Fixed Displacement Pump A2FO

RE 91401/01.97 Brueninghaus Hydromatik eries 6, for open circuits Axial tapered piston - bent axis design izes 5...1000 Nom. Pressure up to 400 bar Peak Pressure up to 4 bar RE 91401/01.97 replaces 11.95 he fixed displacement pump A2FO of axial piston, bent axis design is made suitable for hydrostatic drives in open circuits. Output flow is proportional to drive speed and displacement. hese pumps are suitable for use in mobile or industrial applications. he drive shaft bearings are designed to give the service life expected in these areas of operation. Careful selection of the displacements offered, permit sizes to be matched to practically every application. Favourable power / weight ratio Compact and economic design Optimum efficiency One piece pistons with piston rings Patented cylinder block drive system Brueninghaus Hydromatik 1/16

RE 91401/01.97 Ordering Code / tandard Program (Ordering code size 5 see page 7) A2F O / 6 Hydraulic fluid Mineral oil (no code) HF-fluids sizes 10...200 (no code) sizes 2...1000 1 ) E- Axial piston unit Bent axis design, fixed displacement A2F Drive shaft bearings 10...200 2..0 710..1000 Mechanical bearings (no code) Long-Life bearings L Mode of operation Pump, open circuit O ize Displacement V g (cm 3 ) 5 10 12 16 23 32 45 56 63 0 90 107 125 160 10 200 2 355 0 710 1000 izes 5...200: production plant Elchingen; izes 2...1000: production plant Horb eries 6 Index sizes 10...10 1 size 200 3 sizes 2...1000 0 Direction of rotation Viewed on shaft end clockwise R anti-clockwise L eals 10...200 2...1000 NBR (nitril-caoutchouc) P NBR (nitril-caoutchouc), shaft seal in FPM N FPM (fluor-caoutchouc) V haft end 10 12 16 23 32 45 56 63 0 90 107 125 160 10 200 2 355 0 710 1000 plined shaft A DIN 540 Z Parallel shaft with B key, DIN 65 P Mounting flange 10 12 16 23 32 45 56 63 0 90 107 125 160 10 200 2 355 0 710 1000 IO 4-hole B IO -hole H ervice line connections 2 ) A(B) AE, at side 05 AE, at rear A(B) threads at side 06 threads, at rear A(B)AE, at rear 11 AE, at rear = preferred program (preferred types see page 15) = available = not available 1 ) only in connection with drive shaft bearings "L" 2 ) threads of fixing screws are metric 2/16 Brueninghaus Hydromatik

RE 91401/11.95 echnical Data Fluid We request that before starting a project detailed information about the choice of pressure fluids and application conditions are taken from our catalogue sheets RE 900 (mineral oil), RE 901 (environmentally acceptable hydraulic fluids) and RE 903 (fire resistance fluids, HF). When using HF- or environmentally acceptable hydraulic fluids possible limitations for the technical data have to be taken into consideration. If necessary please consult our technical department (please indicate type of the hydraulic fluid used for your application on the order sheet). Operating viscosity range In order to optain optimum efficiency and service life, we recommend that the operating viscosity (at operating temperature) be selected from within the range: ν opt = operating viscosity 16... mm 2 /s referred to the tank temperature (open circuit). Viscosity limits he limiting values for viscosity are as follows: sizes 5...200 ν min =5 mm 2 /s, short term at a max. permissible temperature of t max = 115 C ν max = 1600 mm 2 /s, short term on cold start (t min = -40 C) sizes 2 1000 ν min = 10 mm 2 /s short term at a max. permissible leakage oil temp. of t max = 90 C ν max = 1000 mm 2 /s, short term on cold start (t min = -25 C) Please note that the max. fluid temperature is also not exceeded in certain areas (for instance bearing area). At temperatures of -25 C up to -40 C special measures may be required for certain installation positions. Please contact us for further information. election diagram 20-40 -20 1600 1000 600 400 viscosity ν (mm 2 /s) 200 100 60 40 20 10 5-40 t min = -40 C VG 0 20 40 60 0 100 VG 32 VG 6 VG 46 VG 100 fluid temperature range 1600 ν opt. 5-25 -10 0 10 30 70 90 115 temperature t ( C) 16 t max = +115 C Notes on the selection of the hydraulic fluid In order to select the correct fluid, it is necessary to know the operating temperature in the tank (open circuit) in relation to the ambient temperature. he hydraulic fluid should be selected so that within the operating temperature range, the operating viscosity lies within the optimum range (ν opt ) (see shaded section of the selection diagram). We recommend that the highest possible viscosity range should be chosen in each case. Example: At an ambient temperature of X C the operating temperature is 60 C. Within the operating viscosity range (ν opt ; shaded area), this corresponds to viscosity ranges VG 46 or VG 6. VG 6 should be selected. Important: he leakage oil (case drain oil) temperature is influenced by pressure and pump speed and is always higher than the tank temperature. However, at no point in the circuit may the temperature exceed 115 C for sizes 5 200 or 90 C for sizes 2 1000. If it is not possible to comply with the above conditions because of extreme operating parameters or high ambient temperatures please consult us. Filtration he finer the filtration the better the achieved purity grade of the pressure fluid and the longer the life of the axial piston unit. o ensure the functioning of the axial piston unit a minimum purity grade of: 9 to NA 163 6 to AE 1/15 to IO/DI 4406 is necessary. At very high temperatures of the hydraulic fluid (90 C to max. 115 C, not permissible for sizes 2 1000!) at least cleanless class to NA 163 5 to AE 17/14 to IO/DI 4406 is necessary. If above mentioned grades cannot be maintained please consult supplier. Direction of Flow clockwise rotation to B anti-clockwise rotation to A Installation position Any installation position possible. he pump housing must be filled with fluid prior the commissioning, and must remain full whenever it is operating. For extensive information on installation postition, please consult our data sheet RE 90270 before completing your design work. ymbol A, B service line port suction port drain port Brueninghaus Hydromatik 3/16

