500.0 36.3
93.0
19.8
10658
23.7
93.0
11.0
10658
13.2
93.0
49.8
56.2 9450.0 59.8
93.0
28.1 10500.0 33.2
93.0
18.1
10658
21.7
93.0
10.0
10658
12.0
93.0
54.3
51.6 9450.0 54.9
93.0
25.8 10500.0 30.5
93.0
16.6
10658
19.9
93.0
9.2
10658
11.1
93.0
64.0
43.7 9450.0 46.5
93.0
21.9 10500.0 25.8
93.0
14.1
10658
16.9
93.0
7.8
10658
9.4
93.0
68.9
40.6 9450.0 43.2
93.0
20.3 10500.0 24.0
93.0
13.1
10658
15.7
93.0
7.3
10658
8.7
93.0
75.0
37.3 9450.0 39.7
93.0
18.7 10500.0 22.1
93.0
12.0
10658
14.4
93.0
6.7
10658
8.0
93.0
81.7
34.3 9450.0 36.5
93.0
17.1 10500.0 20.3
93.0
11.0
10658
13.2
93.0
6.1
10658
7.3
93.0
89.4
31.3 9450.0 33.3
93.0
15.7 10500.0 18.5
93.0
10.1
10658
12.1
93.0
5.6
10658
6.7
93.0
97.9
28.6 9450.0 30.4
93.0
14.3 10500.0 16.9
93.0
9.2
10658
11.0
93.0
5.1
10658
6.1
93.0
113.9
24.6 9450.0 26.2
93.0
12.3 10500.0 14.5
93.0
7.9
10658
9.5
93.0
4.4
10658
5.3
93.0
124.1
22.6 9450.0 24.0
93.0
11.3
10500.0 13.3
93.0
7.3
10658
8.7
93.0
4.0
10658
4.8
93.0
135.8
20.6 9450.0 21.9
93.0
10.3 10500.0 12.2
93.0
6.6
10658
8.0
93.0
3.7
10658
4.4
93.0
147.8
18.9 9450.0 20.2
93.0
9.5
10500.0
11.2
93.0
6.1
10658
7.3
93.0
3.4
10658
4.1
93.0
162.7
17.2 9450.0 18.3
93.0
8.6
10500.0 10.2
93.0
5.5
10658
6.6
93.0
3.1
10658
3.7
93.0
178.1
15.7 9225.0 16.3
93.0
7.9
10250.0
9.1
93.0
5.1
10404
5.9
93.0
2.8
10404
3.3
93.0
196.0*
14.3 9000.0 14.5
93.0
7.1
10000.0
8.0
93.0
4.6
10150
5.2
93.0
2.6
10150
2.9
93.0
PtN [kW]
IEC
132 B5
160 B5
180 B5
200 B5
225 B5
250 B5
all ratios
* Hollow output shaft not available for ratios marked with this symbol.
NOTE.
37
In table 3.6 the possible shaft/flange dimensions IEC standard are listed.
Tab.3.6
Possible couplings with IEC motors
80
90
100 100
112
132
80
90
100
125 112
132
160*
180*
IEC
ir
IEC
All
19/200 (B5) - 19/300 - 19/250
24/200 (B5) - 24/300 - 24/250
28/250 (B5) - 28/300 - 28/200
28/250 (B5) - 28/300 - 28/200
38/300 (B5) - 38/200 (B14) - 38/250
19/200 (B5)
24/200 (B5) - 24/300 - 24/250
28/250 (B5) - 28/300 - 28/200
28/250 (B5) - 28/300 - 28/200
38/300 (B5) - 38/200 (B14) - 38/250
42/350 (B5)
48/350 (B5)
132
140
150
170
190
90
100
112
132
160*
180*
80
90
100
112
132
160*
180*
200*
100
112
132
160*
180*
200*
100
112
132
160*
180*
200*
225*
132
160*
180*
200*
225*
250*
Possible couplings with IEC motors
ir
All
24/200 (B5)
28/250 (B5)
28/250 (B5)
38/300 (B5)
42/350 (B5)
48/350 (B5)
19/200 (B5)
24/200 (B5) - 24/300 - 24/250
28/250 (B5) - 28/300 - 28/200
28/250 (B5) - 28/300 - 28/200
38/300 (B5) - 38/200 (B14) - 38/250
42/350 (B5)
48/350 (B5)
55/400 (B5)
28/250 (B5)
28/250 (B5)
38/300 (B5)
42/350 (B5)
48/350 (B5)
55/400 (B5)
28/250 (B5)
28/250 (B5)
38/300 (B5)
42/350 (B5)
48/350 (B5)
55/400 (B5)
60/450 (B5)
38/300 (B5)
42/350 (B5)
48/350 (B5)
55/400 (B5)
60/450 (B5)
65/550 (B5)
Key:
19/200 (B5)
19/160
19/200 : standard shaft/flange combination
(B5)
: IEC motor constructive shape
19/160 : shaft/flange combinations upon request
* All PAM configurations supplied with ROTEX coupling. Where PAM configuration is marked with an asterisk, see directions (for
mounting directions, see page 15, paragraph “Installation”)
38
1.7
n2
min-1
ir
T2
Nm
1.5 kW
549
412
358
337
275
247
213
191
177
165
145
136
123
122
105
100
94
85
82
75
72
66
61
59
58
52
51
46
45
45
43
38
38
35
35
33
33
31
28
27
27
27
26
25
24
24
24
24
22
19,1
19,1
19,1
18,6
18,2
17,4
16,4
15,1
14,9
5,2
6,9
7,9
8,4
10,3
11,5
13,3
14,8
7,9
17,2
19,5
10,3
11,4
11,5
13,3
13,9
14,8
16,5
17,2
18,7
19,5
21,2
22,9
23,7
24,2
27,1
27,5
30,6
31,0
31,2
32,5
36,9
37,1
39,8
40,5
42,2
42,6
45,2
49,3
51,0
51,0
52,4
53,4
57,0
58,0
57,2
59,5
57,9
64,6
73,2
73,2
73,3
75,4
77
80,7
85,4
92,5
93,9
24,8
31
36
38
47
52
61
68
73
78
89
95
105
106
122
128
137
152
158
172
180
206
211
219
235
249
253
282
302
288
300
340
342
387
393
388
392
416
454
496
496
482
491
554
564
527
548
533
594
712
712
675
733
709
743
787
852
865
FS’
n1= 2830 min-1
n1= 1400 min-1
n1= 925 min-1
11,5
7
3,9
6,5
3,2
3,0
2,9
2,7
2,3
2,4
2,1
2,0
3,2
1,8
1,8
3,1
1,6
2,6
1,4
2,4
1,3
2,9
2,0
1,1
2,6
1,8
0,9
1,6
1,8
0,8
3,0
2,7
1,3
1,4
2,7
2,3
1,2
2,2
1,0
2,3
1,1
1,9
0,9
0,9
1,8
3,3
1,7
0,9
2,9
1,4
0,8
1,3
2,7
2,5
1,2
2,2
1,1
2,0
n2
min-1
QL
80C 2
90L 4
90LB
80
71
63
71
63
63
63
63
63
63
63
63
71
63
63
71
63
71
63
71
63
80
71
63
80
71
63
71
80
63
90
90
71
80
100
90
71
90
71
100
80
90
71
80
100
112
90
71
112
100
80
90
125
112
90
112
90
112
80 C2
80C 2
80C 2
80C 2
80C 2
80C 2
80C 2
80C 2
90L 4
80C 2
80C 2
90L 4
90L 4
90L 4
90L 4
90L 4
90L 4
90L 4
90L 4
90L 4
90L 4
90 L 4
90L 4
90L 4
90 L 4
90L 4
90L 4
90L 4
90 L 4
90L 4
90L 4
90L 4
90L 4
90 L 4
90 L 4
90L 4
90L 4
90L 4
90L 4
90 L 4
90 L 4
90L 4
90L 4
90 L 4
90 L 4
90L 4
90L 4
90L 4
90L 4
90 L 4
90 L 4
90L 4
90 L 4
90L 4
90L 4
90L 4
90L 4
90L 4
ir
T2
Nm
1.5 kW
13,6
13,1
12,8
12,6
11,4
11,2
11,2
10,3
10,2
9,4
9,0
8,5
8,4
7,8
7,2
6,8
6,3
6,2
5,6
5,1
102,8
106,7
109,4
110,9
122,3
125,2
125,5
135,6
136,7
149,5
154,8
164,6
166
180,0
194,9
136,7
223,5
149,5
164,6
180,0
946
983
1052
1021
1126
1153
1207
1249
1314
1438
1426
1583
1529
1732
1795
1989
2058
2176
2396
2621
1.8 kW
538
404
350
279
269
241
208
187
177
167
141
136
123
122
105
100
94
85
82
75
72
66
61
61
59
58
55
52
51
49
46
45
45
43
5,2
6,9
7,9
9,9
10,3
11,5
13,3
14,8
7,9
8,4
9,9
10,3
11,4
11,5
13,3
13,9
14,8
16,5
17,2
18,7
19,5
21,2
23
22,9
23,7
24,2
25,7
27,1
27,5
28,8
30,6
31,0
31,0
32,5
30,4
38
44
55
57
64
74
83
87
93
110
114
126
127
147
154
164
182
190
207
216
247
254
253
262
282
284
299
304
319
338
362
362
360
FS’
n1= 2830 min-1
n1= 1400 min-1
n1= 925 min-1
1,8
0,9
3,3
1,7
0,8
1,5
2,9
1,4
2,7
2,4
1,2
2,2
1,1
2,0
1,0
1,8
0,9
1,6
1,5
1,4
112
90
132
112
90
112
132
112
132
132
112
132
112
132
112
132
112
132
132
132
n1= 2770 min-1
n1= 1400 min-1
n1= 940 min-1
9,3
5,7
3,2
4,7
2,6
2,4
2,4
2,2
1,9
3,2
2,9
1,6
2,7
1,5
1,5
2,6
1,3
2,2
1,2
2
1,1
2,4
3,2
1,7
0,9
2,1
3,2
1,5
0,8
2,9
1,4
3,0
1,5
2,5
n2
min-1
QL
80
71
63
71
63
63
63
63
63
71
71
63
71
63
63
71
63
71
63
71
63
80
90
71
63
80
90
71
63
90
71
100
80
90
80C 2
90L 4
90LB
90L 4
90L 4
90 L 4
90L 4
90L 4
90L 4
90 L 4
90L 4
90 L 4
90 L 4
90L 4
90 L 4
90L 4
90 L 4
90L 4
90LB 6
90L 4
90LB 6
90LB 6
90LB 6
80D 2
90LB 4
100B 6
80 D2
80D 2
80D 2
80D 2
80D 2
80D 2
80D 2
80D 2
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90 LB4
90LB 4
90LB 4
90LB 4
90 LB4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90 LB4
90 LB4
90LB 4
ir
T2
Nm
1.8 kW
38
35
35
33
33
31
28
27
27
26
26
25
24
24
24
24
22
19,1
19,1
18,6
18,2
17,4
16,4
15,4
15,1
14,9
14,1
13,6
12,8
12,6
11,2
11,2
10,9
10,3
10,2
9,9
9,4
9,2
9
8,6
8,5
8,4
7,8
7,3
7,2
6,9
6,9
6,6
6,3
6,3
6,0
5,8
5,7
5,3
5,2
5,1
4,8
4,6
37,1
39,8
40,5
42,2
42,6
45,2
49,3
51,0
51,0
53,4
53,4
57,0
58,0
58,0
57,2
59,5
64,6
73,2
73,3
75,4
77
80,7
85,4
90,8
92,5
93,9
99,4
102,8
109,4
110,9
125,2
125,5
86,0
135,6
136,7
94,6
149,5
101,7
154,8
109,8
164,6
166
180,0
129,5
194,9
135,8
136,7
141,6
149,4
149,5
155,7
162,7
164,6
178,1
180,0
185,5
196,0
204,2
410
464
472
466
470
500
545
595
595
590
590
665
677
677
632
657
713
854
810
879
851
892
944
1048
1022
1038
1147
1136
1263
1226
1384
1449
1479
1499
1577
1626
1726
1748
1711
1887
1899
1835
2078
2226
2154
2334
2349
2434
2568
