denison calzoni radial piston motor type mr, mre hydraulics/02 - radial... · radial piston motor...
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DENISON CALZONIRadial Piston Motor
Type MR, MRE
RCOe 1806/07.01
2RCOe 1806/07.01
TABLE OF CONTENTS - MOTOR TYPE MR - MRE
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
CONTENTS PAG.
TABLE OF CONTENTS 2
GENERAL CHARACTERISTICS 3
FUNCTIONAL DESCRIPTION 4
TECHNICAL DATA 5
FLUID SELECTION 6
FLUSHING PROCEDURE 7
OPERATING DIAGRAM MOTOR TYPE MR 33 MR 57 MR 73 8
OPERATING DIAGRAM MOTOR TYPE MR 93 MR 110 MR 125 9
OPERATING DIAGRAM MOTOR TYPE MR 160 MR 190 MR 200 10
OPERATING DIAGRAM MOTOR TYPE MR 250 MR 300 MRE 330 11
OPERATING DIAGRAM MOTOR TYPE MR 350 MR 450 MRE 500 12
OPERATING DIAGRAM MOTOR TYPE MR 600 MR 700 MRE 800 13
OPERATING DIAGRAM MOTOR TYPE MR 1100 MRE 1400 MR 1600 14
OPERATING DIAGRAM MOTOR TYPE MR 1800 MRE 2100 MR 2400 15
OPERATING DIAGRAM MOTOR TYPE MR 2800 MRE 3100 MR 3600 16
OPERATING DIAGRAM MOTOR TYPE MR 4500 MRE 5400 MR 6500 17
OPERATING DIAGRAM MOTOR TYPE MR 7000 MRE 8200 18
OPERATING DIAGRAM (RUNNING PRESSURE DIFFERENCE AT NO LOAD) 19-20
OPERATING DIAGRAM (MOTOR /PUMP: BOOST PRESSURE) 20-21
RADIAL LOAD 22
BEARING LIFE 23
MOTOR DIMENSIONS 24-25
SHAFT END DIMENSIONS 26-27
COMPONENTS FOR SPEED CONTROL 28-29
PIPE CONNECTION FLANGES 30
COUPLINGS - KEY ADAPTERS 31
HOLDING BRAKE - UNIT DIMENSIONS - TECHNICAL DATA 32-33
INSTALLATION NOTES 34
ORDERING CODE 35
SALES AND SERVICE LOCATIONS WORLDWIDE 36
3RCOe 1806/07.01
GENERAL CHARACTERISTICS - MOTOR TYPE MR - MRE
CONSTRUCTION
TYPE
MOUNTING
CONNECTION
MOUNTING POSITION
BEARING LIFE, RADIAL LOAD
DIRECTION OF ROTATION
FLUID
FLUID TEMPERATURE RANGE
VISCOSITY RANGE 1)
FLUID CLEANLINESS
Fixed displacement radial piston motor
MR ; MRE
Front flange mounting
Connection flange
Any (please note the installation notes on page 34)
See page 22 and 23
Clockwise, anti-clockwise - reversible
HLP mineral oils to DIN 51 524 part 2; Fluid type HFB, HFC and Bio-fluids onenquiry. FPM seals are required with phosphorous acid-Ester (HFD)
t °C – 30° to + 80°
n mm2/s 18 to 1000: Recommended operating range 30 to 50 (see fluid selectionon page 6)
Maximum permissible degree of contamination of fluid NAS 1638 Class 9. Wetherefore recommend a filter with a minimum retention rate of ß10 > 75.To ensure a long life we recommend class 8 to NAS 1638.This can be achieved with a filter, with a minimum retention rate of ß5 >100.
A B
GENERAL CHARACTERISTICS
1) For different valves of viscosity please contact DENISON Calzoni
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
4RCOe 1806/07.01
FUNCTIONAL DESCRIPTION - MOTOR TYPE MR - MRE
FUNCTIONAL DESCRIPTION The outstanding performance of this motor is the result of an original and patented design.
The principle is to transmit the effort from the stator to the rotating shaft (2) by means of
a pressurized column of oil (a) instead of the more common connecting rods, pistons, pads
and pins.
This oil column is contained by a telescopic cylinder (1) with a mechanical connection
at the lips at each end which seal against the spherical surfaces of the cylinder-heads (3)
and the spherical surface of the rotating shaft (4).
These lips retain their circular cross section when stressed by the pressure so there is no
alteration in the sealing geometry. The particular selection of materials and optimisation
of design has minimized both the friction and the leakage.
Another advantage of this design stems from the elimination of any connecting rods, the
cylinder can only expand and retract linearly so there are no transverse components of
the thrust. This means no oval wear on the moving parts and no side forces on the cylinder
joints.
A consequence of this novel design is a significant reduction in weight and overall sizecompared with other motors of the same capacity.
TIMING SYSTEM The timing system is realized by means of a rotary valve (5) driven by the rotary valve
driving shaft (8) that it is connected to the rotating shaft.
The rotary valve rotates between the rotary valve plate (6) and the reaction ring (7)
which are fixed with the motor's housing. This timing system is also of a patented design
being pressure balanced and self compensating for thermal expansion.
EFFICIENCY The advantages of this type of valve coupled with a revolutionary cylinder arrangement
produce a motor with extremly high values of mechanical and volumetric efficiency.
The torque output is smooth even at very low speed and the motor gives a high perfor-
mance starting under load.
A B
2 1a 3
8 6 5 74
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
5RCOe 1806/07.01
TECHINICAL DATA - MOTOR TYPE MR - MRE
eziS eziS eziS eziS eziSrotoMnoisrev
-ecalpsiD -ecalpsiD -ecalpsiD -ecalpsiD -ecalpsiDtnem
tnemoM tnemoM tnemoM tnemoM tnemoMfoaitreni
gnitatorstrap
-eroehT -eroehT -eroehT -eroehT -eroehTlacit
cificepseuqrot
.niM .niM .niM .niM .niM.tratseuqrot
/-eroehT
laciteuqrot
erusserPmumixaM erusserPmumixaM erusserPmumixaM erusserPmumixaM erusserPmumixaM egnardeepS egnardeepS egnardeepS egnardeepS egnardeepS mumixaM mumixaM mumixaM mumixaM mumixaMtuptuorewop
thgieW thgieW thgieW thgieW thgieW
tupni gnihsulf gnihsulf
.tnoc .tni kaep B+A niarD tuohtiw htiw tuohtiw htiw
V J % p p p p p n n P P m
mc 3 mcgk 2 rab/mN rab rab rab rab rab mpr mpr Wk Wk gk
MMMMMR
3333333333 1,23 23,4 05,0 09
052 003 024 004
5rab51(
htiw"1F"tfahs)laes
0041-1 0041-1 6,6 01 03
7575757575 4,65 67,4 09,0 09 0031-1 0031-1 11 71 03
3737373737 6,27 30,41 02,1 09 0021-1 0021-1 51 02 83
3939393939 6,29 11,51 05,1 09 0511-1 0511-1 71 52 83
011 011 011 011 011 0,901 91,61 07,1 09 0011-1 0011-1 81 82 83
521 521 521 521 521 7,421 88,65 00,2 09 009-1 009-1 71 52 64
061 061 061 061 061 7,951 05,75 45,2 09 009-1 009-1 02 03 64
091 091 091 091 091 6,191 02,85 50,3 09 058-1 058-1 42 63 64
002 002 002 002 002 2,991 51,75 02,3 09 008-1 008-1 52 83 05
052 052 052 052 052 9,052 08,06 00,4 09 008-1 008-1 23 84 05
003 003 003 003 003 1,403 34,56 08,4 09 057-1 057-1 53 35 05
053 053 053 053 053 5,943 09,522 75,5 09 046-1 046-1 14 26 77
054 054 054 054 054 6,154 08,922 02,7 09 006-1 006-1 64 57 77
006 006 006 006 006 9,706 70,562 07,9 09 025-1 025-1 65 48 79
007 007 007 007 007 9,607 04,853 03,11 09 005-1 005-1 56 79 79
0011 0011 0011 0011 0011 8,5211 05,154 09,71 09 033-5,0 033-5,0 77 911 041
0061 0061 0061 0061 0061 4,8951 34,666 04,52 09 062-5,0 062-5,0 69 441 902
0081 0081 0081 0081 0081 6,9081 01,458 08,82 09 052-5,0 052-5,0 301 351 902
0042 0042 0042 0042 0042 0,3932 04,5382 01,83 09 022-5,0 022-5,0 021 381 523
0082 0082 0082 0082 0082 0,2972 07,5792 05,44 09 512-5,0 512-5,0 721 491 523
0063 0063 0063 0063 0063 8,6363 04,1584 09,75 09 051-5,0 081-5,0 321 581 805
0054 0054 0054 0054 0054 7,2054 01,5105 09,75 19 031-5,0 071-5,0 041 012 805
0056 0056 0056 0056 0056 5,0646 6,67311 75,301 19 011-5,0 031-5,0 561 042 008
0007 0007 0007 0007 0007 2,7696 6,67311 93,111 19 001-5,0 031-5,0 071 052 008
MMMMMRE
033 033 033 033 033 4,233 05,56 03,5 09
012 052 053 004
5rab51(
htiw"1F"tfahs)laes
057-1 057-1 23 94 05
005 005 005 005 005 9,794 08,922 39,7 09 006-1 006-1 64 07 77
008 008 008 008 008 2,408 04,853 18,21 09 054-1 054-1 56 39 79
0041 0041 0041 0041 0041 5,9631 05,154 08,12 29 082-5,0 082-5,0 77 201 541
0012 0012 0012 0012 0012 2,1902 01,458 03,33 19 052-5,0 052-5,0 001 841 122
0013 0013 0013 0013 0013 7,3013 07,5792 04,94 19 512-5,0 512-5,0 521 091 923
0045 0045 0045 0045 0045 2,1045 01,5105 10,68 29 021-5,0 061-5,0 041 012 215
0028 0028 0028 0028 0028 4,6228 6,67311 09,031 29 09-5,0 021-5,0 071 052 018
EHTNIELBALIAVAERASTNEMECALPSIDREGRAL EHTNIELBALIAVAERASTNEMECALPSIDREGRAL EHTNIELBALIAVAERASTNEMECALPSIDREGRAL EHTNIELBALIAVAERASTNEMECALPSIDREGRAL EHTNIELBALIAVAERASTNEMECALPSIDREGRAL FTRM-ETRM-TRM FTRM-ETRM-TRM FTRM-ETRM-TRM FTRM-ETRM-TRM FTRM-ETRM-TRM SEIRESROTOM SEIRESROTOM SEIRESROTOM SEIRESROTOM SEIRESROTOM
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a legal sense.