RE 91401/01.97 echnical Data Case drain pressure he lower the speed and the case drain pressure the higher the life expectation of the shaft seal ring. haft seal ring FPM (fluor-caoutchouc) he values shown in the diagram are permissible loads of the seal ring and shall not be exceeded. At stationary pressure loads in the range of the max. admissible leakage pressure a reduction of the life experience of the seal ring will result. For a short period (t < 5 min.) for the sizes 5 200 pressure loads up to 5 bar independent from rotational speeds are permissible. izes 10...200 perm. pressure p abs. max. (bar) izes 2...1000 perm. pressure p abs. max. (bar) 10 9 7 6 5 4 3 2 4 3,5 3 2,5 2 1,5 sizes 107,125 sizes 160,10 1 0 1000 size 200 2000 3000 size 0 size 710 sizes 10,12,16 4000 sizes 23,,32 size 45 00 6000 7000 000 speed n (rpm) size 2 sizes 56,63 sizes 0,90 size 355 size 1000 1 0 0 1000 10 2000 20 3000 speed n (rpm) Working pressure range inlet Minimum pressure at port p abs. min 0, bar Working pressure range outlet Maximum pressure at port A or B (Pressure data to DIN 24312) ize 5 haft end B haft end C Nominal pressure 210 bar 315 bar Peak pressure p max 2 bar 3 bar izes 10...200 haft end A haft end Z, B, P Nominal pressure 400 bar 3 bar *) Peak pressure p max 4 bar 400 bar *) Attention: shaft end Z and P with drives of radial force loads at the drive shaft (pinion V-belt drives) necessitate reduction of the nominal pressure to = 315 bar (please contact us). izes 2...1000 Nominal pressure Peak pressure p max 3 bar 400 bar With pulsating loads above 315 bar we recommend using the model with splined shaft, standard version A (sizes 10 200) or with splined shaft Z (sizes 2 1000). Long-Life bearings (L) (sizes 2...1000) (for high life expectancy and use of HF-fluids) he outer dimensions of the axial piston pumps are identical to standard design (without long life bearings). he change from standard design to long life bearing system is possible. We recommend to apply bearing flushing at port U. Bearing flushing For sizes 2...1000 bearing and housing flushing is possible through port U. Flushing flow (recommendation) ize 2 355 0 710 1000 q flush (L/min) 10 16 20 25 25 haft seal ring NBR (nitril-caoutchouc) For seal rings of NBR 33% reduced values for the max. permissible housing pressure p abs.max. are to be considered compared with seals of FPM. pecial operation conditions may require limitations of these values. - maximum permissible pump speeds are given in the table on page 5 - max. perm. casing pressure p abs. max 10 bar (sizes 5...200) 4 bar (sizes 2 1000) - the pressure in the housing must be the same as or greater than the external pressure on the shaft seal. 4/16 Brueninghaus Hydromatik