2570
2676
2797
2829
3061
3095
3189
3368
3510
FS’
QL
n1= 2770 min-1
n1= 1400 min-1
n1= 940 min-1
1,1
1,2
2,2
2
1
1,8
0,8
1,9
0,9
3
0,8
0,8
3,0
1,5
2,8
1,4
2,5
1,2
1,1
2,3
2,1
1
1,9
3,3
0,9
1,7
3,1
1,5
2,8
1,4
1,3
2,4
3,4
1,2
2,2
3,1
2,0
2,9
1
2,7
1,8
1
1,7
2,3
0,8
3,3
1,5
2,1
3,0
1,4
1,9
2,7
1,3
2,3
1,1
1,5
2,0
1,3
71
80
100
90
71
90
71
100
80
112
71
80
125
100
112
90
112
100
90
125
112
90
112
132
90
112
132
112
132
112
112
132
150
112
132
150
132
150
112
150
132
112
132
150
112
170
132
150
170
132
150
170
132
170
132
150
170
150
80D 2
90LB 4
100B 6
90LB 4
90 LB4
90 LB4
90LB 4
90LB 4
90LB 4
90LB 4
90 LB4
90 LB4
90LB 4
90LB 4
90 LB4
90 LB4
90 LB4
90LB 4
90LB 4
90LB 4
90 LB4
90LB 4
90 LB4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
90LB 4
100B 6
90LB 4
90LB 4
100B 6
90LB 4
100B 6
90LB 4
100B 6
90LB 4
90LB 4
90LB 4
100B 6
90LB 4
100B 6
100B 6
100B 6
100B 6
100B 6
100B 6
100B 6
100B 6
100B 6
100B 6
100B 6
100B 6
100B 6
39
1.7
n2
min-1
ir
T2
Nm
2.2 kW
551
414
359
338
286
276
250
248
214
206
192
182
178
168
142
137
132
124
123
109
106
101
101
96
95
86
85
82
79
75
72
70
66
61
61
58
55
52
49
46
45
45
43
38
38
35
35
33
33
31
30
28
28
27
27
26
25
24
24
40
5.2
6.9
7.9
8.4
9.9
10.3
11.4
11.5
13.3
6.9
14.8
5.2
7.9
8.4
9.9
10.3
7.1
11.4
11.5
13
13.3
14
13.9
14.6
14.8
16.5
16.7
17.2
17.7
18.7
19.5
20.1
21.2
23
22.9
24.2
25.7
27.1
28.8
30.6
31.0
31.0
32.5
36.9
37.1
39.8
40.5
42.2
42.6
45.2
46.8
51.0
51.0
52.4
52.6
53.4
57.2
58.0
58.0
36
46
53
56
66
68
76
76
88
92
99
109
106
113
133
138
151
153
154
174
178
188
187
207
199
221
236
230
238
251
262
270
300
308
308
342
344
363
387
410
439
439
436
495
497
563
573
565
571
606
627
723
723
702
744
716
768
821
821
FS’
n1= 2840 min-1
n1= 1410 min-1
n1= 940 min-1
7.8
4.8
2.7
4.5
3.9
2.2
3.7
2
2
2.9
1.8
2.9
1.6
2.7
2.4
1.3
2.6
2.2
1.2
3.1
1.2
3.1
2.1
2.9
1.1
1.8
2.5
1
3.2
1.6
0.9
2.9
2.0
2.7
1.4
1.8
2.6
1.3
2.4
1.1
2.5
1.3
2.1
1.8
0.9
1.0
1.8
1.6
0.8
1.5
2.8
1.6
0.8
1.3
3.1
2.4
2.3
2.4
1.2
n2
min-1
QL
80
71
63
71
71
63
71
63
63
71
63
80
63
71
71
63
80
71
63
90
63
90
71
80
63
71
80
63
90
71
63
90
80
90
71
80
90
71
90
71
100
80
90
90
71
80
100
90
71
90
112
100
80
90
125
112
112
125
100
90L 2
100A 4
100BL 6
90L 2
90L 2
90L 2
90L 2
90L 2
90L 2
90L 2
90L 2
90L 2
100A 4
90L 2
100BL 6
100A 4
100A 4
100A 4
100A 4
100BL 6
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
ir
T2
Nm
2.2 kW
24
22
19.3
19.2
18.7
18.5
18.4
18.3
17.9
17.5
17.0
16.5
16.2
16.2
15.5
15
14.2
13.7
13.0
12.9
12.8
12.7
12.5
11.9
11.3
11.2
10.9
10.4
10.3
10.0
9.4
9.2
9.1
9.1
8.7
8.6
8.5
7.9
7.8
7.6
7.6
7.2
6.9
6.9
6.6
6.3
6.3
6.0
5.8
5.7
5.3
5.2
5.1
4.8
4.6
59.5
64.6
73.2
73.3
75.4
76.3
51.0
77
52.6
80.7
83.0
85.4
58.0
58.0
90.8
93.9
99.4
102.8
72.3
109.4
109.8
110.9
75.4
78.7
125.2
125.5
129.5
135.6
136.7
141.6
149.5
101.7
154.8
155.7
162.7
164.6
166
178.1
180.0
185.5
124.1
196.0
204.2
136.7
141.6
149.4
149.5
155.7
162.7
164.6
178.1
180.0
185.5
196.0
204.2
797
866
1036
983
1067
1068
1084
1033
1116
1082
1163
1146
1232
1232
1272
1259
1392
1378
1536
1532
1538
1487
1601
1653
1679
1758
1813
1819
1914
1983
2094
2137
2076
2181
2279
2305
2227
2494
2522
2599
2607
2745
2860
2871
2974
3139
3141
3271
3419
3458
3741
3783
3898
4117
4290
FS’
n1= 2840 min-1
n1= 1410 min-1
n1= 940 min-1
1.1
2
1.0
0.9
1.9
3.3
1.1
1.7
2.1
0.8
3.0
1.5
1.6
0.8
2.8
1.4
2.5
1.3
2.6
2.3
3.3
1.2
1.3
3.1
1
2.0
2.8
1
1.8
2.5
1.7
2.4
0.8
2.3
3.3
1.5
0.8
2.8
1.4
1.8
2.9
2.4
1.6
1.2
1.7
2.4
1.1
1.6
2.2
1.0
1.9
0.9
1.2
1.6
1.1
n2
min-1
QL
90
112
100
90
125
132
100
112
125
90
132
112
125
100
132
112
132
112
140
132
150
112
125
150
112
132
150
112
132
150
132
150
112
150
170
132
112
170
132
150
170
170
150
132
150
170
132
150
170
132
170
132
150
170
150
90L 2
100A 4
100BL 6
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100BL 6
100A 4
100BL 6
100A 4
100A 4
100A 4
100BL 6
100BL 6
100A 4
100A 4
100A 4
100A 4
100BL 6
100A 4
100A 4
100A 4
100BL 6
100BL 6
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100BL 6
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100A 4
100BL 6
100A 4
100A 4
100BL 6
100BL 6
100BL 6
100BL 6
100BL 6
100BL 6
100BL 6
100BL 6
100BL 6
100BL 6
100BL 6
100BL 6
ir
T2
Nm
5.2
6.9
7.9
8.4
9.9
10.3
5.2
11.4
11.5
13.3
6.9
7.1
7.2
14.8
7.9
8.4
9
9.9
10.0
10.1
10.3
11.4
11.5
11.5
11.9
13
13.3
13.9
14
14.6
14.8
15.7
16.5
16.7
17.7
18.7
20.1
20.9
21.2
21.2
23
22.9
23.6
24.2
24.6
25.6
25.7
27.1
28.8
29.4
30.6
31.0
31.0
32.5
32.8
38.2
40.5
40.5
QL
n1= 2840 min-1
n1= 1420 min-1
n1= 940 min-1
3 kW
551
414
359
338
286
276
276
250
248
214
207
200
197
192
180
169
157
143
142
140
138
125
124
124
119
109
107
102
101
97
96
90
86
85
80
76
71
68
67
67
62
62
60
59
58
55
55
52
49
48
46
46
46
44
43
37
35
35
FS’
49.4
62
72
76
90
93
99
103
104
121
125
136
131
135
144
153
164
180
191
184
187
207
208
208
229
236
241
253
254
281
269
285
299
320
322
340
366
380
407
407
418
416
429
463
471
465
466
492
524
534
555
595
595
591
595
694
775
775
5.8
3.5
1.9
3.3
2.9
1.6
3.1
2.7
1.5
1.5
2.2
2.8
3.3
1.3
1.2
2
2.7
1.8
2.6
2.7
1
1.6
2.5
0.9
2.4
2.3
0.9
1.6
2.3
2.1
0.8
2.5
1.3
1.9
2.3
1.2
2.2
3.4
2.8
1.5
2
1
3.1
1.3
2.5
3
1.9
0.9
1.7
3.3
0.8
1.9
0.9
1.5
2.9
2.5
2.6
1.4
80
71
63*
71
71
63*
80
71
63*
63*
71
80
90
63*
63*
71
90
71
80
90
63*
71
90
63*
80
90
63*
71
90
80
63*
90
71
80
90
71
90
112
100
80
90
71
112
80
100
112
90
71
90
112
71
100
80
90
112
112
125
100
90LB 2
100B 4
112B 6
90LB 2
90LB 2
90LB 2
90LB 2
90LB 2
90LB 2
100B 4
90LB 2
90LB 2
90LB 2
100B 4
100B 4
100B 4
90LB 2
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
1.7
n2
min-1
ir
T2
Nm
42.2
43.2
45.2
46.8
51.0
52.6
53.4
52.4
57.2
57.3
58.0
58.0
59.5
64.6
65.1
72.3
75.4
76.3
51.0
77
51.3
78.7
52.6
83.0
85.4
86.0
57.4
58.0
90.8
93.9
94.6
99.4
101.7
102.8
72.3
109.4
109.8
110.9
75.4
124.1
125.5
129.5
135.8
136.7
141.6
149.4
149.5
155.7
162.7
164.6
178.1
180.0
185.5
196.0
204.2
135.8
136.7
141.6
766
784
821
849
978
1008
969
951
1039
1087
1112
1112
1080
1172
1235
1386
1445
1446
1478
1399
1485
1492
1522
1575
1551
1632
1662
1680
1723
1705
1794
1885
1929
1866
2094
2075
2082
2014
2183
2353
2381
2455
2575
2592
2685
2834
2835
2953
3086
3121
3377
3415
3519
3716
3873
3890
3915
4056
1.2
2.2
1.1
2.1
1.2
2.3
1.8
1
1.7
3.2
1.8
0.9
0.8
1.5
2.8
2.9
1.4
2.4
0.8
1.3
3.1
3.4
1.5
2.2
1.1
3.1
2.6
1.2
2.0
1
2.8
1.9
2.6
0.9
1.9
1.7
2.4
0.9
0.9
3.2
1.5
2.0
2.9
1.4
1.9
2.6
1.2
1.7
2.4
1.1
2.0
1.0
1.4
1.8
1.2
2.0
0.9
1.3
n2
min-1
QL
n1= 2840 min-1
n1= 1420 min-1
n1= 940 min-1
3 kW
34
33
31
30
28
27
27
27
25
25
24
24
24
22
22
20
18.8
18.6
18.4
18.4
18.3
18.0
17.9
17.1
16.6
16.5
16.4
16.2
15.6
15.1
15.0
14.3
14.0
13.8
13.0
13.0
12.9
12.8
12.5
11.4
11.3
11.0
10.5
10.4
10.0
9.5
9.5
9.1
8.7
8.6
8.0
7.9
7.7
7.2
7.0
6.9
6.9
6.6
FS’
90
112
90
112
100
125
112
90
112
132
125
100
90
112
132
140
125
132
100
112
140
150
125
132
112
150
140
125
132
112
150
132
150
112
140
132
150
112
125
170
132
150
170
132
150
170
132
150
170
132
170
132
150
170
150
170
132
150
90LB 2
100B 4
112B 6
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
112B 6
100B 4
112B 6
100B 4
112B 6
100B 4
100B 4
100B 4
112B 6
112B 6
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
112B 6
100B 4