All rights reserved. Subject to revision.
6RCOe 1806/07.01
FLUID SELECTION - MOTOR TYPE MR - MRE
EXAMPLE: At a certain ambienttemperature, the operating temperature in thecircuit is 50°C. In the optimum operatingviscosity range (v
rec; shaded section), this
corresponds to viscosity grades VG 46 or VG68; VG 68 should be selected.
IMPORTANT: The drain oil temperatureis influenced by pressure and speed and isusually higher than the circuit temperature orthe tank temperature. At no point in thesystem, however, may the temperature behigher than 80°C.
If the optimum conditions cannot be met dueto the extreme operating parameters or highambient temperature, we always recommendflushing the motor case in order to operatewithin the viscosity limits.
Should it be absolutely necessary to use aviscosity beyond the recommended range,you should first contact DENISON Calzonifor confirmation.
GENERAL NOTES More detailed information regarding the choice of the fluid can be requested to DENISON Calzoni.Further notes on installation and commissioning can be found on page 34 of this data sheet. Whenoperating with HF pressure fluids or bio-degradable pressure fluids possible limitations of thetechnical data must be taken into consideration, please see information sheet TCS 85, or consultDENISON Calzoni.
OPERATING VISCOSITY RANGE The viscosity, quality and cleanliness of operating fluids are decisive factors in determining thereliability, performance and life-time of an hydraulic component. The maximum life-time andperformance are achieved within the recommended viscosity range. For applications that go beyondthis range, we recommend to contact DENISON Calzoni.
nrec.
= recommended operating viscosity 30...50 mm2/s
This viscosity refers to the temperature of the fluid entering the motor, and at the same timeto the temperature inside the motor housing (case temperature). We recommend to select theviscosity of the fluid based on the maximum operating temperature, to remain within therecommended viscosity range. To reach the value of maximum continuous power theoperating viscosity should be within the recommended viscosity range of 30 - 50 cSt.
LIMITS OF VISCOSITY RANGE For limit conditions the following is valid:
nmin.abs.
= 10 mm2/s in emergency, short term
nmin.
= 18 mm2/s for continuous operation at reduced performances
nmax.
= 1000 mm2/s short term upon cold start
CHOOSING THE TYPE OF FLUID The operating temperature of the motor is defined as the greater temperature between that of theACCORDING TO THE OPERATING incoming fluid and that of the fluid inside the motor housing (case temperature).WeTEMPERATURE recommend that you choose the viscosity of the fluid based on the maximum operating
temperature, to remain within the recommended viscosity range (see diagram). Werecommend that the higher viscosity grade must be selected in each case.
FILTRATION The motor life also depends on the fluid filtration. At least it must correspond to one of thefollowing cleanliness. class 9 according to NAS 1638
class 6 according to SAE, ASTM, AIA
class 18/15 according to ISO/DIS 4406
In order to assure a longer life a cleanliness class 8 to NAS 1638 is recommended, achievedwith a filter of b
5=100. In case the above mentioned classes can not be achieved, please consult us.
CASE DRAIN PRESSURE The lower the speed and the case drain pressure, the longer the life of the shaft seal. Themaximum permissible housing pressure is
pmax = 5 barIf the case drain pressure is higher than 5 bar it is possible to use a special 15 bar shaft seal(see page 35, Seals, Code"F1").
"FPM" SEALS In case of operating conditions with high oil temperature or high ambient temperature, werecommend to use "FPM" seals (see page 35, Seals, Code "V1"). These "FPM" seals should beused with HFD fluids.
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
Temperature t in °C
Oil temperature range
visc
osity
n (
mm
2 /s)
n R
EC
7RCOe 1806/07.01
FLUSHING PROCEDURE - MOTOR TYPE MR - MRE
FLUSHING CIRCUIT(MONO-DIRECTIONAL ROTATION)
FLUSHING CIRCUIT(BI-DIRECTIONAL ROTATION)
FLUSHING The motor case must be flushed when the continuous operating performances of themotor are inside the "Continuous operating area with flushing" (see Operating Diagramfrom page 8 to page 18), in order to assure the minimum oil viscosity inside the motor caseof 30 mm2/s (see page 6 - Fluid Selection). The flushing can be necessary also when theoperating performances are outside the "Continuous operating area with flushing", but thesystem is not able to assure the minimum viscosity conditions requested by the motor asspecified at page 6.
NOTE1: The oil temperature inside the motor case is obtainable by adding 3°C to the motor surfacetemperature (t
A , see figures).
NOTE2: With the standard shaft seal the maximum drain case pressure is 5 bar. For the selectionof the restrictor, please consult us.
FLOW
EPYT NOISREVROTOMGNIHSULF
WOLF
RM 011,39,37,75,33 nim/l5=Q
ERM-RM 033,003,052,002,091,061,521 nim/l6=Q
ERM-RM 005,054,053 nim/l8=Q
ERM-RM 0041,0011,008,007,006 nim/l01=Q
ERM-RM 0012,0081,0061 nim/l51=Q
ERM-RM,0045,0054,0063,0013,0082,0042
0028,0007,0056nim/l02=Q
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
1) Please consult us.
according to the oil temperatureand viscosity
1)“VFC” Flushing valve.
RestrictorRestrictor
8RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
Torq
ue in
Nm
Speed in rpm
MR 73
81% 79
%
ht=83%
77% 75%
v=98%
h
97%
96%
46 l/min9 l/min3 l/min 18 l/min 27 l/min 37 l/min 55 l/min 64 l/min 82 l/min73 l/min
600200 400
240
160
80
800 1000 1150
400
320
100 bar
150 bar
200 bar
250 bar
20 Kw
17 Kw18 Kw
15 Kw
13 Kw
8 Kw
10 Kw
6 Kw
300 bar
5
4
3
2
1
60
30
90
120
150
180
210
200 400 600 800 1000 1200 1300
Torq
ue in
Nm
Speed in rpm
MR 57
73%
h
t=83%h
81% 79%
76%
70%
v=98%
97%
96%
8 l/min 16 l/min 39 l/min32 l/min24 l/min 47 l/min 55 l/min 71 l/min63 l/min
100 bar
150 bar
200 bar
300 bar
250 bar3 K
w
7 Kw
5 Kw
15 Kw
11 Kw
9 Kw
13 Kw
17 Kw
5
4
3
2
1
Torq
ue in
Nm
Speed in rpm
MR 33
v=98%
27 l/min13 l/min1 l/min 4 l/min 9 l/min 18 l/min 22 l/min 40 l/min31 l/min 36 l/min 45 l/min
10Kw
t=83%97%
80%
100 bar
150 bar
94%
96%
250 bar
200 bar
300 bar
5Kw
3Kw
4Kw
8Kw
7Kw
9Kw
6.6Kw
77%
75%
30
15
140 280 420 560 700 980840 1120 14001260
90
105
75
60
45
120
h
5h
3
4
2
1
9RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
h
h
MR 125
Torq
ue in
Nm
Speed in rpm
4 Kw
7 Kw
9 Kw
11 Kw
14 Kw
20 Kw
17 Kw
23 Kw
25 Kw
t=89%88% 87% 81%85% 83
%
97%
v=98%
95%
96%
93%
68 l/min12 l/min 30 l/min 50 l/min 105 l/min85 l/min
100
100 200 400300 500
200
300
400
500
600
800600 700 900
250 bar
100 bar
150 bar
200 bar
300 bar
5
2
3
4
1
Torq
ue in
Nm
Speed in rpm
MR 110
t=83%h
77%h79%
t=81%
75%
v=98%h
97%
96%
52 l/min4 l/min
100
200
26 l/min
200
13 l/min
400
39 l/min
300
400
500
600
65 l/min
800
78 l/min 92 l/min
1050
105 l/min
21 Kw
15 Kw
8 Kw
11 Kw
19 Kw
200 bar
100 bar
150 bar
24 Kw26 Kw28 Kw
300 bar
250 bar
4
5
3
1
2
Torq
ue in
Nm
Speed in rpm
MR 93
t=83%h
81%
75%77%
79%
v=98%
h
96%
97%
22 l/min4 l/min 11 l/min 33 l/min 44 l/min 67 l/min56 l/min 78 l/min 100 l/min89 l/min
200
200
100
300
400
450
400 600 800 11001000
25 Kw100 bar
150 bar
200 bar
250 bar
300 bar
9 Kw
6 Kw
17 Kw
12 Kw
15 Kw
20 Kw
19 Kw
22 Kw5
4
3
2
1
10RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
h
Torq
ue in
Nm
Speed in rpm
MR 200
20 Kw
5 Kw
10 Kw
15 Kw
32 Kw
25 Kw28 Kw
38 Kw
73%
t=91.5%
h
87%
91%
90%
85%
89%
77%83%
v=99%
98.5%
97.5%
150 l/min45 l/min30 l/min15 l/min 105 l/min90 l/min60 l/min 75 l/min 135 l/min120 l/min 165 l/min
300
100
200
400
500
100 200
600
800
700
900
1000
500300 400 600 700 800
150 bar
100 bar
300 bar
250 bar
200 bar
5
4
3
2
1
MR 190
Torq
ue in
Nm
36 Kw
32 Kw
28 Kw
24 Kw
20 Kw
15 Kw
10 Kw
5 Kw
5
4
3
2
1
5 l/min 15 l/min 30 l/min 45 l/min 60 l/min 75 l/min 90 l/min 120 l/min105 l/min 135 l/min 150 l/min
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
Speed in rpm100 200 300 400 500 600 700 800
900
800
700
600
500
400
300
200
100
850
MR 160
4 Kw
9 Kw
13 Kw
17 Kw
20 Kw
23 Kw
27 Kw30 Kw
Torq
ue in
Nm
300 bar
250 bar
200 bar
150 bar
50 bar
100 bar
5 l/min 15 l/min 30 l/min 45 l/min 60 l/min 75 l/min 90 l/min 120 l/min105 l/min
Speed in rpm100 200 300 400 500 600 700 800
800
700
600
500
400
300
200
100
900
5
4
3
2
1
11RCOe 1806/07.01
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
MR 300
5 Kw
10 Kw
15 Kw
20 Kw
25 Kw
30 Kw
35 Kw
41 Kw
47 Kw
53 Kw
40 l/min 60 l/min 80 l/min20 l/min 100 l/min 120 l/min 140 l/min 160 l/min 180 l/min 200 l/min 220 l/min
5
4
3
2
1
Torq
ue in
Nm
Speed in rpm
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
100 200 300 400 500 600 700 750
1400
1200
1000
800
600
400
200
43 Kw
9 Kw
5 Kw
48 Kw
14 Kw
32 Kw
27 Kw
23 Kw
18 Kw
37 Kw5 l/min 20 l/min 40 l/min 60 l/min 80 l/min 100 l/min
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
Torq
ue in
Nm
MR 2501200
1000
800
600
400
200
Speed in rpm
120 l/min 180 l/min160 l/min140 l/min
100 200 300 400 500 600 700
5
4
3
2
1
800
Torq
ue in
Nm
Speed in rpm
MRE 330 12 Kw
18 Kw
24 Kw
31 Kw
49 Kw
36 Kw
42 Kw
78%
t=92%
92%
h
89%
91%
86%
v=99%
h
97.5%
98.5%
30 l/min 60 l/min 100 l/min 130 l/min 220 l/min190 l/min160 l/min
200
100 200 300 400 500 600 700
1200
400
600
800
1000
1400
50 bar
150 bar
100 bar
210 bar
250 bar
3
5
4
2
1
12RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
1
2
3
4
5
MRE 500
Torq
ue in
Nm
250 bar
180 l/min 210 l/min 240 l/min 270 l/min60 l/min 150 l/min120 l/min
7 Kw
13 Kw
20 Kw
26 Kw
33 Kw
39 Kw
46 Kw
54 Kw
62 Kw
70 Kw
210 bar
150 bar
100 bar
50 bar
30 l/min10 l/min 90 l/min
100 200 300 400 500 600
2000
1800
1600
1400
1200
1000
800
600
400
200
Speed in rpm
13 Kw
20 Kw
26 Kw
33 Kw
39 Kw
46 Kw
56 Kw
65 Kw
75 Kw
60 l/min 90 l/min10 l/min 30 l/min 150 l/min 240 l/min210 l/min180 l/min120 l/min
5
4
3
2
1
Torq
ue in
Nm
Speed in rpm
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
2200
2000
1800
1600
1400
1200
1000
800
600
400
200
100 200 300 400 500 600
MR 450
5 Kw
10 Kw
15 Kw
21 Kw
26 Kw
31 Kw
36 Kw
42 Kw
48 Kw
54 Kw
10 l/min 25 l/min 50 l/min 75 l/min 100 l/min 125 l/min 150 l/min 175 l/min 200 l/min
5
4
3
2
1
Torq
ue in
Nm
Speed in rpm
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
MR 350
100 200 300 400 500 600
200
400
600
800
1000
1200
1400
1600
1800
640
13RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
1
2
3
4
5
MRE 800
Torq
ue in
Nm
11 Kw
43 Kw
54 Kw
65 Kw
74 Kw
84 Kw93 Kw
60 l/min20 l/min 100 l/min 200 l/min140 l/min 180 l/min 340 l/min300 l/min260 l/min
50 100 150 200 250 300 350 400 450
300
600
900
1200
1500
1800
2100
2400
2700
3000
3300
250 bar
210 bar
150 bar
100 bar
50 bar
Speed in rpm
22 Kw
33 KwMR 700
9 Kw
18 Kw
28 Kw
37 Kw
46 Kw
56 Kw
65 Kw
76 Kw
86 Kw
97 Kw
Torq
ue in
Nm
Speed in rpm
300 bar
250 bar
150 bar
100 bar
50 bar
200 bar
50 100 150 200 250 300 350 400 450 500
3000
2700
2400
2100
1800
1500
1200
900
600
300
3300
5
4
3
2
1
240 l/min120 l/min 160 l/min 200 l/min 280 l/min 320 l/min15 l/min 40 l/min 80 l/min
MR 600
16 Kw
24 Kw
32 Kw
40 Kw
48 Kw
56 Kw
65 Kw
75 Kw
84 Kw
50 100 150 200 250 300 350 400 450
5
4
3
2
1
Torq
ue in
Nm
Speed in rpm
300 bar
250 bar
150 bar
100 bar
50 bar
200 bar
3000
2700
2400
2100
1800
1500
1200
600
300
900
160 l/min100 l/min 130 l/min 190 l/min 220 l/min 250 l/min 280 l/min10 l/min 40 l/min 70 l/min
520
14RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
Torq
ue in
Nm
Speed in rpm
MR 1600 59 Kw
44 Kw
29 Kw
98 Kw
88 Kw
108 Kw
74 Kw
144 Kw
126 Kw
91%92
%
86%
78%
90%
88%89%
84%
t=93%
92.5%
h
v=99%h
98.5%
97.5%
7525 50 100 125
1000
2000
3000
4000
175150 200 225 250
7000
5000
6000
8000
240 l/min30 l/min 120 l/min60 l/min 180 l/min
100 bar
300 l/min 360 l/min
200 bar
150 bar
5
4
300 bar
250 bar 3
2
1
40 80 120 160 200 240 280
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
5500 1
2
3
4
5
MRE 1400
Torq
ue in
Nm
Speed in rpm
22Kw
33 Kw
44 Kw
55 Kw
66 Kw
77 Kw85 Kw
94 Kw102 Kw
50 l/min15 l/min 100 l/min 200 l/min 300 l/min150 l/min 250 l/min 350 l/min
210 bar
150 bar
100 bar
250 bar
50 bar
5
4
3
2
1
22 Kw
33 Kw
44 Kw
55 Kw
66 Kw
77 Kw
91 Kw
105 Kw
119 Kw
300 bar
150 bar
100 bar
50 bar
Torq
ue in
Nm
Speed in rpm
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
5500
50 100 150 200 250 300 330
MR 1100
200 bar
250 bar
300 l/min100 l/min 150 l/min 200 l/min 250 l/min 350 l/min50 l/min15 l/min
15RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
MR 2400
20 Kw
40 Kw
60 Kw
80 Kw
100 Kw
120 Kw
141 Kw
162 Kw
183 Kw
25 l/min 75 l/min
20 40 60 80 100 120 140 160 180 200 220
11000
10000
9000
8000
7000
6000
5000
4000
3000
2000
1000
5
4
3
2
1
Torq
ue i
n N
m
Speed in rpm
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
420 l/min140 l/min 210 l/min 280 l/min 350 l/min 490 l/min
MR 1800 29 Kw
44 Kw
59 Kw
74 Kw
88 Kw
103 Kw
121 Kw
139 Kw
157 Kw
240 l/min 300 l/min 420 l/min360 l/min
25 50 75 100 125 150 175 200 225 250
1000
9000
8000
7000
6000
5000
4000
3000
2000
Torq
ue in
Nm
5
4
3
2
1
Speed in rpm
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
20 l/min 60 l/min 120 l/min 180 l/min
1
2
3
4
5
MRE 2100
Torq
ue in
Nm
Speed in rpm
132 Kw
148 Kw
20 Kw
40 Kw
80 Kw
60 Kw
100 Kw
116 Kw
20 l/min 60 l/min 120 l/min 240 l/min180 l/min 300 l/min 480 l/min420 l/min360 l/min
100 bar
250 bar
50 bar
150 bar
210 bar
25 50 75 100 125 150 175 200 225 250
1000
2000
3000
4000
5000
6000
7000
8000
16RCOe 1806/07.01
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
1
2
3
4
5
MR 3600
26 Kw
52 Kw
78 Kw
104 Kw
130 Kw
153 Kw
175 Kw
300 l/min 400 l/min 500 l/min 600 l/min
15 30 45 60 75 90 105 120 135 150 165 180
Torq
ue in
Nm
Speed in rpm
250 bar
200 bar
150 bar
100 bar
50 bar
35 l/min 200 l/min100 l/min
300 bar
185 Kw
2000
4000
6000
8000
10000
12000
14000
16000
18000
20 40 60 80 100 120 140 160 180 200 215
Torq
ue in
Nm
MRE 3100
Speed in rpm
240 l/min
1
2
3
4
5
20 Kw
40 Kw
60 Kw
80 Kw
100 Kw
125 Kw
145 Kw
165 Kw
190 Kw
100 bar
250 bar
50 bar
150 bar
210 bar
400 l/min160 l/min 320 l/min 550 l/min480 l/min25 l/min 80 l/min1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
11000
12000
13000
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
11000
12000
13000
20 40 60 80 100 120 140 160 180 200 215
MR 2800
20 Kw
40 Kw
60 Kw
80 Kw
100 Kw
127 Kw
149 Kw
172 Kw
194 Kw
Torq
ue in
Nm
Speed in rpm
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
5
4
3
2
1
25 l/min 80 l/min 160 l/min 240 l/min 320 l/min 400 l/min 480 l/min 530 l/min
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
17RCOe 1806/07.01
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
3000
6000
9000
12000
15000
18000
21000
24000
27000
30000
33000
10 20 30 40 50 60 70 80 90 100 110 120 130
1
2
3
4
5
47 Kw
71 Kw
94 Kw
118 Kw
141 Kw
165 Kw
193 Kw
222 Kw
Torq
ue in
Nm
Speed in rpm
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
100 l/min35 l/min