100B 4
100B 4
112B 6
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
100B 4
112B 6
112B 6
112B 6
ir
T2
Nm
149.4
149.5
155.7
162.7
164.6
178.1
185.5
196.0
204.2
4281
4283
4461
4662
4715
5101
5316
5614
5850
4 kW
555
417
362
340
317
288
282
278
274
251
249
220
206
198
195
178
172
168
159
156
142
141
139
124
123
120
118
109
108
101
101
96
96
90
88
86
85
83
79
79
75
70
67
66
5.2
6.9
7.9
8.4
9
9.9
10.1
10.3
5.2
11.4
11.5
13
6.9
7.1
7.2
7.9
16.7
8.4
8.9
9
9.9
10.0
10.1
11.4
11.5
11.8
11.9
13
13.1
14
13.9
14.6
14.6
15.7
16.1
16.5
16.7
17.0
17.9
17.7
18.7
20.1
20.9
21.2
1.8
0.8
1.1
1.6
0.8
1.4
0.9
1.2
0.8
170
132
150
170
132
170
150
170
150
n1= 2860 min-1
n1= 1410 min-1
65
82
95
101
109
119
122
124
133
137
138
156
167
183
176
193
212
205
217
220
242
257
247
277
279
287
307
317
320
341
340
377
377
383
393
401
429
437
438
433
456
491
510
546
4.3
2.7
1.5
2.5
3.2
2.2
2.9
1.2
2.3
2
1.1
2.6
1.6
2.1
2.4
0.9
2.6
1.5
3.3
2
1.3
1.9
2
1.2
1.9
3
1.8
1.7
2.8
1.7
1.2
3.1
1.6
1.9
3
1
1.4
2.7
2.8
1.7
0.9
1.6
2.5
2.1
n2
min-1
QL
n1= 2840 min-1
n1= 1420 min-1
n1= 940 min-1
3 kW
6.3
6.3
6.0
5.8
5.7
5.3
5.1
4.8
4.6
FS’
80
71*
63*
71*
90
71*
90
63*
80
71*
63*
90
71*
80
90
63*
80
71*
112
90
71*
80
90
71*
90
112
80
90
112
90
71*
100
80
90
112
71*
80
100
112
90
71*
90
112
100
90LB 2
100B 4
112B 6
112B 6
112B 6
112B 6
112B 6
112B 6
112B 6
112B 6
112B 6
112B 6
100B 2
100BL 4
100 B2
100B 2
100B 2
100B 2
100B 2
100B 2
100B 2
100B 2
100 BL4
100B 2
100B 2
100B 2
100BL 4
100 BL4
100BL 4
100BL 4
100 B2
100BL 4
100BL 4
100BL 4
100BL 4
100 BL4
100BL 4
100BL 4
100BL 4
100BL 4
100 BL4
100BL 4
100BL 4
100BL 4
100BL 4
100 BL4
100 BL4
100BL 4
100BL 4
100BL 4
100 BL4
100 BL4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100 BL4
ir
T2
Nm
4 kW
66
63
61
60
58
57
55
55
49
48
45
44
43
43
38
37
35
35
34
33
33
31
31
30
28
27
27
26
25
25
24
24
22
22
21
19
19
18.5
18.3
17.9
17.0
16.5
16.4
15.8
15.5
14.9
14.3
14.2
13.9
12.9
12.8
12.4
11.4
11.2
10.9
10.4
10.3
10.0
21.2
22.3
23
23.6
24.2
24.6
25.6
25.7
28.8
29.4
31.0
31.9
32.8
32.5
36.9
38.2
40.5
40.5
41.7
43.2
42.2
44.9
45.2
46.8
51.0
52.6
52.6
53.4
57.3
57.4
58.0
59.4
64.6
65.1
66.7
72.3
75.4
76.3
77
78.7
83.0
85.4
86.0
89.4
90.8
94.6
98.4
99.4
101.7
109.4
109.8
113.9
124.1
125.5
129.5
135.8
136.7
141.6
FS’
QL
n1= 2860 min-1
n1= 1410 min-1
546
543
561
576
622
633
624
626
703
717
798
822
800
793
900
932
1041
1041
1063
1053
1028
1144
1102
1140
1314
1353
1340
1301
1459
1477
1493
1512
1574
1659
1699
1861
1940
1942
1878
2003
2115
2083
2191
2277
2313
2409
2506
2532
2590
2786
2796
2901
3160
3197
3297
3457
3480
3605
1.1
3.2
1.5
2.3
1.0
1.9
2.2
1.4
1.3
2.4
1.4
2.7
2.2
1.1
1
1.9
2.0
1.0
3.3
1.7
0.9
3.1
0.8
1.5
0.9
1.7
2.6
1.3
2.4
2.8
1.3
3.3
1.1
2.1
2.9
2.1
1.0
1.8
0.9
2.5
1.7
0.8
2.3
3.3
1.5
2.1
3.0
1.4
1.9
1.3
1.8
2.6
2.4
1.1
1.5
2.2
1.0
1.4
80
112
90
112
80
100
112
90
90
112
100
125
112
90
90
112
125
100
132
112
90
132
90
112
100
125
132
112
132
140
125
150
112
132
150
140
125
132
112
150
132
112
150
170
132
150
170
132
150
132
150
170
170
132
150
170
132
150
100B 2
100BL 4
100 BL4
100BL 4
100BL 4
100BL 4
100 BL4
100 BL4
100BL 4
100BL 4
100BL 4
100BL 4
100 BL4
100 BL4
100BL 4
100BL 4
100BL 4
100BL 4
100 BL4
100 BL4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100 BL4
100 BL4
100BL 4
100BL 4
100BL 4
100 BL4
100 BL4
100BL 4
100BL 4
100BL 4
100BL 4
100 BL4
100 BL4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
41
1.7
n2
min-1
ir
T2
Nm
4 kW
9.4
9.4
9.1
8.7
8.6
7.9
7.8
7.6
7.2
6.9
149.4
149.5
155.7
162.7
164.6
178.1
180.0
185.5
196.0
204.2
3805
3807
3965
4144
4191
4534
4585
4725
4990
5200
42
5.2
6.9
7.1
7.2
8.4
9
9.9
10.0
10.1
5.2
5.2
11.4
11.5
6.9
7.1
14.6
7.2
7.4
7.7
16.7
8.4
8.9
9
9.9
10.0
10.0
10.1
11.4
11.5
11.8
11.9
24.6
12.2
13
13.1
14
13.9
14.6
14.6
15.7
16.1
16.7
17.0
17.7
89
113
123
118
138
148
163
173
167
184
184
187
188
232
253
254
244
264
258
289
284
300
305
335
355
355
343
384
387
397
426
426
434
439
443
472
471
522
522
531
544
594
605
599
2.0
0.9
1.3
1.8
0.8
1.5
0.8
1.0
1.3
0.9
170
132
150
170
132
170
132
150
170
150
n1= 2880 min-1
n1= 1400 min-1
3.2
2
2.8
2.7
1.8
2.4
1.6
2.7
2.1
2.7
1.7
1.5
2.1
1.2
1.5
2.2
1.8
2.9
2.6
1.9
1.1
2.4
1.5
1
2.8
1.4
1.5
0.9
1.3
2.1
1.3
2.6
2.3
1.2
2
1.2
0.8
2.2
1.2
1.4
2.1
1.0
2.0
1.3
n2
min-1
QL
n1= 2860 min-1
n1= 1410 min-1
5.5 kW
559
420
405
399
343
319
290
289
284
272
272
253
251
204
197
197
194
189
183
173
167
157
155
141
140
140
138
123
122
119
117
117
115
108
107
100
100
96
96
89
87
84
83
79
FS’
80
71*
80
90
71*
90
71*
80
90
100
80
71*
90
71*
80
80
90
100
112
80
71*
112
90
71*
100
80
90
71*
90
112
80
100
100
90
112
90
71*
100
80
90
112
80
100
90
100B 2
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
100BL 4
112B 2
112BL 4
112 B2
112B 2
112 B2
112B 2
112B 2
112B 2
112B 2
112 B2
112B 2
112BL4
112BL4
112B 2
112B 2
112BL4
112BL4
112 B2
112BL4
112BL4
112BL4
112 B2
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112 B2
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
ir
T2
Nm
5.5 kW
78
78
70
69
67
66
66
66
65
63
61
59
58
57
57
55
55
51
49
48
45
45
44
43
43
39
37
35
34
34
33
32
31
30
30
27
27
27
26
26
25
24
24
24
24
22
21
21
20
19
18.7
18.4
17.1
16.9
16.3
15.7
15.4
14.8
14.1
17.9
17.9
20.1
20.3
20.9
21.2
21.2
21.2
21.7
22.3
23
23.6
24.3
24.6
24.6
25.6
25.7
27.5
28.8
29.4
31.0
31.2
31.9
32.8
32.5
36.3
38.2
40.5
40.7
41.7
42.6
43.2
44.9
46.0
46.8
51.3
52.6
52.6
53.4
54.3
113.9
57.3
57.4
58.0
57.2
64.6
65.1
66.7
68.9
72.3
75.0
76.3
81.7
83.0
86.0
89.4
90.8
94.6
99.4
633
606
680
714
706
756
756
756
764
751
776
798
858
876
876
864
866
968
974
993
1106
1100
1139
1107
1099
1280
1291
1442
1451
1472
1504
1458
1585
1624
1579
1828
1874
1856
1802
1914
1953
2021
2046
2068
1933
2180
2297
2353
2430
2578
2646
2690
2882
2928
3034
3154
3204
3336
3506
FS’
n1= 2880 min-1
n1= 1400 min-1
2.8
2
1.2
2.8
1.8
2.8
1.5
0.8
2.9
2.3
1.1
1.7
2.7
2.6
1.4
1.6
1
2.8
0.9
1.8
1.0
2.9
2.0
1.6
0.8
2.7
1.4
1.4
2.8
2.4
3.3
1.2
2.2
3.1
1.1
2.5
1.2
1.9
1
2.6
3.5
1.7
2.1
1.0
0.9
0.8
1.5
2.1
3.1
1.6
2.8
1.3
2.6
1.2
1.6
2.4
1.1
1.5
1.0
n2
min-1
QL
132
112
90
132
112
125
100
80
132
112
90
112
132
125
100
112
90
132
90
112
100
132
125
112
90
132
112
125
140
132
150
112
132
150
112
140
125
132
112
150
170
132
140
125
112
112
132
150
170
140
170
132
170
132
150
170
132
150
132
112B 2
112BL 4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112B 2
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
ir
T2
Nm
5.5 kW
13.8
12.8
12.8
11.3
11.2
9.9
7.9
101.7
109.4
109.8
124.1
125.5
141.6
178.1
5.2
6.9
7.1
7.2
7.7
8.4
8.9
9
9.9
10.0
10.1
5.2
11.4
11.5
11.8
11.9
13
13.1
13.9
7.2
14.6
14.6
7.4
7.7
16.1
16.7
17.0
8.9
9
10.0
10.1
21.2
21.2
11.5
11.8
12.2
13
13.1
14
14.6
15.7
16.0
16.1
17.0
QL
n1= 2880 min-1
n1= 1400 min-1
3587
3858
3872
4375
4427
4993
6279
7.5 kW
555
417
402
396
374
340
322
317
288
287
282
280
251
250
243
239
220
218
205
200
195
195
194
188
178
172
169
162
159
144
142
135
135
126
122
118
111
110
103
98
92
90
89
85
FS’
1.4
0.9
1.3
1.7
0.8
1.0
1.1
150
132
150
170
132
150
170
n1= 2860 min-1
n1= 1440 min-1
122.6
155
169.2
163
172
189
200
204
224
237.1
229
243.4
256
258
265
284.1
293
295
314
323
348.2
348.2
350.4