MR 6500
300 l/min200 l/min 400 l/min 500 l/min 600 l/min 780 l/min700 l/min
240 Kw
1
2
3
4
5
MRE 5400
Torq
ue in
Nm
Speed in rpm
35 l/min 100 l/min 200 l/min 400 l/min300 l/min 800 l/min700 l/min600 l/min500 l/min
40 Kw
60 Kw
80 Kw
140 Kw
163 Kw
187 Kw
100 Kw
210 Kw
100 bar
250 bar
50 bar
150 bar
210 bar
20 40 60 80 100 120 140 160
2000
4000
6000
8000
10000
12000
14000
16000
18000
20000
22000
120 Kw
2000
4000
6000
8000
10000
12000
14000
16000
18000
20000
22000
10 30 50 70 90 110 130 150 170
1
2
3
4
5
40 Kw
60 Kw
80 Kw
140 Kw
163 Kw
187 Kw
210 Kw
100 Kw
120 Kw
Torq
ue in
Nm
Speed in rpm
300 bar
250 bar
200 bar
150 bar
100 bar
50 bar
MR 4500
300 l/min200 l/min 400 l/min 500 l/min 600 l/min 700 l/min35 l/min 100 l/min
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
18RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
11111 Output power 2 Intermittent operating area 3 Continuous operating area with flushing
4 Continuous operating area 5 Inlet pressure hhhhhttttt Total efficiency hhhhhvvvvv Volumeter efficiency
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
3000
6000
9000
12000
15000
18000
21000
24000
27000
30000
330001
2
3
4
5
MRE 8200
Torq
ue in
Nm
Speed in rpm
49 Kw
73 Kw
97 Kw
121 Kw
146 Kw
170 Kw
200 Kw
230 Kw
250 Kw
100 bar
250 bar
50 bar
150 bar
210 bar
35 l/min 100 l/min 200 l/min 400 l/min300 l/min 800 l/min700 l/min600 l/min500 l/min 900 l/min
10 20 30 40 60 70 80 90 100 110 12050
1
2
3
4
5
MR 7000
Torq
ue in
Nm
49 Kw
73 Kw
97 Kw
170 Kw
200 Kw
230 Kw
250 Kw
300 bar
200 bar
150 bar
100 bar
50 bar
800 l/min35 l/min 100 l/min 200 l/min 300 l/min 400 l/min 500 l/min 700 l/min600 l/min
10 20 30 40 50 60 70 80 90 100 110 120 130
33000
30000
27000
24000
21000
18000
15000
12000
9000
6000
3000
Speed in rpm121 Kw
146 Kw
250 bar
19RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
Min. required pressure difference DDDDDp with idling speed (shaft unloaded)
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
MR33 - 110
MR - MRE350 - 800
MR - MRE125 - 330
MR - MRE1100 - 2100
4
16
12
8
28
24
20
32
200 400 800600 1000 1200 1400
pre
ssure
dro
p in
bar
Speed in rpm
MR 110
MR 93
MR 73
MR 57
MR 33
8
4
20
16
12
32
28
24
36
50 150100 200 600300250 400350 500450 550 640
pre
ssu
re d
rop
in b
ar
Speed in rpm
MR 350MR 450
MRE 800
MR 700
MR 600MRE 50
0
12
4
8
24
20
16
36
32
28
200100 300 500400 700600 800 900Speed in rpm
pre
ssure
dro
p in
bar
MR125MR 200MR 250
MR 190
MR160
MRE 3
30
MR 300
4
8
28
24
20
16
12
pre
ssu
re d
rop
in b
ar
Speed in rpm30012030 60 90 150 180 210 240 270 330
MR 1
800MRE 2
100
MR 1100
MRE 1
400
MR 160
0
20RCOe 1806/07.01
Minimum boost pressure during pump operation
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
Min. required pressure difference DDDDDp with idling speed (shaft unloaded)
MR - MRE2400 - 8200
MR33 - 110
MR - MRE125 - 330
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
4
16
12
8
28
24
20
36
32
200 400 800600 1000 1200 1400Speed in rpm
Min
. boo
st p
ress
ure
in b
ar
MR 110
MR 73
MR 57
MR 33
MR 93
8
4
24
20
16
12
36
32
28
200100 300 500400 600 800700 950900Speed in rpm
Min
. boo
st p
ress
ure
in b
ar
MR 190
MR 200
MR 160
MR 125
MR 250
MRE 3
30
MR 300
8
4
36
32
28
24
20
16
12
604020 20012010080 180160140 220
pre
ssu
re d
rop
in b
ar
Speed in rpm
MRE 3100MR 7
000
MR 6500
MRE
820
0
MR 4500
MR 3600
MR 5400
MR 2400MR 2800
21RCOe 1806/07.01
OPERATING DIAGRAM - MOTOR TYPE MR - MRE
OPERATING DIAGRAM (average values) measured at n = 36 mm2/s; t = 45° C; p outlet = 0 bar
Minimum boost pressure during pump operation
MR - MRE350 - 800
MR - MRE1100 - 2100
MR - MRE2400 - 8200
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
16
4
12
8
20
24
28
32
36
640100 200 300 400 500 600150 250 350 450 55050Speed in rpm
Min
. boo
st p
ress
ure
in b
ar MR 700
MRE 500
MR 600
MR 350MR 450
MRE 800
4
16
12
8
24
20
32
28
30 2409060 120 180150 210 330270 300Speed in rpm
Min
. boo
st p
ress
ure
in b
ar
MRE 2
100
MR 1
800
MRE
140
0
MR 1100
MR 1
600
8
4
24
16
12
20
36
32
28
40
10020 6040 80 120 140 160 200180 220Speed in rpm
Min
. boo
st p
ress
ure
in b
ar
MR
E 82
00
MR 3600
MR 7
000
MR 6500
MRE 5400
MR 4500
MR 2800
MR 2400MRE 3100
22RCOe 1806/07.01
RADIAL LOAD - MOTOR TYPE MR - MRE
ROTOM ROTOM ROTOM ROTOM ROTOMEPYT
LAIDAR LAIDAR LAIDAR LAIDAR LAIDARECROF XAM XAM XAM XAM XAM IIIII
YLFEIRBHTIWDETTIMREP
DAOLCIMANYDNkniF 11111)))))
ERTNECTFAHSNIECROFLAIDARDETTIMREP.XAM ERTNECTFAHSNIECROFLAIDARDETTIMREP.XAM ERTNECTFAHSNIECROFLAIDARDETTIMREP.XAM ERTNECTFAHSNIECROFLAIDARDETTIMREP.XAM ERTNECTFAHSNIECROFLAIDARDETTIMREP.XAMLNODESAB 01H 01H 01H 01H 01H SRUOH0005 SRUOH0005 SRUOH0005 SRUOH0005 SRUOH0005
nideeps nideeps nideeps nideeps nideepsmprERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNI
rab002NkniF
ERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNIrab051
NkniF
ERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNI ERUSSERPTUPNIrab001
NkniF
33RM 33RM 33RM 33RM 33RM 0,91 5,9 2,01 6,01 004
75RM 75RM 75RM 75RM 75RM 0,91 5,9 2,01 6,01 004
37RM 37RM 37RM 37RM 37RM 5,22 0,9 6,11 5,31 053
39RM 39RM 39RM 39RM 39RM 5,22 0,9 6,11 5,31 053
011RM 011RM 011RM 011RM 011RM 5,22 0,9 6,11 5,31 053
521RM 521RM 521RM 521RM 521RM 5,22 0,5 9,9 9,21 572
061RM 061RM 061RM 061RM 061RM 5,22 0,5 9,9 9,21 572
091RM 091RM 091RM 091RM 091RM 5,22 0,5 9,9 9,21 572
*002RM *002RM *002RM *002RM *002RM - - - - -
052RM 052RM 052RM 052RM 052RM 0,82 6,5 9,9 6,21 052
003RM 003RM 003RM 003RM 003RM 0,82 6,5 9,9 6,21 052
053RM 053RM 053RM 053RM 053RM 0,53 5,41 4,81 2,12 522
054RM 054RM 054RM 054RM 054RM 0,53 5,41 4,81 2,12 522
006RM 006RM 006RM 006RM 006RM 0,34 0,51 5,22 3,72 002
007RM 007RM 007RM 007RM 007RM 0,34 0,51 5,22 3,72 002
0011RM 0011RM 0011RM 0011RM 0011RM 0,45 5,81 5,82 2,53 051
0061RM 0061RM 0061RM 0061RM 0061RM 0,86 2,62 6,04 0,05 521
0081RM 0081RM 0081RM 0081RM 0081RM 0,86 2,62 6,04 0,05 521
0042RM 0042RM 0042RM 0042RM 0042RM 0,58 1,05 0,66 8,67 011
0082RM 0082RM 0082RM 0082RM 0082RM 0,58 0,45 0,96 4,97 001
0063RM 0063RM 0063RM 0063RM 0063RM 0,801 0,55 0,09 0,301 001
0054RM 0054RM 0054RM 0054RM 0054RM 0,801 0,87 0,79 0,901 58
0056RM 0056RM 0056RM 0056RM 0056RM 0,431 0,47 0,321 0,141 05
0007RM 0007RM 0007RM 0007RM 0007RM 0,431 0,47 0,321 0,141 05
033ERM 033ERM 033ERM 033ERM 033ERM 0,82 5,4 5,8 9,11 052
005ERM 005ERM 005ERM 005ERM 005ERM 0,53 4,21 3,71 8,02 522
008ERM 008ERM 008ERM 008ERM 008ERM 0,34 5,8 8,91 3,62 002
0041ERM 0041ERM 0041ERM 0041ERM 0041ERM 0,45 6,8 0,42 6,33 041
0012ERM 0012ERM 0012ERM 0012ERM 0012ERM 0,86 5,21 6,53 3,84 021
0013ERM 0013ERM 0013ERM 0013ERM 0013ERM 0,58 0,54 5,46 6,77 001
0045ERM 0045ERM 0045ERM 0045ERM 0045ERM 0,801 0,36 2,09 3,701 08
0028ERM 0028ERM 0028ERM 0028ERM 0028ERM 0,431 0,86 0,011 0,821 05
11111 "1F"edocylno*002RM-detpeccaebnacseulavrehgih,noitidnoccimanydehthtiwecnadroccani) "1F"edocylno*002RM-detpeccaebnacseulavrehgih,noitidnoccimanydehthtiwecnadroccani) "1F"edocylno*002RM-detpeccaebnacseulavrehgih,noitidnoccimanydehthtiwecnadroccani) "1F"edocylno*002RM-detpeccaebnacseulavrehgih,noitidnoccimanydehthtiwecnadroccani) "1F"edocylno*002RM-detpeccaebnacseulavrehgih,noitidnoccimanydehthtiwecnadroccani)
RADIAL LOAD
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
23RCOe 1806/07.01
BEARING LIFE - MOTOR TYPE MR - MRE
L10h is the theoretically service life value normally reached or exceeded by the 90% of the bearings.
50 % of the bearings reach the value L50h = 5 times L 10h.