343
363
396.7
403.6
398
404
471.0
454
504.7
504.7
513
526
574.8
582
587
626
691.6
704
747
721
801.5
2.3
1.4
2.1
2
3.1
1.3
2.9
1.7
1.2
1.9
1.6
2.1
1.1
1.5
2.6
1.8
1.4
2.4
1
1.3
3.0
1.6
2.2
2
2.6
1.4
2.7
1.8
1.1
2.1
1.1
2.1
1.1
1
1.6
1.7
0.9
1.5
0.9
1.7
1
2.3
1.6
1.5
80
71*
80
90*
112
71*
112
90*
71*
80
90*
100
71*
90*
112
80
90*
112
71*
90*
100
80
100
112
112
80
100
112
90*
100
90*
100
80
90*
112
100
90*
112
90*
100
90*
132
112
100
112B 2
112BL 4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL4
112BL 2
132M 4
112BL2
112BL 2
112BL2
112BL 2
112BL 2
112BL 2
112BL 2
112BL 2
112BL 2
112BL2
112BL 2
132M4
112BL 2
112BL 2
112BL 2
112BL2
112BL 2
112BL 2
112BL 2
132M 4
112BL2
112BL2
132M4
132M 4
112BL 2
112BL2
112BL2
132M 4
132M 4
132M4
132M 4
112BL2
112BL2
132M 4
132M 4
132M4
132M 4
132M 4
132M 4
132M4
132M 4
132M 4
132M 4
132M4
1.7
n2
min-1
ir
T2
Nm
7.5 kW
98
92
90
89
85
85
81
80
80
72
71
69
68
68
67
65
63
61
59
59
59
56
56
52
49
48
46
46
45
44
43
42
40
39
38
36
35
35
34
33
32
32
31
29
28
27
27
27
27
25
25
24
22
22
22
22
21
21
14.6
15.7
16.0
16.1
17.0
17.0
17.7
17.9
17.9
20.1
20.3
20.9
21.2
21.2
21.7
22.3
23
23.6
24.3
24.6
24.6
25.6
25.7
27.5
29.4
30.3
31.0
31.2
31.9
32.8
33.4
34.5
36.3
36.9
38.2
40.5
40.7
41.7
42.6
43.2
44.9
45.6
46.0
49.8
51.3
52.6
52.6
54.3
54.3
57.3
57.4
59.4
64.0
64.0
65.1
66.7
68.9
68.9
692
704
747
721
802
802
794
839
803
901
947
937
1002
1002
1012
996
1029
1058
1137
1162
1162
1146
1149
1283
1317
1416
1466
1458
1509
1468
1578
1613
1697
1726
1711
1912
1924
1951
1994
1933
2101
2130
2152
2331
2423
2484
2461
2538
2538
2679
2712
2775
2994
2994
3045
3119
3222
3222
FS’
n1= 2860 min-1
n1= 1440 min-1
1.7
1
2.3
1.6
2.9
1.5
0.9
2.1
1.6
0.9
2.1
1.4
2.1
1.1
2.2
1.8
0.8
1.3
2.0
2.0
1.0
1.2
0.8
2.1
1.3
3.5
0.8
2.2
1.5
1.2
2.8
3.1
2.1
2.9
1
1.1
2.1
1.8
2.5
0.9
1.7
3.5
2.3
3.2
1.9
0.9
1.4
2.0
3.0
1.3
1.5
1.8
3.5
2.5
1.1
1.6
3.3
2.3
n2
min-1
QL
100
90*
132
112
125
100
90*
132
112
90*
132
112
125
100
132
112
90*
112
132
125
100
112
90*
132
112
150
100
132
125
112*
140
150
132
150
112*
125
140
132
150
112
132
170
150
170
140
125
132
150
170
132
140
150
190
170
132
150
190
170
112BL 2
132M 4
132M4
132M 4
132M 4
132M 4
132M4
132M4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M4
132M4
132M 4
132M 4
132M 4
132M 4
132M 4
132M4
132M4
132M 4
132M 4
132M 4
132M 4
132M 4
132M4
132M 4
132M4
132M 4
132M4
132M 4
132M 4
132M 4
132M 4
132M4
132M4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M4
132M4
132M 4
132M 4
132M 4
132M 4
132M4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
ir
T2
Nm
7.5 kW
20
19.2
19.2
18.9
18.3
17.6
17.6
17.3
16.7
16.1
16.1
15.9
15.2
14.7
14.6
14.5
14.2
13.2
13.1
12.6
12.6
11.6
11.6
11.1
10.6
10.6
10.2
9.7
9.6
9.2
8.9
8.9
8.1
8.1
7.3
7.3
72.3
75.0
75.0
76.3
78.7
81.7
81.7
83.0
86.0
89.4
89.4
90.8
94.6
97.9
98.4
99.4
101.7
109.4
109.8
113.9
113.9
124.1
124.1
129.5
135.8
135.8
141.6
147.8
149.4
155.7
162.7
162.7
178.1
178.1
196.0
196.0
3417
3508
3508
3566
3678
3821
3821
3882
4022
4181
4181
4247
4423
4575
4601
4648
4755
5115
5134
5327
5327
5801
5801
6053
6348
6348
6619
6913
6986
7280
7607
7607
8325
8325
9162
9162
FS’
n1= 2860 min-1
n1= 1440 min-1
1.2
2.1
3.0
1.0
1.4
2.7
2.0
0.9
1.2
2.5
1.8
0.8
1.1
2.3
1.6
0.8
1.1
0.7
1.0
2.0
1.4
1.3
1.8
0.8
1.7
1.2
0.8
1.5
1.1
0.7
1.4
1.0
1.2
0.8
1.1
0.7
n2
min-1
QL
140
170
190
132
150
190
170
132
150
190
170
132
150
190
170
132
150
132
150
190
170
170
190
150
190
170
150
190
170
150
190
170
190
170
190
170
112BL 2
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
132M 4
ir
T2
Nm
9.2 kW
281
201
196
196
189
163
161
145
143
143
127
123
119
119
111
99
99
92
92
91
90
85
85
82
81
81
78
72
69
68
68
67
67
63
61
60
59
59
59
57
56
53
49
48
47
45
44
43
42
40
39
38
36
36
35
35
34
32
5.2
7.2
7.4
7.4
7.7
8.9
9
10.0
10.1
10.2
11.5
11.8
12.2
12.2
13.1
14.6
14.6
15.7
15.7
16.0
16.1
17.0
17.0
17.7
17.9
17.9
18.6
20.3
20.9
21.2
21.2
21.6
21.7
22.9
23.6
24.3
24.6
24.6
24.6
25.6
25.9
27.5
29.4
30.3
31.2
31.9
32.8
33.4
34.5
36.3
36.9
38.2
40.5
40.7
41.7
41.8
42.6
44.9
293
393
422
422
417
485
492
568
553
579
625
641
693
693
715
834
834
895
857
910
878
966
966
968
979
1022
1061
1153
1141
1208
1208
1228
1233
1302
1288
1385
1400
1400
1402
1395
1472
1563
1604
1725
1776
1819
1788
1902
1964
2067
2103
2085
2304
2319
2377
2383
2429
2559
FS’
QL
n1= 1450 min-1
1.7
1.1
3.1
1.8
1.6
1.5
0.9
1.7
0.9
3.1
0.8
1.3
2.7
1.4
1.2
2.6
1.4
3.0
0.8
1.9
1.3
2.4
1.2
0.8
1.3
1.8
3.0
1.7
1.1
1.8
1.0
3.2
1.8
3.2
1
1.7
1.6
0.9
3.1
1
3.1
1.7
1.1
2.9
1.8
1.2
1
2.3
2.5
1.7
2.4
0.8
0.9
1.8
1.5
3.1
2.1
1.4
100
90*
125
100
112
112
90*
100
90*
125
90*
112
125
100
112
125
100
150
90*
132
112
125
100
90*
112
132
150
132
112
125
100
150
132
150
112
132
125
100
140
112
150
132
112
150
132
125
112
140
150
132
150
112
125
140
132
170
150
132
132ML 4
132ML4
132ML 4
132ML4
132ML4
132ML 4
132ML 4
132ML 4
132ML4
132ML 4
132ML4
132ML 4
132ML 4
132ML4
132ML4
132ML 4
132ML4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
132ML4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML4
132ML4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML4
132ML 4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
132ML4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
43
1.7
n2
min-1
ir
T2
Nm
9.2 kW
32
31
29
28
28
28
27
27
27
25
25
24
23
23
22
22
21
21
20
19.3
19
19.0
18.4
17.7
18
17.5
16.9
16.2
16.2
16.0
15.3
14.8
14.7
14.3
13.2
12.7
12.7
11.7
11.7
11.2
10.7
10.7
9.8
9.7
8.9
8.9
8.1
8.1
7.4
44
FS’
n1= 1450 min-1
45.6 2595
46.0 2622
49.8 2839
51.3 2921
52.6 2994
52.6 2997
54.3 3092
54.3 3092
54.3 3092
57.3 3263
57.4 3270
59.4 3381
64.0 3648
64.0 3648
65.1 3709
66.7 3800
68.9 3925
68.9 3925
72.3 4119
75.0 4274
75.0 4274
76.3 4344
78.7 4481
81.7 4654
81.7 4654
83.0 4730
86.0 4900
89.4 5093
89.4 5093
90.8 5174
94.6 5389
97.9 5574
98.4 5605
101.7 5793
109.8 6254
113.9 6489
113.9 6489
124.1 7066
124.1 7066
129.5 7374
135.8 7733
135.8 7733
147.8 8421
149.4 8510
162.7 9268
162.7 9268
178.1 10141
178.1 10141
196.0 11161
2.9
1.9
2.6
1.5
0.8
1.2
1.6
3.4
2.4
1.1
1.3
1.5
2.9
2.1
0.9
1.3
2.7
1.9
1.0
1.8
2.5
0.8
1.1
2.3
1.6
0.7
1.0
2.1
1.5
0.7
0.9
1.9
1.3
0.9
0.8
1.6
1.2
1.1
1.5
0.7
1.4
1.0
1.2
0.9
1.1
0.8
1.0
0.7
0.9
n2
min-1
QL
170
150
170
140
125
132
150
190
170
132
140
150
190
170
132
150
190
170
140
170
190
132
150
190
170
132
150
190
170
132
150
190
170
150
150
190
170
170
190
150
190
170
190
170
190
170
190
170
190
132ML 4
132ML 4
132ML 4
132ML 4
132ML4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
132ML 4
ir
T2
Nm
11 kW
571
407
397
384
331
326
295
290
282
257
250
242
226
224
210
201
196
190
173
164
146
143
139
139
132
124
120
120
120
111
99
95
93
92
91
90
86
81
81
78
72
72
70
69
68
67
65
64
62
60
59
59
57
56
53
51
49
48
47
47
5.2
7.2
7.4
7.7
8.9
9
10.0
10.1
5.2
11.5
11.8
12.2
13
13.1
14
14.6
7.4
7.7
17.0
8.9
20.1
10.2
21.2
21.2
22.3
11.8
12.2
24.6
24.6
13.1
14.6
31.0
15.7
31.9
16.0
16.1
17.0
17.9
17.9
18.6
20.2
20.3
20.9
21.2
21.6
21.7
22.3
22.9
23.6
24.3
24.6
24.6
25.6
25.9
27.5
28.8
29.4
30.3
30.9
31.2
175
232
252
246
286
290
338
326
353
368
378
413
418
422
450
497
509
497
576
578
647
697
720
720
716
764
834
834
834
852
1004
1053
1066
1084
1084
1046
1163
1218
1166
1264
1385
1374
1360
1455
1463
1469
1446
1552
1535
1650
1686
1689
1663
1755
1863
1955
1912
2056
2094
2116
FS’
n1= 2940 min-1
n1= 1455 min-1
2.6
1.4
2.8
2.2
2
1.2
2.7
1.1
2.8
1.1
1.8
2.2
1
1.7
1.2
2.1
2.6
1.3
1.9
1.2
0.9
2.6
2.7
1.5
1.9
1.1
2.3
2.5
1.3
1
2.1
1.0
2.5
1.9
1.6
1.1
2.0
1.5
1.1
2.5
3.0
1.5
0.9
1.5
2.7
1.5
1.2
2.7
0.9
1.4
1.4
2.5
0.8
2.6
1.4
3.8
0.9
2.4
3.6
1.5
n2
min-1
QL
100
90*
100
112*
112*
90*
100
90*
125
90*
112*
100
90*
112*
90*
100
125
112*
100
112*
90*
125
125
100
112*
112*
125
125
100
112*
125
100
150
125
132
112*
125
132
112*
150
140
132
112*
125
150
132
112*
150
112*
132
125
140
112*
150
132
170
112*
150
170
132
132M 2
160M 4
132M2
132M 2
132M2
132M 2
132M 2
132M 2
132M2
132M 2
160M4
132M 2
132M 2
132M2
132M 2
132M 2
132M 2
132M2
160M4
160M 4
132M2
160M 4
132M 2
160M4
132M2
132M2
132M 2
160M 4
160M4
132M2
132M2
160M 4
160M4
132M2
160M 4
132M2
160M 4
160M 4
160M4
160M 4
160M 4
160M 4
160M4
160M 4
160M 4
160M4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M4
160M4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
ir
T2
Nm
11 kW
46
44
44
42
41
41
40
39
36
35
35
35
34
32
32
32
32
29
29
28
28
27
27
27
25
25
25
23
23
22
22
21
21
20
19.4
19.4
19.1
18.5
17.8
17.8
16.9
16.3
16.3
15.4
14.9
14.8
14.3
13.3
12.8
12.8
11.7
11.7
10.7
10.7
9.8
9.7
8.9
8.9
8.2
7.4
31.9
32.8
33.4
34.5
35.7
72.3
36.3
36.9
40.7
41.7
41.8
41.8
42.6
44.9
45.6
45.6
46.0
49.8
49.8
51.3
52.6
54.3
54.3
54.3
57.3
57.4
59.4
64.0
64.0
65.1
66.7
68.9
68.9
72.3
75.0
75.0
76.3
78.7
81.7
81.7
86.0
89.4
89.4
94.6
97.9
98.4
101.7
109.8
113.9
113.9
124.1
124.1
135.8
135.8
147.8
149.4
162.7
162.7
178.1
196.0
FS’
QL
n1= 2940 min-1
n1= 1455 min-1
2191
2131
2290
2341
2423
2455
2463
2506
2792
2832
2839
2839
2894
3050
3092
3092
3124
3383
3383
3518
3572
3684
3684
3684
3888
3937
4028
4346
4346
4420
4528
4677
4677
4960
5093
5093
5176
5339
5546
5546
5838
6069
6069
6421
6641
6679
6902
7452
7732
7732
8420
8420
9214
9214
10034
10140
11043
11043
12084
13299
1.0
0.8
1.9
2.1
3.1
1.5
1.4
2.0
1.5
1.2
3.7
2.6
1.7
1.1
3.4
2.4
1.6
3.1
2.2
1.3
1.0
1.4
2.9
2.0
0.9
1.1
1.2
2.4
1.7
0.8
1.1
2.2
1.6
0.8
1.5
2.1
0.7
0.9
1.9
1.4
0.9
1.7
1.2
0.8
1.6
1.1
0.7
0.7
1.4
1.0
0.9
1.2
1.1
0.8
1.0
0.7
1.0
0.7
0.8
0.8
125
112*
140
150
170
140
132
150
140
132
190
170
150
132
190
170
150
190
170
140
132
150
190
170
132
140
150
190
170
132
150
190
170
140
170
190
132
150
190
170
150
190
170
150
190
170
150
150
190
170
170
190
190
170
190
170
190
170
190
190
132M 2
160M 4
160M4
160M 4
160M4
160M 4
160M 4
132M2
160M 4
160M 4
160M4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M4
160M 4
160M 4
160M 4
160M 4
160M 4
160M4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
160M 4
1.7
n2
min-1
ir
T2
Nm
15 kW
563
402
391
379
326
321
291
286
282
253
247
238
238
221
207
198
198
196
190
185
182
171
171
164
162
156
143
143
139
137
137
134
130
124
120
119
118
118
113
112
106
99
97
94
93
91
90
86
83
81
81
78
78
72
72
69
68
67
65
64
61
60
59
59
58
5.2
7.2
7.4
7.7
8.9
9
10.0
10.1
5.2
11.5
11.8
12.2
12.2
13.1
14
14.6
14.6
7.4
7.7
15.7
16.0
17.0
17.0
8.9
17.9
18.6
10.2
20.3
20.9
21.2
21.2
21.7
22.3
11.8
12.2
24.3
24.6
24.6
25.6
25.9
27.5
14.6
14.9
15.5
15.7
16.0
16.1
17.0
17.5
17.9
17.9
18.6
18.6
20.2
20.3
21.2
21.6
21.7
22.3
22.9
23.7
24.3
24.6
24.6
25.2
242
321
348
340
395
401
468
451
482
509
523
571
571
583
622
687
687
693
678
729
742
796
796
788
833
865
950
940
930
995
995
1005
989
1042
1138
1129
1154
1154
1138
1200
1275
1369
1398
1433
1454
1478
1427
1587
1618
1660
1590
1724
1724
1889
1874
1984
1995
2004
1972
2116
2194
2251
2299
2303
2337
FS’
n1= 2900 min-1
n1= 1455 min-1
1.9
1
2.0
1.6
1.5
0.9
1.9
0.8
2.1
0.8
1.3
3.0
1.6
1.2
0.8
2.9
1.5
1.9
1
3.4
2.1
2.6
1.4
0.9
2.0
3.4
1.9
1.9
1.1
2.0
1.1
2.0
1.4
0.8
1.7
1.9
1.8
1.0
1
3.4
1.9
1.6
3.0
3.2
1.9
1.2
0.8
1.4
3.1
1.1
0.8
3.2
1.9
2.2
1.1
1.1
2.0
1.1
0.9
2.0
3.2
1.0
1.0
1.9
3.2
n2
min-1
QL
100*
90*
100*
112*
112*
90*
100*
90*
125
90*
112*
125
100*
112*
90*
125
100*
125
112*
150
132
125
100*
112*
132
150
125
132
112*
125
100*
132
112*
112*
125
132
125
100*
112*
150
132
125
140
170
150
132
112*
125
170
132
112*
170
150
140
132
125
150
132
112*
150
170
132
125
140
170
132ML 2
160L 4
132ML2
132ML 2
132ML2
132ML 2
132ML 2
132ML 2
132ML2
132ML 2
160L4
132ML 2
132ML 2
132ML2
132ML2
132ML 2
132ML 2
132ML2
132ML2
160L4
160L 4
132ML 2
132ML 2
132ML2
132ML2
160L 4
132ML 2
132ML 2
160L4
132ML 2
132ML 2
132ML2
132ML2
132ML 2
132ML 2
160L 4
160L4
132ML 2
132ML2
132ML2
132ML 2
132ML 2
132ML 2
160L4
160L4
160L 4
160L 4
160L 4
160L 4
160L4
160L 4
160L 4
160L 4
160L 4
160L 4
160L4
160L 4
160L4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L4
160L4
160L 4
ir
T2
Nm
15 kW
56
53
51
48
47
47
47
46
44
42
41
41
40
39
36
35
35
35
34
32
32
32
32
29
29
28
28
27
27
27
25
25
25
23
23
22
21
21
19.4
19.4
18.5
17.8
17.8
16.3
16.3
14.9
14.8
12.8
12.8
11.7
11.7
10.7
9.8
8.9
25.9
27.5
28.8
30.3
30.9
30.9
31.2
31.9
33.4
34.5
35.7
35.7
36.3
36.9
40.7
41.7
41.8
41.8
42.6
44.9
45.6
45.6
46.0
49.8
49.8
51.3
52.6
54.3
54.3
54.3
57.3
57.4
59.4
64.0
64.0
66.7
68.9
68.9
75.0
75.0
78.7
81.7
81.7
89.4
89.4
97.9
98.4
113.9
113.9
124.1
124.1
135.8
147.8
162.7
FS’
n1= 2900 min-1
n1= 1455 min-1
2393
2540
2665
2803
2856
2856
2885
2988
3122
3192
3304
3304
3358
3417
3807
3862
3871
3871
3946
4159
4216
4216
4260
4613
4613
4797
4870
5024
5024
5024
5302
5369
5493
5927
5927
6175
6377
6377
6945
6945
7281
7563
7563
8276
8276
9056
9108
10544
10544
11482
11482
12564
13683
15058
1.9
1.1
2.8
1.8
3.6
2.6
1.1
0.8
1.4
1.6
3.2
2.3
1.0
1.5
1.1
0.9
2.7
1.9
1.3
0.8
2.5
1.8
1.2
2.3
1.6
0.9
0.7
1.0
2.1
1.5
0.7
0.8
0.9
1.8
1.3
0.8
1.6
1.2
1.1
1.5
0.7
1.4
1.0
1.3
0.9
1.2
0.8
1.0
0.7
0.7
0.9
0.8
0.8
0.7
n2
min-1
QL
150
132
170
150
190
170
132
125
140
150
190
170
132
150
140
132
190
170
150
132
190
170
150
190
170
140
132
150
190
170
132
140
150
190
170
150
190
170
170
190
150
190
170
190
170
190
170
190
170
170
190
190
190
190
ir
T2
Nm
132ML 2
160L 4
18.5 kW
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L4
160L4
160L 4
160L 4
160L 4
160L 4
160L 4
160L4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L4
160L 4
160L 4
160L 4
160L 4
160L 4
160L4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
160L 4
565
392
380
327
286
283
247
239
222
199
197
185
182
181
172
162
162
156
144
144
137
135
134
127
123
120
120
119
118
118
114
113
106
100
99
98
96
94
94
93
91
86
83
83
81
78
78
78
72
72
69
68
67
64
62
62
60
59
59
5.2
7.4
7.7
8.9
10.2
5.2
11.8
12.2
13.1
14.6
7.4
15.7
16.0
16.1
17.0
17.9
17.9
18.6
10.2
20.3
21.2
21.6
21.7
22.9
23.6
12.2
24.3
12.3
24.6
24.6
25.6
25.9
27.5
14.6
29.4
14.9
30.3
15.5
15.5
15.7
16.0
17.0
17.5
17.5
17.9
18.6
18.6
18.6
20.2
20.3
21.2
21.6
21.7
22.9
23.7
23.7
24.3
24.6
24.6
297
428
418
486
586
608
643
702
716
844
875
897
912
880
978
1024
981
1063
1199
1156
1223
1230
1236
1305
1291
1436
1388
1447
1418
1420
1398
1475
1567
1728
1608
1765
1729
1808
1808
1835
1866
2003
2043
2043
2096
2176
2176
2176
2384
2366
2504
2518
2529
2671
2769
2769
2841
2902
2907
FS’
QL
n1= 2910 min-1
n1= 1460 min-1
n1= 970 min-1
3.1
2.8
1.3
1.2
2.8
1.6
1.1
2.5
1
2.3
1.5
2.8
1.7
1.1
2.2
1.6
1
2.8