C p = Load coefficentK = Sevice life coefficent for standard bearingp = operating pressure in bar
EPYTROTOM EPYTROTOM EPYTROTOM EPYTROTOM EPYTROTOM KKKKK EPYTROTOM EPYTROTOM EPYTROTOM EPYTROTOM EPYTROTOM KKKKK EPYTROTOM EPYTROTOM EPYTROTOM EPYTROTOM EPYTROTOM KKKKK
33RM 33RM 33RM 33RM 33RM 0512 033ERM 033ERM 033ERM 033ERM 033ERM 058 0012ERM 0012ERM 0012ERM 0012ERM 0012ERM 227
75RM 75RM 75RM 75RM 75RM 0512 053RM 053RM 053RM 053RM 053RM 6211 0042RM 0042RM 0042RM 0042RM 0042RM 429
37RM 37RM 37RM 37RM 37RM 0231 054RM 054RM 054RM 054RM 054RM 6211 0082RM 0082RM 0082RM 0082RM 0082RM 429
39RM 39RM 39RM 39RM 39RM 0231 005ERM 005ERM 005ERM 005ERM 005ERM 1201 0013ERM 0013ERM 0013ERM 0013ERM 0013ERM 828
011RM 011RM 011RM 011RM 011RM 0231 006RM 006RM 006RM 006RM 006RM 029 0063RM 0063RM 0063RM 0063RM 0063RM 907
521RM 521RM 521RM 521RM 521RM 059 007RM 007RM 007RM 007RM 007RM 029 0054RM 0054RM 0054RM 0054RM 0054RM 907
061RM 061RM 061RM 061RM 061RM 059 008ERM 008ERM 008ERM 008ERM 008ERM 808 0045ERM 0045ERM 0045ERM 0045ERM 0045ERM 195
091RM 091RM 091RM 091RM 091RM 059 0011RM 0011RM 0011RM 0011RM 0011RM 448 0056RM 0056RM 0056RM 0056RM 0056RM 017
002RM 002RM 002RM 002RM 002RM 059 0041ERM 0041ERM 0041ERM 0041ERM 0041ERM 396 0007RM 0007RM 0007RM 0007RM 0007RM 017
052RM 052RM 052RM 052RM 052RM 059 0061RM 0061RM 0061RM 0061RM 0061RM 538 0028ERM 0028ERM 0028ERM 0028ERM 0028ERM 055
003RM 003RM 003RM 003RM 003RM 059 0081RM 0081RM 0081RM 0081RM 0081RM 538
BEARING LIFE
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
Motor speed [rpm]
Load coefficent
L50h
L10h
24R
CO
e 1806/07.01
MO
TOR
DIM
EN
SIO
NS
- MO
TOR
TY
PE
MR
- MR
E
1 Splined shaft with flank contact (for dimension see page 26)Ordering code "N1"(for further shaft ends see page 26 - 27)
2 Case drain portBSP threads to ISO 228/1
3 On request the port flange can berotated by 72°(For MR 33, MR 57, MR 73, MR 93,MR 110, MR 125, MR 160, MR 190,MR 200, MR 250, MR 300, MRE 330,MR 350, MR 450, MRE 500, MR 600,MR 700, MRE 800can be rotated by 36°)For standard position see ange a .
4 Port 1/4“ BSP threads to ISO 228/1for pressure reading.
L9
B2 B3
D6
AB
D7/T1 D11
2
2
314
Only MR 33, MR 57( SAE Standard)
fo.riDnoitatoR
nodeweiV()dnetfahs
telnitroPedocgniredro)53egapees(
esiwkcolc
esiwkcolc-itna
A
B"N"
esiwkcolc
esiwkcolc-itna
B
A"S"
The specified data are for product description purposes only and m
ust not be interpreted as warranted characteristic in a lega
l sense.
All rights reserved. S
ubject to revision.
25R
CO
e 1806/07.01
MO
TOR
DIM
EN
SIO
NS
- MO
TOR
TY
PE
MR
- MR
E
The specified data are for product description purposes only and m
ust not be interpreted as warranted characteristic in a lega
l sense.
All rights reserved. S
ubject to revision.
ROTOM ROTOM ROTOM ROTOM ROTOMEPYT
1L1L1L1L1L 2L2L2L2L2L 3L3L3L3L3L 4L4L4L4L4L 5L5L5L5L5L 6L6L6L6L6L 7L7L7L7L7L 8L8L8L8L8L 9L9L9L9L9L 01L 01L 01L 01L 01L 11L 11L 11L 11L 11L 21L 21L 21L 21L 21L 31L 31L 31L 31L 31L 1B1B1B1B1B 2B2B2B2B2B 3B3B3B3B3B 4B4B4B4B4BØØØØØ1D
ØØØØØ2D
ØØØØØ3D
ØØØØØ4D 8h8h8h8h8h *****
ØØØØØ5D
ØØØØØ6D
7D7D7D7D7D 1T1T1T1T1T 8D8D8D8D8D 9D9D9D9D9DØØØØØ
01DØØØØØ
11D ααααα βββββ
33RM 33RM 33RM 33RM 33RM75RM
2,352 691 841 701 2,75 41 91 07 4,25 2,011 5,87 07 7,91 421 56 2,62 4,96 4,532 061 081 521 - 021 01M 52 4/1G 9 79 52 °801 °63
37RM 37RM 37RM 37RM 37RM39RM011RM
792 5,822 5,091 5,131 5,86 71 02 45 43 8,911 49 27 - 021 05 001 09 052 402 4,422 541 - 921 8M 51 8/3G 11 - 02 °09 °63
521RM 521RM 521RM 521RM 521RM061RM091RM
903 242 402 541 76 41 61 45 43 5,741 301 27 5,6 021 05 001 001 2,313 522 942 061 - 921 8M 51 8/3G 11 061 02 °09 °63
002RM 002RM 002RM 002RM 002RM052RM003RM033ERM
323 242 402 541 18 51 61 45 43 5,351 911 27 5,7 021 05 001 001 823 232 652 571 09 921 8M 51 8/3G 11 261 02 °09 °63
053RM 053RM 053RM 053RM 053RM054RM005ERM
673 972 532 761 79 51 81 4,07 04 5,471 031 48 5,9 241 06 021 911 863 662 692 091 69 651 01M 81 8/3G 31 491 52 °09 °63
006RM 006RM 006RM 006RM 006RM007RM008ERM
004 992 552 781 101 51 02 4,07 04 291 341 48 8 241 06 021 331 504 092 023 022 201 651 01M 81 8/3G 31 702 52 °09 °63
0011RM 0011RM 0011RM 0011RM 0011RM0041ERM
854 143 392 302 711 02 22 28 05 322 561 501 9 261 37 631 841 074 033 763 052 021 271 21M 12 2/1G 51 822 13 °401 °63
0061RM 0061RM 0061RM 0061RM 0061RM0081RM0012ERM
605 473 623 632 231 12 42 28 05 462 791 501 11 261 37 631 861 855 083 324 092 841 271 21M 12 2/1G 71 662 13 °09 °63
0042RM 0042RM 0042RM 0042RM 0042RM0082RM0013ERM
916 664 293 582 351 42 62 89 26 303 122 321 51 802 68 081 091 246 044 494 533 041 512 41M 82 2/1G 91 413 73 °09 °63
0063RM 0063RM 0063RM 0063RM 0063RM0054RM0045ERM
5,996 5,984 5,814 5,703 012 43 82 89 86 5,953 742 041 91 032 611 002 042 667 045 795004
4D* 4D* 4D* 4D* 4D* 7h7h7h7h7h
- 512 61M 23 2/1G 32 083 83 °801 °63
0056RM 0056RM 0056RM 0056RM 0056RM0007RM0028ERM
697 665 594 483 032 73 03 89 86 3,704 742 041 12 032 611 002 462 468 006 6,856054
4D* 4D* 4D* 4D* 4D* 7h7h7h7h7h
091 512 61M 23 2/1G 52 054 83 °801 °63
26R
CO
e 1806/07.01
SH
AF
T E
ND
DIM
EN
SIO
NS
- MO
TOR
TY
PE
MR
- MR
E
1) on enquiry
Code B 1 - BS 3550 - 1) Code D 1 - DIN 5480 - (Standard)Code N 1 (Standard)
The specified data are for product description purposes only and m
ust not be interpreted as warranted characteristic in a lega
l sense.
All rights reserved. S
ubject to revision.
oisreV n NNNNN BBBBB DDDDD
EPYT EPYT EPYT EPYT EPYT 5L5L5L5L5L 12L 12L 12L 12L 12L 22L 22L 22L 22L 22L 21D 21D 21D 21D 21D 01T 01T 01T 01T 01T 31DØ 31DØ 31DØ 31DØ 31DØ 5L5L5L5L5L 12L 12L 12L 12L 12L 22L 22L 22L 22L 22L 21D 21D 21D 21D 21D 01T 01T 01T 01T 01T 31DØ 31DØ 31DØ 31DØ 31DØ 5L5L5L5L5L 12L 12L 12L 12L 12L 22L 22L 22L 22L 22L 21D 21D 21D 21D 21D 01T 01T 01T 01T 01T 31DØ 31DØ 31DØ 31DØ 31DØ
33RM75RM
75 04 82 - - 23x62x6B - - - - - - 75 04 82 - - e8-02x5,1x23W
37RM39RM011RM
5,86 5,15 5,13 21M - 43x82x6B - - - - - - 5,86 5,15 5,13 21M - e8-61x2x53W
521RM061RM091RM
76 05 5,53 21M 02 83x23x8B 76 05 5,53 21M 02 71-42/21 76 05 5,53 21M 02e8-81x2x83W
*002RM - - - - - - - - - - - - - - - - - -
052RM003RM
033ERM18 06 64 21M 52 84x24x8B 18 06 54 21M 52 12-42/21 18 06 64 21M 52 e8-22x2x84W
053RM054RM
005ERM79 47 5,65 21M 52 45x64x8B 79 47 16 21M 52 71-61/8 79 47 06 21M 52 e8-71x3x55W
006RM007RM
008ERM101 87 26 21M 52 06x25x8B 101 87 26 21M 52 71-61/8 101 87 26 21M 52 e8-81x3x06W
0011RM0041ERM
711 88 96 21M 52 27x26x8B 711 88 76 21M 52 41-21/6 711 88 27 21M 52 e8-22x3x07W
0061RM0081RM
0012ERM231 001 97 21M 52 28x27x01B 231 001 67 21M 52 02-21/6 231 001 08 21M 52 e8-52x3x08W
0042RM0082RM
0013ERM351 021 99 21M 52 29x28x01B 351 021 67 21M 52 02-21/6 351 021 001 21M 52 e8-12x4x09W
0063RM0054RM
0045ERM012 371 441 21M 52 211x201x01B 012 371 5,241 21M 52 02-21/6 012 371 441 21M 52 e8-62x4x011W
0056RM0007RM
0028ERM032 881 051 21M 52 521x211x01B 032 881 351 21M 52 62-21/6 032 881 351 21M 52 e8-82x4x021W
ehtybderiuqersnoisnemidselohehtesacnI.selohecivressaderedisnocebtsum"1D"dna"1B","1N"snoisrevtfahsehtrof)01T/21D(selohdedaerhteht:ETON.inozlaCNOSINEDtcatnoceselp,evobaerehdetsilsenoehtmorftnereffideranoitacilppa
"1F"edocylno*002RM
27R
CO
e 1806/07.01
SH
AF
T E
ND
DIM
EN
SIO
NS
- MO
TOR
TY
PE
MR
- MR
E
Code P 1Code F 1 - DIN 5480 -
The specified data are for product description purposes only and m
ust not be interpreted as warranted characteristic in a lega
l sense.