1.5
1.6
1.6
2.9
1.6
2.9
0.9
1.3
1.5
2.8
1.5
2.8
0.8
2.8
1.6
1.2
0.9
2.4
2.6
3.6
2.5
1.5
0.9
1.1
3.4
2.4
0.9
3.6
2.6
1.5
1.8
0.8
0.9
1.5
0.9
1.6
3.5
2.5
0.8
0.8
1.5
125*
125*
112*
112*
125*
125*
112*
125*
112*
125
125*
150
132
112*
125*
132
112*
150
125*
132
125
150
132
150
112*
125*
132
140
125 *
140
112*
150
132
125*
112*
140
150
190
170
150
132
125*
190
170
132
190
170
150
140
132
125*
150
132
150
190
170
132
125*
140
160L 2
180M 4
200L 6
160L 2
160L 2
160L 2
160L 2
160L 2
180M 4
160L 2
160L 2
160L 2
160L 2
180M 4
160L 2
160L 2
160L 2
160L 2
160L 2
160L 2
160L 2
180M 4
160L 2
160L 2
160L 2
160L 2
160L 2
160L 2
180M 4
160L 2
180M 4
160L 2
160L 2
160L 2
160L 2
160L 2
180M 4
160L 2
180M 4
160L 2
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
45
1.7
n2
min-1
ir
T2
Nm
18.5 kW
58
58
56
53
51
51
48
47
47
47
44
42
41
41
40
40
36
35
35
35
34
32
32
32
32
29
29
27
27
27
25
23
23
21
21
19.5
19.5
17.9
17.9
16.3
16.3
14.9
14.8
12.8
11.8
10.8
46
25.2
25.2
25.9
27.5
28.8
28.8
30.3
30.9
30.9
31.2
33.4
34.5
35.7
35.7
36.3
36.9
40.7
41.7
41.8
41.8
42.6
44.9
45.6
45.6
46.0
49.8
49.8
54.3
54.3
54.3
59.4
64.0
64.0
68.9
68.9
75.0
75.0
81.7
81.7
89.4
89.4
97.9
98.4
113.9
124.1
135.8
FS’
n1= 2910 min-1
n1= 1460 min-1
n1= 970 min-1
2950
2950
3020
3207
3365
3365
3539
3605
3605
3642
3942
4029
4171
4171
4239
4313
4806
4875
4887
4887
4981
5250
5322
5322
5378
5824
5824
6342
6342
6342
6934
7481
7481
8050
8050
8766
8766
9547
9547
10447
10447
11432
11497
13309
14494
15861
3.3
2.5
1.5
0.8
3.0
2.2
1.4
2.8
2.1
0.9
1.1
1.2
2.5
1.8
0.8
1.2
0.9
0.7
2.1
1.5
1.0
0.7
2.0
1.4
0.9
1.8
1.3
0.8
1.7
1.2
0.7
1.4
1.0
1.3
0.9
0.9
1.2
1.1
0.8
1.0
0.7
0.9
0.7
0.8
0.7
0.7
n2
min-1
QL
190
170
150
132
190
170
150
190
170
132
140
150
190
170
132
150
140
132
190
170
150
132
190
170
150
190
170
150
190
170
150
190
170
190
170
170
190
190
170
190
170
190
170
190
190
190
160L 2
180M 4
200L 6
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
180M 4
ir
T2
Nm
22 kW
568
394
288
283
240
200
197
196
189
186
183
172
167
163
157
145
144
144
142
138
136
135
128
123
120
120
119
119
119
116
113
107
102
100
98
94
94
93
93
92
91
91
88
86
83
83
83
83
83
83
81
81
81
78
78
78
78
78
5.2
7.4
10.2
5.2
12.2
14.6
7.4
14.9
15.5
15.7
16.0
17.0
17.5
17.9
18.6
20.2
20.3
10.2
10.3
21.2
21.6
21.7
22.9
23.7
24.3
12.2
12.3
24.6
24.6
25.2
25.9
27.5
28.8
14.6
14.9
15.5
15.5
15.7
15.7
31.9
16.0
16.0
33.4
17.0
17.5
17.5
17.5
17.5
17.5
17.5
17.9
17.9
17.9
18.6
18.6
18.6
18.6
18.6
351
506
693
704
830
999
1014
1020
1045
1061
1078
1157
1181
1211
1258
1378
1367
1389
1406
1447
1455
1462
1544
1600
1642
1663
1676
1678
1680
1705
1746
1853
1945
2001
2043
2094
2094
2125
2125
2180
2161
2161
2278
2319
2365
2365
2365
2365
2365
2365
2427
2427
2427
2519
2519
2519
2519
2519
FS’
n1= 2925 min-1
n1= 1460 min-1
n1= 975 min-1
2.6
2.4
2.4
1.4
2.1
2.0
1.3
3.8
4.0
2.3
1.4
1.8
3.9
1.4
2.3
2.8
1.3
1.3
2.8
1.4
2.5
1.4
2.5
4.0
1.3
1.1
2.4
1.3
2.3
4.0
2.4
1.3
3.5
1.1
2.1
3.1
2.2
1.3
1.3
0.9
0.8
0.8
1.8
1.0
3.0
3.0
3.0
2.1
2.1
2.1
0.7
0.7
0.7
3.1
3.1
3.1
2.2
2.2
n2
min-1
QL
125*
125*
125*
125*
125*
125*
125*
140
170
150
132
125*
170
132
150
140
132
125*
140
125*
150
132
150
170
132
125*
140
125*
140
170
150
132
170
125*
140
190
170
150
150
125*
132
132
140
125*
190
190
190
170
170
170
132
132
132
190
190
190
170
170
180M 2
180L 4
200L 6
180M 2
180M 2
180M 2
180L 4
180M 2
180M 2
180L 4
180M 2
180M 2
180M 2
180M 2
180M 2
180M 2
180M 2
180M 2
180M 2
180M 2
180L 4
180L 4
180M 2
180M 2
180M 2
180M 2
180M 2
180M 2
180L 4
180L 4
180M 2
180M 2
180M 2
180M 2
180M 2
180M 2
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180M 2
180L 4
180L 4
180M 2
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
ir
T2
Nm
22 kW
78
78
78
78
72
72
72
72
72
68
68
68
67
67
64
64
64
62
62
62
62
62
60
60
59
58
58
58
58
57
56
56
56
53
53
51
51
51
51
51
48
48
47
47
47
47
47
47
44
42
41
41
40
40
40
40
35
35
18.6
18.6
18.6
18.6
20.2
20.3
20.3
20.3
40.7
21.6
21.6
21.6
21.7
21.7
22.9
22.9
22.9
23.7
23.7
23.7
23.7
23.7
24.3
24.3
24.6
25.2
25.2
25.2
25.2
51.3
25.9
25.9
25.9
27.5
27.5
57.4
28.8
28.8
28.8
28.8
30.3
30.3
30.9
30.9
30.9
30.9
31.2
31.2
33.4
34.5
35.7
35.7
36.3
36.3
36.9
36.9
41.8
41.8
FS’
QL
n1= 2925 min-1
n1= 1460 min-1
n1= 975 min-1
2519
2520
2520
2520
2760
2739
2739
2739
2778
2915
2915
2915
2929
2929
3093
3093
3093
3206
3206
3206
3206
3206
3290
3290
3366
3415
3415
3415
3415
3499
3497
3497
3497
3713
3713
3917
3896
3896
3896
3896
4098
4098
4174
4174
4174
4174
4217
4217
4564
4666
4829
4829
4908
4908
4994
4994
5658
5658
2.2
1.3
1.3
1.3
1.5
0.7
0.7
0.7
1.4
1.3
1.3
1.3
0.8
0.8
1.4
1.4
1.4
3.0
3.0
2.2
2.2
2.2
0.7
0.7
1.3
2.9
2.9
2.2
2.2
1.2
1.3
1.3
1.3
0.7
0.7
1.0
2.6
2.6
1.9
1.9
1.2
1.2
2.5
2.5
1.8
1.8
0.7
0.7
1.0
1.1
2.2
1.6
0.7
0.7
1.0
1.0
1.9
1.9
180M 2
180L 4
200L 6
170
150
150
150
140
132
132
132
140
150
150
150
132
132
150
150
150
190
190
170
170
170
132
132
140
190
190
170
170
140
150
150
150
132
132
140
190
190
170
170
150
150
190
190
170
170
132
132
140
150
190
170
132
132
150
150
190
190
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180M 2
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180M 2
180L 4
180L 4
180L 4
180L 4
180L 4
180M 2
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
1.7
n2
min-1
ir
T2
Nm
22 kW
35
35
34
34
32
32
32
32
29
29
29
27
27
27
27
27
27
23
23
23
21
21
21
19.5
19.5
19.5
19.5
17.9
17.9
17.9
16.3
14.9
12.8
12.8
41.8
41.8
42.6
42.6
45.6
45.6
45.6
46.0
49.8
49.8
49.8
54.3
54.3
54.3
54.3
54.3
54.3
64.0
64.0
64.0
68.9
68.9
68.9
75.0
75.0
75.0
75.0
81.7
81.7
81.7
89.4
97.9
113.9
113.9
12.3
14.9
7.6
15.5
15.7
17.5
18.6
18.6
20.2
10.3
21.6
22.9
23.7
24.6
12.3
25.2
25.9
28.8
28.8
1.3
1.3
0.9
0.9
1.7
1.2
1.2
0.8
1.6
1.6
1.1
0.7
0.7
1.4
1.4
1.0
1.0
1.2
0.9
0.9
1.1
1.1
0.8
0.7
0.7
1.0
1.0
0.9
0.7
0.7
0.9
0.8
0.7
0.7
170
170
150
150
190
170
170
150
190
190
170
150
150
190
190
170
170
190
170
170
190
190
170
170
170
190
190
190
170
170
190
190
190
190
n1= 2945 min-1
n1= 1465 min-1
1133
1381
1410
1416
1437
1599
1703
1704
1866
1911
1971
2091
2168
2275
2277
2309
2364
2634
2634
3.3
2.8
2.8
3.0
1.7
2.9
3.0
1.7
2.1
2.1
1.8
1.8
3.0
1.7
1.8
3.0
1.7
3.5
2.6
n2
min-1
QL
n1= 2925 min-1
n1= 1460 min-1
n1= 975 min-1
5658
5658
5768
5768
6162
6162
6162
6227
6743
6743
6743
7343
7343
7343
7343
7343
7343
8663
8663
8663
9321
9321
9321
10151
10151
10151
10151
11054
11054
11054
12096
13237
15411
15411
30 kW
240
197
193
190
187
168
158
158
146
142
137
129
124
120
120
117
114
102
102
FS’
140*
140*
140*
170
150
170
170
150
140*
140*
150
150
170
140*
140*
170
150
190
170
180M 2
180L 4
200L 6
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
180L 4
200L 2
200L 4
200L 2
200L 2
200L 4
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 4
200L 2
200L 2
200L 2
200L 2
200L 4
200L 2
200L 2
200L 2
200L 2
ir
T2
Nm
30 kW
98
95
95
93
88
84
84
79
79
79
73
72
68
64
62
62
60
58
58
57
57
51
51
51
48
47
47
44
42
41
41
40
35
35
32
32
29
29
27
27
23
21
20
17.9
14.9
15.5
15.5
15.7
33.4
17.5
17.5
18.6
18.6
18.6
20.2
40.7
21.6
22.9
23.7
23.7
24.6
25.2
25.2
51.3
25.9
57.4
28.8
28.8
30.3
30.9
30.9
33.4
34.5
35.7
35.7
36.9
41.8
41.8
45.6
45.6
49.8
49.8
54.3
54.3
64.0