All rights reserved. S
ubject to revision.
noisreV noisreV noisreV noisreV noisreVFFFFF PPPPP
epyT epyT epyT epyT epyT5L5L5L5L5L 12L 12L 12L 12L 12L 22L 22L 22L 22L 22L
31DØ 31DØ 31DØ 31DØ 31DØNID 0845
5L5L5L5L5L 12L 12L 12L 12L 12L 62L 62L 62L 62L 62L 21D 21D 21D 21D 21D 01T 01T 01T 01T 01T41DØ 41DØ 41DØ 41DØ 41DØ yeK yeK yeK yeK yeK
BxL
dettimsnarT dettimsnarT dettimsnarT dettimsnarT dettimsnarTeuqrot)mN(
ETON ETON ETON ETON ETONoteuqrotehtfoseulavrehgihroF
tlusnocesaelp,dettimsnartebNOSINED inozlaC
33RM75RM
71 5 12 H9-12x52,1x82N - - - - - - -
37RM39RM
011RM71 5 62 H9-41x2x23N - - - - - - -
521RM061RM091RM
41 5 82 H9-61x2x53N 76 05 34 21M 02 6k04 21x54 694
*002RM 72 5 63 H9-81x2x04N - - - - - - - -
052RM003RM033ERM
72 5 63 H9-81x2x04N 18 06 5,35 21M 52 6k05 41x65 798
053RM054RM
005ERM82 5 83 H9-22x2x74N 79 47 95 21M 52 6k55 61x07 3141
006RM007RM
008ERM82 5 44 H9-71x3x55N 101 87 46 21M 52 6k06 81x07 0302
0011RM0041ERM
83 8 05 H9-02x3x56N 711 88 5,67 21M 52 6k07 02x08 0962
0061RM0081RM
0012ERM74 8 75 H9-42x3x57N 231 001 58 21M 52 6k08 22x09 0204
0042RM0082RM
0013ERM84 8 26 H9-72x3x58N 351 021 59 21M 52 6k09 52x011 7026
0063RM0054RM
0045ERM05 41 86 H9-23x3x001N 012 371 611 21M 52 6k011 82x061 75701
0056RM0007RM
0028ERM05 41 67 H9-53x3x011N 032 881
831**
21M 52 8b421 23x081-2°N 07282
eranoitacilppaehtybderiuqersnoisnemidselohehtesacnI.selohecivressaderedisnocebtsum"1P"snoisrevtfahsehtrof)01T/21D(selohdedaerhteht:ETON.inozlaCNOSINEDtcatnoceselp,evobaerehdetsilsenoehtmorftnereffid
"1F"edocylno*002RMsyekowtsedulcninoisnemidsihT**
Code P 1 **
Only MR 6500, MR 7000,MRE 8200
28RCOe 1806/07.01
COMPONENTS FOR SPEED CONTROL - MOTOR TYPE MR - MRE
MECHANICALTACHOMETER DRIVE
TACHOGENERATORDRIVE
ENCODERDRIVE
INCREMENTAL ENCODER
DIMENSIONS
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
encoder
encoder drive flangeprotection
(see page 26)
Female connector included in the supply
a = 126° for the motor types MR 33-57
a = 54° for the motor types MR 73-93-110-125-160-190-200-250-300 MRE 330
a =45° for the other types
a
( ) * Motor MR 73-93-110-125-160-190-200-250-300 MRE 330( )** Motor MR 33-57
Code "C1" Code "T1" Code "Q1"
2x M8x45 (2x M8x50)* 2x M8x45 (2x M8x50)* 2x M8x30 (2x M8x35)*
(27)**
(62)**
(27)**(27)**
29RCOe 1806/07.01
COMPONENTS FOR SPEED CONTROL - MOTOR TYPE MR - MRE
Encoder type: ELCIS mod. 478
Supply voltage: 8 to 24 Vcc
Current consumption: 120 mA max
Current output: 10 mA max
Output signal: A phase- MONODIRECTIONALA and B phase BIDIRECTIONAL
Response frequency: 100 KHz max
Number of pulses: 500 (others on request - max 2540)
Slew speed: Always compatible with maximummotor speed
Operating temperature range: from 0 to 70 °C
Storage temperature range: from -30 to +85 °C
Ball bearing life: 1.5x109 rpm
Weigth: 100 gr
Protection degree: IP 67 (with protection andconnector assembled)
Connectors:
MONODIRECTIONAL RSF3/0.5 M (Lumberg) maleRKT3-06/5m (Lumberg) female
BIDIRECTIONAL RSF4/0.5 M (Lumberg) maleRKT4-07/5m (Lumberg) female
Note: Female connectors cable length equal to 5 m.
INCREMENTAL ENCODER
TECHNICAL DATA
Monodirectional
4 3 3 4
1 1
4 3 3 4
1 1
1 1 1
4 4
1
4 4
3 3 3 3
2 2
Femaleconnector
Maleconnector
Maleconnector
INCREMENTAL ENCODER
CONNECTION DIAGRAMS
Bidirectional
2 2
Femaleconnector
noitcnufdnaseriwroloC noitcnufdnaseriwroloC noitcnufdnaseriwroloC noitcnufdnaseriwroloC noitcnufdnaseriwroloC
11111 nworB nworB nworB nworB nworB )cdV42ot8(ylppuSrewoP
22222 etihW etihW etihW etihW etihW )ccV42-Am01XAM(esahpBtuptuO
33333 eulB eulB eulB eulB eulB )cdV0(ylppuSrewoP
44444 kcalB kcalB kcalB kcalB kcalB )ccV42-Am01XAM(esahpAtuptuO
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
30RCOe 1806/07.01
PIPE CONNECTION FLANGES - MOTOR TYPE MR - MRE
STANDARD CONNECTION FLANGECode “C1“
Flange is supplied complete with screws and seals.
SAE CONNECTION FLANGECodice “S1“Codice “T1“Codice “G1“Codice “L1“
Permitted up to 6000 PSI
RMRMRMRMRMERM
DDDDD)PSB(
HHHHH EDOC EDOC EDOC EDOC EDOCRBN
EDOC EDOC EDOC EDOC EDOCMPF
061-521 061-521 061-521 061-521 061-521091
052-002033-003
"4/3 63 890262 493922
054-053 054-053 054-053 054-053 054-053005
007-006008
"4/11 04 980262 593922
0041-0011 0041-0011 0041-0011 0041-0011 0041-00110081-0061
0012"2/11 54 390262 693922
0082-0042 0082-0042 0082-0042 0082-0042 0082-00420013
"2/11 06 275462 793922
0054-0063 0054-0063 0054-0063 0054-0063 0054-00630045
0007-00560028
"2 06 427272 893922
RMRMRMRMRMERM
EAS EAS EAS EAS EASISP
DDDDD
HHHHH IIIII XXXXX YYYYY
CIRTEM CIRTEM CIRTEM CIRTEM CIRTEM CNU CNU CNU CNU CNU
"""""mmmmmmmmmm
T/Z T/Z T/Z T/Z T/Z
nosineD nosineD nosineD nosineD nosineDinozlaC°Ntrap
RBN
)"(Z )"(Z )"(Z )"(Z )"(Z TTTTT
nosineD nosineD nosineD nosineD nosineDinozlaC°Ntrap
RBN
061-521 061-521 061-521 061-521 061-521091
052-002033-003
0005 "4/3 91 63 55 2,22 6,74 52/01M 592772 61-"8/3 52 533322
054-053 054-053 054-053 054-053 054-053005
007-006008
0005 "1 52 04 06 2,62 4,25 52/01M 792772 61-"8/3 52 633322
0041-0011 0041-0011 0041-0011 0041-0011 0041-00110061-0081
0012
0004 "4/11 13 54 57 2,03 7,85 52/01M 992772 41-"61/7 03 733322
0006 "1 52 54 17 8,72 51,75 22/21M 661032 41-"61/7 03 290243
0082-0042 0082-0042 0082-0042 0082-0042 0082-00420013
0003 "2/11 73 06 68 7,53 8,96 03/21M 103772 31-"2/1 03 833322
0006 "2/11 73 06 5,79 5,63 4,97 03/61M 861032 11-"8/5 53 860943
0054-0063 0054-0063 0054-0063 0054-0063 0054-00630045
0007-00560028
0003 "2 05 06 211 9,24 8,77 03/21M 303772 31-"2/1 03 933322
0006 "2 05 06 611 54,44 28,69 53/02M 071032 01-"4/3 83 745243
Flange is supplied complete with screws and seals. FPM seals enquiry.
BSP threads to ISO 228/1
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
31RCOe 1806/07.01
COUPLINGS - KEY ADAPTERS - MOTOR TYPE MR - MRE
COUPLINGS
1 For standard male splined shaft version "N1" (see page 26).
22222ADAPTERS WITH KEY
1 For standard male splined shaft version "N1" (see page 26).2 Key to DIN 6885
11111
11111
RMRMRMRMRMERM
GNIREDRO GNIREDRO GNIREDRO GNIREDRO GNIREDROEDOC
RRRRR3645NIDXE
)mm(ddddd IIIII DDDDD 6k6k6k6k6k LLLLL bbbbb ttttt
)mm(yeK )mm(yeK )mm(yeK )mm(yeK )mm(yeK5886NID
061-521 061-521 061-521 061-521 061-521091
711172 83x23x8A 3,83 5,51 85 05 01 16 54x8x01
003-052 003-052 003-052 003-052 003-052033
811172 84x24x8A 3,84 51 07 06 41 5,37 65x9x41
054-053 054-053 054-053 054-053 054-053005
911172 45X64x8A 3,45 5,81 08 57 61 48 07x01x61
007-006 007-006 007-006 007-006 007-006008
021172 06x25x8A 3,06 91 09 08 81 49 07x11x81
0041-0011 0041-0011 0041-0011 0041-0011 0041-0011 121172 27x26x8A 3,27 02 501 89 02 5,901 09x21x02
0081-0061 0081-0061 0081-0061 0081-0061 0081-00610012
221172 28x27x01A 3,28 22 811 811 22 321 011x41x22
0082-0042 0082-0042 0082-0042 0082-0042 0082-00420013
321172 29x28x01A 3,29 32 031 841 52 531 041x41x52
0054-0063 0054-0063 0054-0063 0054-0063 0054-00630045
917272 211x201x01A 3,211 03 061 881 82 661 081x61x82
0007-0056 0007-0056 0007-0056 0007-0056 0007-00560028
674322 521x211x01A 6,621 83 581 881 54 591 081x52x54
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
RMRMRMRMRMERM
GNIREDRO GNIREDRO GNIREDRO GNIREDRO GNIREDROEDOC
AAAAA BBBBB CCCCC 11H 11H 11H 11H 11H DDDDD EEEEE FFFFF GGGGG
061-521 061-521 061-521 061-521 061-521091
302564 411 65 93 74 45 5,51 5,43
003-052 003-052 003-052 003-052 003-052033
202564 531 17 94 06 46 51 54
054-053 054-053 054-053 054-053 054-053005
102564 551 08 55 86 86 5,81 5,55
007-006 007-006 007-006 007-006 007-006008
002564 171 09 16 57 08 91 95
0011 0011 0011 0011 00110041
587464 681 601 37 5,88 5,58 02 5,56
0081-0061 0081-0061 0081-0061 0081-0061 0081-00610012
991564 422 811 38 89 701 22 87
0082-0042 0082-0042 0082-0042 0082-0042 0082-00420013
891564 562 231 39 211 721 32 79
0054-0063 0054-0063 0054-0063 0054-0063 0054-00630045
296474 553 051 311 621 561 03 041
0007-0056 0007-0056 0007-0056 0007-0056 0007-00560028
445224 093 591 621 041 581 83 741
32RCOe 1806/07.01
HOLDING BRAKE UNIT DIMENSIONS - MOTOR TYPE MR - MRE
EPYTEKARB EPYTEKARB EPYTEKARB EPYTEKARB EPYTEKARB 091B 091B 091B 091B 091B 003B 003B 003B 003B 003B 054B 054B 054B 054B 054B 007B 007B 007B 007B 007B 0011B 0011B 0011B 0011B 0011B 0081B 0081B 0081B 0081B 0081B 0082B 0082B 0082B 0082B 0082B
EPYTROTOM EPYTROTOM EPYTROTOM EPYTROTOM EPYTROTOMERM-RM
061-521 061-521 061-521 061-521 061-521091
003-052 003-052 003-052 003-052 003-052033
054-053 054-053 054-053 054-053 054-053005
007-006 007-006 007-006 007-006 007-006008
0041-0011 0041-0011 0041-0011 0041-0011 0041-0011 0081-0061 0081-0061 0081-0061 0081-0061 0081-00610012
0082-0042 0082-0042 0082-0042 0082-0042 0082-00420013
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
EPYTEKARB EPYTEKARB EPYTEKARB EPYTEKARB EPYTEKARB 1L1L1L1L1L 2L2L2L2L2L 3L3L3L3L3L 4L4L4L4L4L 5L5L5L5L5L 6L6L6L6L6L 7L7L7L7L7L 01L 01L 01L 01L 01L 11L 11L 11L 11L 11L 12L 12L 12L 12L 12L 22L 22L 22L 22L 22L 1D1D1D1D1D 2D2D2D2D2D 3D3D3D3D3D 4D4D4D4D4D 8h8h8h8h8h 5D5D5D5D5D 6D6D6D6D6D 7D7D7D7D7D 9D9D9D9D9D 21D 21D 21D 21D 21D 31D 31D 31D 31D 31D 01T 01T 01T 01T 01T ααααα11111 ααααα22222
091B 121 - 22 41 76 14 3,92 02 27 05 5,53H9-81x2x83N
0845NID052 522 061 - "4/1G '8/3G 5,01 21M
83x23x8B3645NIDxe
82 '03°22 '03°22
003B 631 - 52 51 18 24 5,93 12 68 06 64H9-22x2x84N
0845NID652 232 571 - "4/1G '8/3G 5,01 21M
84x24x8B3645NIDxe
82 '03°22 '03°22
054B 741 - 72 51 79 5,94 63 42 001 47 5,65H9-71x3x55N
0845NID692 662 091 - "4/1G '8/3G 5,31 21M
45x64x8B3645NIDxe
82 '03°22 '03°22
007B 271 - 82 51 101 55 64 52 501 87 26H9-81x3x06N
0845NID023 092 022 - "4/1G '8/3G 5,31 21M
06x25x8B3645NIDxe
82 '03°22 '03°22
0011B 881 02 62 42 711 17 5,35 84 021 88 27H9-22x3x07N
0845NID063 033 052 021 "4/1G
-61M5,1x
51 21M27x26x8B3645NIDxe
82 °0 °0
0081B 612 - 82 12 231 5,36 5,85 43 531 001 97H9-52x3x08N
0845NID324 083 092 - "4/1G '2/1G 5,71 21M
28x27x01B3645NIDxe
82 '03°22 '03°22
0082B 362 - 03 42 351 78 76 5,24 561 021 99H9-12x4x09N
0845NID494 044 533 - "4/1G '2/1G 91 21M
29x28x01B3645NIDxe
82 '03°22 '03°22
Same dimensionsstandard male splinedshaft version "N1"(see page 26)
ααααα1, ααααα2 Corresponding angles to the release ports 1 and 2, to case the drain ports 1 and 2
Release portsCase drain ports
Release portsCase drain ports
Case drain portsRelease ports
ø D
2
D7
L1
L11
D1
L10
L6D6
L7
L5L4
ø D
4 h
8
ø D
9
N°
5 H
OL
ES
L2L3
ø D
5
D12
T10
L21L22
ø D
3
ø D
13
33RCOe 1806/07.01
HOLDING BRAKE TECHNICAL DATA - MOTOR TYPE MR - MRE
TECHNICAL DATA (For operation outside these parameters, please consult DENISON Calzoni)
CODE Example: BRAKE - B 450 - N1 V1 **
091B 091B 091B 091B 091B "C"ezisrotomrofekarB
003B 003B 003B 003B 003B "D"ezisrotomrofekarB
054B 054B 054B 054B 054B "E"ezisrotomrofekarB
007B 007B 007B 007B 007B "F"ezisrotomrofekarB
0011B 0011B 0011B 0011B 0011B "G"ezisrotomrofekarB
0081B 0081B 0081B 0081B 0081B "H"ezisrotomrofekarB
0082B 0082B 0082B 0082B 0082B "I"ezisrotomrofekarB
1. BRAKE - B 450 NI V1 **
********** inozlaCnosineDotdevreserecapS
1N1N1N1N1N liolarenim:RBN
*1V *1V *1V *1V *1V slaesMPF
1U1U1U1U1U )ekarbrof(laestfahsoN
inozlaCNOSINEDtcatnocesaelp* inozlaCNOSINEDtcatnocesaelp* inozlaCNOSINEDtcatnocesaelp* inozlaCNOSINEDtcatnocesaelp* inozlaCNOSINEDtcatnocesaelp*
3. BRAKE - B 450 - N1 V1 **
1N1N1N1N1N )62egapees(3645NIDxeenilpS
*1D *1D *1D *1D *1D )62egapees(0845NIDenilpS
*1F *1F *1F *1F *1F )72egapees(0845NIDenilpselameF
inozlaCNOSINEDtcatnocesaelp* inozlaCNOSINEDtcatnocesaelp* inozlaCNOSINEDtcatnocesaelp* inozlaCNOSINEDtcatnocesaelp* inozlaCNOSINEDtcatnocesaelp*
2. BRAKE - B 450 - N1 V1 **
4. BRAKE - B 450 - N1 V1 **
BRAKE TYPE
SHAFT
SEALS
SPECIAL
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
SCITSIRETCARAHC SCITSIRETCARAHC SCITSIRETCARAHC SCITSIRETCARAHC SCITSIRETCARAHCEPYTEKARB EPYTEKARB EPYTEKARB EPYTEKARB EPYTEKARB
091B 091B 091B 091B 091B 003B 003B 003B 003B 003B 054B 054B 054B 054B 054B 007B 007B 007B 007B 007B 0011B 0011B 0011B 0011B 0011B 0081B 0081B 0081B 0081B 0081B 0082B 0082B 0082B 0082B 0082B
EUQROTGNIKARBCITATS EUQROTGNIKARBCITATS EUQROTGNIKARBCITATS EUQROTGNIKARBCITATS EUQROTGNIKARBCITATS mNmNmNmNmN 0521 0081 0562 0004 0026 00411 00171
EUQROTGNIKARBCIMANYD EUQROTGNIKARBCIMANYD EUQROTGNIKARBCIMANYD EUQROTGNIKARBCIMANYD EUQROTGNIKARBCIMANYD mNmNmNmNmN 078 0021 0541 0022 0024 0526 00021
ERUSSERPESAELER ERUSSERPESAELER ERUSSERPESAELER ERUSSERPESAELER ERUSSERPESAELER rab rab rab rab rab 82 82 72 72 72 03 03
ERUSSERPGNITAREPO.XAM ERUSSERPGNITAREPO.XAM ERUSSERPGNITAREPO.XAM ERUSSERPGNITAREPO.XAM ERUSSERPGNITAREPO.XAM rab rab rab rab rab 024 024 024 024 024 024 024
STRAPGNITATORFOAITRENIFOTNEMOM STRAPGNITATORFOAITRENIFOTNEMOM STRAPGNITATORFOAITRENIFOTNEMOM STRAPGNITATORFOAITRENIFOTNEMOM STRAPGNITATORFOAITRENIFOTNEMOM mgK mgK mgK mgK mgK 22222 7400,0 2600,0 920,0 340,0 160,0 02,0 72,0
THGIEW THGIEW THGIEW THGIEW THGIEW gKgKgKgKgK 23 93 45 47 001 851 262
ERMRMEPYTROTOM ERMRMEPYTROTOM ERMRMEPYTROTOM ERMRMEPYTROTOM ERMRMEPYTROTOM521061091
052003033
053054005
006007008
00110041
006100810012
004200820013
34RCOe 1806/07.01
INSTALLATION NOTES - MOTOR TYPE MR - MRE
Mounting
Any mounting position- Note the position of the case drain port
(see below)
Install the motor properly- Mounting surface must be flat and resistant
to bending
Min. tensile strength of mounting screws toDIN 267 Part 3 class 10.9
- Note the prescribed fastening torque
Pipes, pipe connections
Use suitable screws!- Depending on type of motor use either
threaded or flange connection
Choose pipes and hoses suitable for the installation- Please note manufacturing data!
Before operation fill with hydraulic fluid- Use the prescribed filter!
Coupling
- Mounting with screws- Use threaded bore in
the drive shaft- Take apart with extractor
NOTE: Two of the mounting screws must be precisely located/fitted if operation is started and stopped frequently or if highreversible frequencies exist.
Note: Position the case drain pipe, so thatthe motor cannot run empty.
T = SealY = Motor housing feeding line
= Bleed
Curved tooth couplinghub
Screw to remove thecoupling hub
*****
*)
Bleed point
(release to bleed)
Low pressure case drain returns to tank. Low pressure case drain returns to tank.