68.9
75.0
81.7
FS’
n1= 2945 min-1
n1= 1465 min-1
2777
2846
2846
2888
3085
3214
3214
3424
3424
3425
3751
3762
3962
4203
4357
4357
4574
4641
4641
4740
4752
5305
5295
5295
5569
5673
5673
6202
6340
6563
6563
6787
7690
7690
8374
8374
9164
9164
9979
9979
11773
12667
13794
15022
1.5
2.3
1.6
0.9
1.3
2.2
1.6
2.3
1.6
0.9
1.1
1.0
1.0
1.0
2.2
1.6
0.9
2.1
1.6
0.9
0.9
0.7
1.9
1.4
0.9
1.8
1.3
0.7
0.8
1.6
1.1
0.7
1.4
1.0
1.3
0.9
1.1
0.8
1.1
0.8
0.9
0.8
0.8
0.7
n2
min-1
QL
140 *
190
170
150
140*
190
170
190
170
150
140
140*
150
150
190
170
140*
190
170
140*
150
140*
190
170
150
190
170
140*
150
190
170
150
190
170
190
170
190
170
190
170
190
190
190
190
200L 2
200L 4
200L 4
200L 4
200L 4
200L 4
200L 2
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 2
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 2
200L 4
200L 2
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
200L 4
ir
T2
Nm
37 kW
389
287
241
197
191
191
188
169
169
158
158
158
146
137
129
124
124
120
117
117
114
102
102
95
95
88
84
84
79
79
72
62
62
58
58
58
51
51
48
48
41
41
35
35
32
32
30
30
27
23
21
7.6
10.3
12.3
14.9
15.5
15.5
15.7
17.5
17.5
18.6
18.6
18.6
20.2
21.6
22.9
23.7
23.7
24.6
25.2
25.2
25.9
28.8
28.8
15.5
15.5
33.4
17.5
17.5
18.6
18.6
40.7
23.7
23.7
25.2
25.2
51.3
28.8
28.8
30.9
30.9
35.7
35.7
41.8
41.8
45.6
45.6
49.8
49.8
54.3
64.0
68.9
FS’
QL
n1= 2950 min-1
n1= 1475 min-1
863
1170
1395
1701
1743
1743
1769
1969
1969
2097
2097
2098
2298
2427
2575
2669
2669
2802
2843
2843
2911
3243
3243
3486
3486
3799
3938
3938
4194
4194
4632
5338
5338
5686
5686
5836
6486
6486
6949
6949
8039
8039
9420
9420
10258
10258
11225
11225
12224
14421
15517
4.2
3.1
2.7
2.3
3.4
2.4
1.4
3.3
2.3
3.4
2.4
1.4
1.7
1.5
1.5
3.3
2.4
1.4
3.2
2.4
1.4
2.8
2.1
1.8
1.3
1.1
1.8
1.3
1.9
1.3
0.8
1.8
1.3
1.7
1.3
0.7
1.5
1.2
1.5
1.1
1.3
0.9
1.1
0.8
1.0
0.7
0.9
0.7
0.9
0.7
0.7
140*
140*
140*
140*
190
170*
150*
190
170*
190
170*
150*
140*
150*
150*
190
170*
140*
190
170*
150*
190
170*
190
170*
140*
190
170*
190
170*
140*
190
170*
190
170*
140*
190
170*
190
170*
190
170*
190
170*
190
170*
190
170*
190
190
190
200L 2
225S 4
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
200L 2
225S 4
225S 4
200L 2
225S 4
225S 4
225S 4
225S 4
200L 2
225S 4
225S 4
225S 4
225S 4
200L 2
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
225S 4
47
1.7
n2
min-1
ir
T2
Nm
45 kW
190
190
168
168
158
158
124
124
117
117
102
102
95
95
84
84
79
79
62
62
58
58
51
51
48
48
41
41
35
35
32
30
27
48
15.5
17.5
18.6
23.7
25.2
28.8
15.5
17.5
18.6
23.7
25.2
28.8
30.9
35.7
41.8
45.6
2.0
2.8
1.9
2.7
2.0
2.8
2.0
2.7
2.0
2.6
1.7
2.3
1.1
1.5
1.0
1.5
1.1
1.5
1.1
1.5
1.1
1.4
1.0
1.3
0.9
1.2
0.8
1.1
0.7
0.9
0.8
0.8
0.7
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
170*
190*
190*
190*
190*
n1= 2950 min-1
n1= 1475 min-1
2591
2927
3117
3967
4226
4820
5182
5853
6235
7934
8451
9641
10330
11950
14002
15248
2.3
2.2
2.3
2.2
2.1
1.9
1.2
1.2
1.3
1.2
1.2
1.0
1.0
0.9
0.7
0.7
n2
min-1
QL
n1= 2945 min-1
n1= 1475 min-1
15.5 2123
15.5 2123
17.5 2399
17.5 2399
18.6 2555
18.6 2555
23.7 3251
23.7 3251
25.2 3463
25.2 3463
28.8 3951
28.8 3951
15.5 4240
15.5 4240
17.5 4789
17.5 4789
18.6 5101
18.6 5101
23.7 6492
23.7 6492
25.2 6915
25.2 6915
28.8 7888
28.8 7888
30.9 8451
30.9 8451
35.7 9777
35.7 9777
41.8 11456
41.8 11456
45.6 12476
49.8 13652
54.3 14867
55 kW
191
169
158
124
117
102
95
84
79
62
58
51
48
41
35
32
FS’
190*
190*
190*
190*
190*
190*
190*
190*
190*
190*
190*
190*
190*
190*
190*
190*
225M 2
225M 4
225M 2
225M 2
225M 2
225M 2
225M 2
225M 2
225M 2
225M 2
225M 2
225M 2
225M 2
225M 2
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
225M 4
ir
T2
Nm
75 kW
95
84
79
62
58
51
48
15.5
17.5
18.6
23.7
25.2
28.8
30.9
FS’
QL
n1= 2975 min-1
n1= 1470 min-1
7090
8009
8531
10856
11564
13191
14134
0.9
0.9
0.9
0.9
0.8
0.8
0.7
190*
190*
190*
190*
190*
190*
190*
280S 2
250M 4
250M 4
250M 4
250M 4
250M 4
250M 4
250M 4
250M 4
NOTE.
The power indicated is based on
the mechanical capacities of the
gearboxes. For the gearboxes marked
with (*) it is also necessary to obey the
therminal capacity like shown in Table
1.5 on page 7.
250M 2
250M 4
250M 2
250M 2
250M 2
250M 2
250M 2
250M 2
250M 4
250M 4
250M 4
250M 4
250M 4
250M 4
250M 4
250M 4
250M 4
250M 4
Hb
22.5°
IEC
Gp Fp
22.5°
H
Y
D
Rp
1.8Dimensions
1
Dimensions gearboxes
OMF
OMF
K
OMF 100-125-140
N
N
K
Kb
Kb
F1-F2
100
80-100
125-140
125-140
C
C
c1
c1
Vp
Db
Db
Hb
Hb
V22.5°
IEC
IEC
P
D
Fp
Gp
G F
OMF
K
F1-F2
H
H
D
Rp
1
1
U(F2)
Z
N
Kb
Db
80-100
125-140
C
a2f
c1
tf
Hb
1
Up U(F1)
h
h
R
22.5°
Y
Y
IEC
Pp
Sb
Sb
G F
R
D
U(F1)
h
V
bf
P
Sb
H
Y
U(F2)
1
af
Z
For QL mounting dimensions refer to page 51.
a2f
1
tf
bf
af
49
1.8Dimensions
QL
af
a2f
bf
tf
C
c1
D
H7
h
H
N
Db
Kb
Hb
Sb
100
230
159
73
M12
77,5
7,0
45
(40)
(50)
113
120
105,5
13
170
95
13
125
300
210
88
M14
90
9,0
55
(50)
(60)
140
145
140,5
16
215
118
15
140
390
270
130
M16
110
6,5
70
(60)
182
190
175,5
26
275
150
18
OM
Gp
H7
Pp
Rp
Up
Vp
100
110
70,5
125
3
M8
125
135
81,0
150
3
M10
140
170
103,5
200
4
M12
QL
F
G
F8
P
R
U
V
Z
180
125
215
5
13
14
F1
250
F1
300
230
150
265
5
15
16
F2
350
250
(g6)
150
300
5
18
18
F1
350
250
180
300
6
17
25
100
125
140
K
K
K
160
-
-
411
IEC
Y
71 B5
80 B5
200
311
366
80 B14
120
-
-
-
90 B5
200
311
366
411
90 B14
140
-
-
-
100-112 B5
250
311
366
411
100-112 B14
160
-
-
-
132 B5
300
132 B14
200
311
366
411
160 B5
350
405
469
180 B5
350
405
469
200 B5
400
-
474
The K dimensions refer to the standard B5 and B14 shaft/flange combinations.
As far as the dimensions of shaft/flange combinations on request are concerned, please contact our technical department.
backstop device:
SR
AR
50
AR
SR
80
50
72
100
55
93,5
125
60
110
140
80
124,5
150
170
190
Gp Fp
IEC
22.5°
H
SELECTY TRANSMISSION & MOTORS AUSTRALIA
S
f
D
Rp
1.8Dimensions
a
Dimensions gearboxes
A
b
B
OM 132-150-170-190
a2
OMF
K
N
C
Kb
Vp
c1
Hb
132
150
170
190
Pp
Up
Sb
h
Q Db
22.5°
Gp Fp
IEC
22.5°
H
Y
D
Rp
K
OMF
F1-F2
132
150
170
190
N
c1
Hb
R
IEC
U
Sb
h
V
Q Db
G F
D
H
Y
Z
F1
F1
45°
132
P
C
Kb
F2
F1
45°
150
170
150
170
22.5°
22.5°
190
51
1.8Dimensions
QL
a
A
a2
b
B
C
c1
D
H7
f
h
132
240
290
75
190
228
121
1
60
(70)
22
147
150
270
325
90
210
255
137
4.5
70
(80)
22
170
315
375
110
240
280
151
6
90
190
355
425
125
270
320
170
5
100
OM
Gp
H7
Fp
132
140
160
150
170
190
QL
180
200
H
N
Q
S
Db
Kb
Hb
Sb
207
156
28
23
24
195
138
18
170
240
183
30
27
26
220
155
22
22
188
270
210
35
30
32
240
175
25
26
208.5
315
236
38
35
38
276
155
30
OMF
G
g6
Pp
Rp
Up
Vp
210
120
175
7
N° 8 M12 x 24
F1
350
240
132.5
200
7
N° 8 M14 x 28
F1
400
F2
275
310
145
225
165
7
250
IEC B5
Y
90
100-112
132
160-180
200
225
250
N°8 M16 x 32
7
132
F
N°8 M18 x 36
K
Y
200
413
250
P
R
U
V
Z
250
160
300
5
N° 8 f 18
17
300
174.5
350
5
N°4 f 18
18
450
350
174.5
400
5
N°8 f 19
18
F1
400
300
183.5
350
5
N°4 f 18
18
F2
450
350
1835
400
5
N°8 f 18
25
F1
550
450
221
500
5
N°8 f 18
25
150
170
190
K
Y
K
Y
-
-
-
-
-
K
413
250
455
250
485
-
300
413
300
-
453
300
484
300
527.5
350
456
350
512
350
563
350
586.5
-
-
400
517
400
568
400
591.5
-
-
-
-
450
577
450
632.5
-
-
-
-
-
-
550
632.5
-
The K dimensions refer to the standard B5 and B14 shaft/flange combinations.