Motors without shaft seal used with brake
Tank located in higher position
N° 2 lockingscrew forbleed point(on enquiry)
*) Special designs for applications, where the equipmentneeds to be filled with oil.(e.g. in a salty atmosphere)
DRAIN AND FLUSHING LINK INSTALLATION EXAMPLES
Flushing p max= 5 bar Flushing p max= 5 bar
Cooling circuit for high power continuousoperation
Bleed screw(on enquiry)
Installation instructions for motorsof the series "MR - MRE"
Installation instructions for motorsof the series "MR - MRE with brakes"
Bleed point
Cooling circuit for high power continuous operation
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
35RCOe 1806/07.01
ORDERING CODE - MOTOR TYPE MR - MRE
CODE Example: MR 160C - N1 M1 F1 N1 N **
RMRMRMRMRM suounitnoc.xamrab052dradnats
ERM ERM ERM ERM ERM suounitnoc.xamrab012dednapxe
1. MR 160C - N1 M1 F1 N1 N **
1N1N1N1N1N )62egapees(3645NIDxeenilps
1D1D1D1D1D )62egapees((0845NIDenilps
1F1F1F1F1F )72egapees(0845NIDenilpselamef
1P1P1P1P1P )72egapees(yekhtiwtfahs
1B1B1B1B1B )62egapees(0553.S.Benilps
3. MR 160C - N1 M1 F1 N1 N **
1N1N1N1N1N enon
1Q1Q1Q1Q1Q )82egapees(evirdredocne
1C1C1C1C1C )82egapees(evirdretemohcatlacinahcem
1T1T1T1T1T )82egapees(evirdrotarenegohcat
1M1M1M1M1M redocnesiclElatnemercni)82egapees()ver/eslup005(
lanoitcerid-inU
1B1B1B1B1B lanoitcerid-iB
4. MR 160C - N1 M1 F1 N1 N **
1N1N1N1N1N liolarenimRBN
1F1F1F1F1F laestfahsrab51,RBN
1V1V1V1V1V slaesMPF
1U1U1U1U1U )ekarbrof(laestfahson
5. MR 160C - N1 M1 F1 N1 N **
NNNNN )Bnitelni:WCC,Anitelni:WC(noitatordradnats
SSSSS )Anitelni:WCC,Bnitelni:WC(noitatordesrever
7. MR 160C - N1 M1 F1 N1 N **
1N1N1N1N1N enon
1C1C1C1C1C )03egapees(inozlaCNOSINEDdradnats
1S1S1S1S1S )03egapees(cirtemEASdradnats
1T1T1T1T1T )03egapees(CNUEASdradnats
1G1G1G1G1G )03egapees(cirtemisp0006EAS
1L1L1L1L1L )03egapees(CNUisp0006EAS
6. MR 160C - N1 M1 F1 N1 N **
********** inozlaCnosineDotdevreserecaps8. MR 160C - N1 M1 F1 N1 N **
SERIES
SIZE & DISPLACEMENT
SHAFT
SPEED SENSOR OPTION
SEALS
CONNECTION FLANGE
ROTATION
SPECIAL
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
AAAAAedoc A33RM A33RM A33RM A33RM A33RM A75RM A75RM A75RM A75RM A75RM
mC 3 1,23 4,65
BBBBBedoc B37RM B37RM B37RM B37RM B37RM B39RM B39RM B39RM B39RM B39RM B011RM B011RM B011RM B011RM B011RM
mC 3 6,27 6,29 0,901
CCCCCedoc C521RM C521RM C521RM C521RM C521RM C061RM C061RM C061RM C061RM C061RM C091RM C091RM C091RM C091RM C091RM
mC 3 7,421 7,951 6,191
DDDDDedoc D002RM D002RM D002RM D002RM D002RM D052RM D052RM D052RM D052RM D052RM D003RM D003RM D003RM D003RM D003RM D033ERM D033ERM D033ERM D033ERM D033ERM
mC 3 2,991 9,052 1,403 4,233
EEEEEedoc E053RM E053RM E053RM E053RM E053RM E054RM E054RM E054RM E054RM E054RM E005ERM E005ERM E005ERM E005ERM E005ERM
mC 3 5,943 6,154 9,794
FFFFFedoc F006RM F006RM F006RM F006RM F006RM F007RM F007RM F007RM F007RM F007RM F008ERM F008ERM F008ERM F008ERM F008ERM
mC 3 9,706 9,607 2,408
GGGGGedoc G0011RM G0011RM G0011RM G0011RM G0011RM G0041ERM G0041ERM G0041ERM G0041ERM G0041ERM
mC 3 8,5211 5,9631
HHHHHedoc H0061RM H0061RM H0061RM H0061RM H0061RM H0081RM H0081RM H0081RM H0081RM H0081RM H0012ERM H0012ERM H0012ERM H0012ERM H0012ERM
mC 3 4,8951 6,9081 2,1902
IIIIIedoc I0042RM I0042RM I0042RM I0042RM I0042RM I0082RM I0082RM I0082RM I0082RM I0082RM I0013ERM I0013ERM I0013ERM I0013ERM I0013ERM
mC 3 0,3932 0,2972 7,3013
LLLLLedoc L0063RM L0063RM L0063RM L0063RM L0063RM L0054RM L0054RM L0054RM L0054RM L0054RM L0045ERM L0045ERM L0045ERM L0045ERM L0045ERM
mC 3 8,6363 7,2054 2,1045
MMMMMedoc M0056RM M0056RM M0056RM M0056RM M0056RM M0007RM M0007RM M0007RM M0007RM M0007RM M0028ERM M0028ERM M0028ERM M0028ERM M0028ERM
mC 3 5,0646 2,7696 4,6228
2. MR 160C - N1 M1 F1 N1 N **
36RCOe 1806/07.01
SALES AND SERVICE LOCATIONS WORLDWIDE - MOTOR TYPE MR - MRE
The specified data are for product description purposes only and must not be interpreted as warranted characteristic in a lega l sense.
All rights reserved. Subject to revision.
International Distributors In Europe : Cyprus Czech Republic Greece Hungary Iceland Jugosavia Norway Portugal Poland Romania Russia Slovakia Slovenia Switzerland The Faroe Islands Turkey In Africa : Algeria Egypt Ivory Coast Morocco Nigeria South Africa Tunisia In Middle East : Bahrein Iran Israel Jordan Kuwait Lebanon Pakistan Qatar Saudi Arabia Syria United Arab Emirates In Far East : Indonesia Korea Malaysia New Zealand Philippines Thailand South-America : Argentina Brazil Chile Colombia Ecuador Mexico Peru Venezuela Denison Calzoni S.p.a. Via Caduti di Sabbiuno 15/17 40011 Anzola dell’Emilia Bologna Italy Tel: +39 (051) 6501611 Fax: +39 (051) 736221 e-mail: [email protected]
Asia-Pacific
Australia
Denison Hydraulics PTY 41-43 St Hilliers Road P.O.Box 192 Auburn N.S.W. 2144, Australia Tel : +61 (2) 9646 5200 Fax : +61 (2) 9643 1305
Hong Kong
Denison Hydraulics Ltd. Unit 6A, 33/F Cable TV Tower 9 Hoi Shing Road, Tsuen Wan NT, Hong Kong Tel : +852 2498 8381 Fax : +852 2499 1522
Japan
Denison Japan Inc. 4-2-1 Tsujido-Shinmachi Fujisawa 251, Japan Tel : +81 (466) 35-3050 Fax : +81 (466) 35-2019
China
Denison Hydraulics Engineering Ltd. Room 8018, No. 601, Zhang Yang Road Pudong New Area Shanghai 200120, China Tel : +86 (21) 58205042/58205034 Fax : +86 (21) 58205014
Singapore
Denison Hydraulics LTD 11 Lorong Tukang Dua, Singapore 2261 Tel : +65 268 7840 Fax : +65 268 7847
Taiwan
Denison Hydraulics LTD 6F-10. No. 79,Sec. 2 Roosevelt Road, Taipei Tel : +65 268 7840 Fax : +65 268 7847
Europe
Austria
Denison Hydraulics GmbH Zweigneiderlassung Linz Haibachstraße 69 4061 Pasching, Austria Tel : +43 (72 29) 48 87 Fax : +43 (72 29) 6 30 92
Benelux
Denison Hydraulics Benelux B.V. Pascalstraat 100 3316 GR Dordrecht, Holland Tel : +31 (78) 6179 900 Fax : +31 (78) 6175 755
Denmark
Denison Hydraulics Denmark A/S Industrikrogen 2 2635 Ishöj, Denmark Tel : +45 (4371) 15 00 Fax : +45 (4371) 15 16
Finland
Denison Lokomec Polunmäenkatu 22 P.O.Box 116 33721 Tampere, Finland Tel : + 358 (3) 3575 100 Fax : + 358 (3) 3575 111
France
Denison Hydraulics S.A. 14 route du bois blanc BP 539 18105 Vierzon, France Tel : +33 (2) 48 53 01 20 Fax : +33 (2) 48 75 02 91
Great Britain
Denison Hydraulics UK LTD Kenmore road Wakefield 41, Industrial Park Wakefield, WF2 OXE West Yokshire, England Tel : +44 (1924) 826 021 Fax : +44 (1924) 826 146
Germany
Denison Hydraulik GmbH. Auf dem Sand 14 D-40721 Hilden Tel : +49 (2103) 940 300 Fax : +49 (2103) 940 558
Italy
Denison Hydraulics Srl Via Le Europa 68 20090 Cusago (MI), Italy Tel : +39 (02) 90330-1 Fax : +39 (02) 90390694/5/6
Denison Calzoni S.p.A Via Caduti di Sabbiuno15/17 40011 Anzola dell'Emilia Bologna, Italy Tel : +39 (051) 6501611 Fax : +39 (051) 736221
Spain
Denison Hydraulics S.A. Gomis 1 08023 Barcelona, Spain Tel : +34 (93)253 1919 Fax : +34 (93) 211 6507
Sweden
Denison Hydraulics Svenska AB Sporregatan 13
213 77 - Malmö, Sweden Tel : +46 (40) 600 13 00 Fax : +46 (40) 600 13 50
North America
Canada
Denison Hydraulics Canada Inc. 2320-1 Bristol Circle, Unit 1 Oakville, ON L6H 5S2, Canada Tel : +1 (905) 829 5800 Fax : +1 (905) 829 5805
Mexico, Central America, South America, Caribbean countries
Denison Hydraulics Corp. 6167 NW 181 Terrace Circle North Miami, FL 33015, USA Tel : +1 (305) 362 2246 Fax : +1 (305) 362 2246
USA
Denison Hydraulics Corp. 14249 Industrial Parkway Marysville, OH 43040, USA Tel : +1 (937) 644 3915 Fax : +1 (937) 642 3738
Others
Other European, Middle East, African countries
Denison Hydraulics S.A. 14 route du bois blanc BP 538 18105 Vierzon, France Tel : +33 (2) 48 53 01 20 Fax : +33 (2) 48 53 01 46
Your local Denison Hydraulics representative