As far as the dimensions of shaft/flange combinations on request are concerned, please contact our technical department.
backstop device:
AR
SR
132
52
AR
SR
80
155
150
90
178.5
170
100
181.75
190
110
199
N
SELECT TRANSMISSION & MOTORS AUSTRALIA D
B
D
OUTPUT SHAFT
Output shaft “Quick Locking”
QL
132
150
170
190
Cq
C
Lu1
Lt1
S
n1
n
b
Cq
100
125
140
m1
D
Dt d
C
Pt
m3
E1
m4
Dub
E
t2
S
n2
s3
s2 s1
Lub
100
125
132
140
150
170
190
C
77,5
90
121
110
137
151
170
Cq
113.5
126
157
146
173
187
206
100.2
d
49.2
60.2
70.2
69.2
80.2
90.2
dt
62
72
85
85
100
110
120
Dub
85
100
105
115
120
135
145
201
E
121
131
141
141
161
181
E1
3.5
3.5
4.2
4.2
4.2
4.2
5.2
Lt1
170
195
257
235
289
317
355
376
Lu1
191
216
278
256
310
338
Lub
35
35
35
35
35
35
35
m1
21
21
21
21
21
21
21
m3
58.5
71.5
120.8
98.8
132.8
140.8
157.8
m4
1.7
1.7
2.2
2.2
2.2
2.2
2.7
n2
15.5
16
16
16
17
17
17
s1
21
21
21
21
21
21
21
s2
14
14
14
14
14
14
14
s3
5
6.5
10
6
13
17
15
D
H7
25
30
35
38
40
45
35
40
45
48
50
55
40
45
50
55
60
65
40
45
50
55
60
65
45
50
55
60
65
70
55
60
65
70
75
80
70
75
80
85
90
n
7
8
8
8
10
10
10
n1
3
3.5
3.5
3.5
4
4
4
b
t2
53
QL
DRIVEN SHAFT
Driven shaft “Quick Locking”
Customer shaft
132
140
150
170
190
G
1.5
(25)
(30)
(35)
(38)
(40)
(45)
10
10
10
10
5
5
1.5
(35)
(40)
(45)
(48)
(50)
(55)
10
10
10
10
5
5
1.5
(40)
(45)
(50)
(55)
(60)
(65)
10
10
10
5
5
5
1.5
(40)
(45)
(50)
(55)
(60)
(65)
10
10
10
5
5
5
2
(45)
(50)
(55)
(60)
(65)
(70)
10
10
10
5
5
5
2
(55)
(60)
(65)
(70)
(75)
(80)
10
10
10
5
5
5
105
(70)
(75)
(80)
(85)
(90)
10
10
10
10
10
120
2
L
Lu
R MAX
b1
t1
55
Lu
L
t1
G
b1
70
de
Refer to guide at right to determine Lu
125
de h6
80% of Lu
100
C
C
80
80
R
45°
UNI
6604
*Contact Select Transmission & Motors Australia for
assistance in sizing shaft length for driven shaft.
85
Guide to determine Lu:
(
)
IEC B5 Flange diameter
Maximum
2 + Shaft diameter**
Shaft length (Lu) formlua is a guide only and includes
an allowance for clearance to driven machine. All
measurements need to be checked for suitability for
every application.
**refer to Table 1.2 on page 22
54
QL
1.9 Accessories
TORQUE ARM [T]
100 - 125 - 140
A
H
Pr
G
TORQUE ARM [T]
A
G
H
Pr
100
350
59
28
47.5
125
350
59
28
58
140
400
9
28
82.5
TORQUE ARM [T]
132 - 150 - 170 - 190
TORQUE ARM [T]
A
G
H
Pr
132
400
59
28
94
150
500
59
28
109.5
170
550
59
28
124
190
600
59
28
144
55
1.10
Keys
Input shaft
Output shaft
56
Tab. 3.33
d
bxh
16
5x5
3
t1
19
6x6
3.5
24
8x7
4
28
8X7
4
32
10X8
5
35
10X8
5
40
12X8
5
50
14X9
5.5
D
bxh
25
8x7
3.3
28
8x7
3.3
30
8x7
3.3
32
10x8
3.3
35
10x8
3.3
40
12x8
3.3
42
12x8
3.3
45
14x9
3.8
48
14x9
3.8
50
14x9
3.8
55
16x10
4.3
60
18X11
4.4
70
20X12
4.9
80
22X14
5.4
90
25X14
5.4
100
28X16
6.4
0/ +0.1
0/ +0.2
t2
0/ +0.2
M
1
M4 5
M
QL - OMF 100-125-140
Mounting positions
M1
M3
M6
M5
M4
M2
QL - OMF 132-150-170-190
Mounting positions
M1
M3
M6
M5
M4
M2
57
M
1
M4 5
M
Required power
P=
m g v
6 10 4
Radial load
R=
P=
M n
9550
P=
F v
6 10 4
Linear mouvement
9550 P
n
Torque
M=
M
F = 1000
r
v=
2r
n
1000
R
Lifting
Rotation
2000 T Kr
d
Kr = 1
R (N)
Radial load
T (Nm)
Torque
d (mm)
Diameter
Chain-wheel
Kr = 1.25
Gear
Force
Kr = 1.5-2.5
V-belt pulley
Linear speed
Moment of inertia
J = 98.p.I.D4
J = 98.p.I.(D4-d4)
Solid cylinder
Hollow cylinder
Conversion of a mass having a linear movement into a moment of inertia related to the motor shaft.
J = 91.2 m
v2
n2
Conversion of various mass moments of inertia having different speeds into a moment of inertia related to the motor shaft.
Ja =
J2 . n 2 2 + J 3 . n 3
n1 2
2
P
= Rated power [kW]
m = Mass [kg]
v
= Linear speed [m/min]
F
= Force [N]
n
= Rotation speed [min-1]
g
= 9.81[m/sec]
M
= Motor torque [Nm]
r
= Radius [mm]
J
= Moment of inertia [kgm2]
l
= Length [mm]
d
= Inner diameter[mm]
D
= Outer diameter[mm]
p
= Specific weight
[kg/dm3]
This catalogue cancels and replaces any previous edition and revision.
We reserve the right to implement modifications without notice.
If you did not receive this catalogue in controlled distribution, STM does not guarantee the updating of the listed data.
In such case the most updated version is available on our web sites: www.stmspa.com or www.stmaustralia.com.au
58
ITALY - PIEMONTE
ITALY - LOMBARDIA
ITALY - SUD
ITALY - VENETO
Strada del Cascinotto, 139/43B
10156 TORINO
T:+39/011/22.38.463
F:+39/011/22.38.463
E:info@labet.it
Via Velleia 1
20052 Monza (Mi)
T:+39/039/83.79.41
F:+39/039/83.79.490
E:sef@sefmotoridutti.com
Via Ottaviano, 298/300
80040 San Gennaro Vesuviano (Na)
T:+39/081/52.86.802
F:+39/081/52.86.803
E:info@stmsud.it
Via Manfredini, 54
45100 Loc. Granzette ROVIGO
T:+39/0425/48.61.58
F:+39/0842/48.69.30
E:stmveneto@stmspa.com
ITALY CENTRO ADRIATICO
UKRAINE
Via Enrico Fermi, 35
00044 Frascati (RM)
T:+39/06/97.60.85.44
F:+39/06/97.60.85.45
E:tecnodrivesrl@fastwebnet.it
Belaia Tzerkov Yaroslava Mudrogo, ST66/13
09107 Region of Kiev
T:+38/04463519369
F:+38/0446391037
E:stm@stm.com.ua
STM GEAR REDUCERS
A Global Company
RUSSIA
NETHERLANDS
Bolshaya Pochtovaya st. 30
105082 Mosca
T:+74/957836809
F:+74/952672073
E:are@ttaars.ru
Anton Philipsweg, 30
2171 KX SASSENHEIM
T:+31/252229223
F:+31/252224404
E:info@stmaandrijftechniek.nl
SWEDEN
FINLAND
Stathogavagen, 48
60223 Norrkoping
T:+46/11158340
F:+46/11158349
E:info@stmsweden.se
Luoteisrinne, 5
02270 Espoo
T:+35/8440674519
F:+35/8104256805
E:info@stmfinland.fi
UK
SPAIN
Unit 1 Oasis Business Park Road One
Winsford Industrial Est - CW7 3RY - WINSFORD
T:+44/1606/557200
F:+44/1606/557396
E:info@stmuk.co.uk
Contrada Nacional 121, km 39,400
31390 Olite Navarro
T:+34/948712017
F:+34/948712153
E:martinena@martinenasl.es
SELECT TRANSMISSION & MOTORS
AUSTRALIA
ph 03
9761 7355 fax 03 9761 7222
info @ stmaustralia.com.au
www.stmaustralia.com
GERMANY
Äussere Oberaustrasse 36/4
83026 Rosenheim/Germany
T:+49/8031/3548070
F:+49/8031/35480710
E:stmdeutschland@stmspa.com
USA
Young Powertech Inc.
3060 Plaza Dr #107 Garnet Valley, PA 19060
T:+1/888-465-3561
F:+1/610-558-0762
E:info@youngpowertech.com
BRAZIL
ARGENTINA
SINGAPORE
SOUTH AFRICA
Rua Padre Raposo,
1293 Mooca (SP)
T:+55/11/2605.1144
F:+55/11/2601.1559
E:stmdobrasil@stmdobrasil.com
Langeri, 3525 (Santos Lugares)
1676 Buenos Aires
T:+54/11/41.15.63.85
F:+54/11/47.57.05.12
E:comercial@stmteam.com.ar
27 Tampines St, 92 (Goodvine Building)
528878 Singapore
T:+65/6788.5755
F:+65/6788.5585
E:stm@stmap.com
47 Paul Smit Street
Boksburg North Johannesburg
T: +27/011 892 4874
F:+27/011 892 2596
E:stmtrans@netactive.co.za
info @ stmaustralia.com.auwww.stmaustralia.com
ph
fax
03 9761 7355
03 9761 7222

Quick Lock Gearbox Catalogue - Select Transmission and Motors

Transcription

Similar documents

RX 700 - STM Spa

aezbcdfg - STM Spa

RX 700 - Aandrijf Technisch Buro

gear machinery uk

PT-1 - Martinena

A RXO-O - STM Spa

RX 800 - Martinena

Energy saving motors Second generation

Katalog - Standardni program gonil

GSM_mod.CT 05_A01_31_I_GB_D_0

FC and IFC.pmd - Greenfield Industries

NSPT-LOCKS

Lafert NA Product Catalogue

VEM-082792_Katalog 01-2008_Schiffsmotoren_Umschlag_5

Low voltage asynchronous motors IEC motors with squirrel

dimensions - PTplace.com