RE 91401/01.97 echnical Data able of values (theoretical values, without considering η mh and η v ; values rounded) ize 5 10 12 16 23 32 45 56 63 0 Displacement V g cm 3 4,93 10,3 12,0 16,0,9,1 32 45,6 56,1 63 0,4 Max. speed 1 ) n max rpm 5600 31 31 31 20 20 20 40 2000 2000 100 Max. perm. speed with increased input pressure p abs n max perm. rpm 000 6000 6000 6000 47 47 47 42 37 37 33 Max. perm. output flow, at n max2 ) q V max L/min 27 32 37 49 56 69 7 100 110 123 141 Max. power at q V max p p = 400 bar P max P max kw kw 9,6 3 ) 19 25 30 34 33 3 41 47 46 53 59 6 65 75 74 4 4 96 orque constants K Nm/bar 0,076 0,164 0,19 0,25 0, 0,445 0,9 0,725 0,9 1,0 1,27 Perm. torque p Nm 24,7 3 ) 57 67 126 156 17 254 312 3 445 p = 400 bar Nm 65 76 100 144 17 204 290 356 400 Case volume L 0,17 0,17 0,17 0,20 0,20 0,20 0,33 0,45 0,45 0,55 Moment of inertia about drive axis J kgm 2 0,0000 0,0004 0,0004 0,0004 0,0012 0,0012 0,0012 0,0024 0,0042 0,0042 0,0072 Weight (approx.) m kg 2,5 5,4 5,4 5,4 9,5 9,5 9,5 13,5 1 1 23 ize 90 107 125 160 10 200 2 355 0 710 1000 Displacement V g cm 3 90 106,7 125 160,4 10 200 2 355 0 710 1000 Max. speed 1 ) n max rpm 100 1600 1600 14 14 15 10 1320 1200 1200 9 Max. perm. speed with increased input pressure p abs n max perm. rpm 33 3000 3000 26 26 27 20 40 10 10 1200 Max. perm. output flow, at n max2 ) q V max L/min 15 167 196 2 255 304 4 455 52 26 921 Max.power at q V max p p = 400 bar P max P max kw kw 95 10 100 114 116 133 1 155 152 174 177 203 212 265 340 42 537 orque constants K Nm/bar 1,43 1,70 1,99 2,54 2,6 3,1 3,9 5,64 7,95 11,3 15,9 Perm. torque p Nm 1 595 697 9 1001 1114 1391 1979 275 3955 5570 p = 400 bar Nm 572 60 796 1016 1144 1272 Case volume L 0,55 0, 0, 1,1 1,1 2,5 3,5 7, Moment of inertia about drive axis J kgm 2 0,0072 0,0116 0,0116 0,00 0,00 0,037 0,061 0,102 0,17 0,55 0,55 Weight (approx.) m kg 23 32 32 45 45 66 73 110 155 3 3 1 ) he values shown are valid for an absolute pressure (p abs ) of 1 bar at the suction inlet and when operated on mineral oil. By increase of the input pressure (p abs > 1 bar) the rotational speeds can be increased to the max. admissible speeds (speed limits) (see diagram). 2 ) 3 % volumetric loss included 3 ) p = 315 bar Max perm. speed with increased inlet pressure p abs at suction port 2,0 n n max speed 1, 1,6 1,4 1,2 1,0 sizes 5...200 0, 0 1 2 3 4 inlet pressure p abs in bar - max. perm. speed n max perm. (speed limit) - min. perm. pressure at port - admissible values for the drive shaft seal 1,25 sizes 2...1000 Calculation of size V g n η v Flow q V = in L/min 1000 V g p 1,59 V g p orque = = in Nm 20 π η mh 100 η mh 2 π n n q V p Power P = = = in kw 60 000 9549 600 η t V g = geometric displacement per rev. in cm 3 = torque in Nm p = pressure differential in bar n = speed in rpm η v = volumetric efficiency η mh = mech. -hyd. efficiency = overall efficiency η t Brueninghaus Hydromatik 5/16

RE 91401/01.97 echnical Data Output drive Permissible axial and radial loads on drive shaft he values given are maximum values and do not apply to continuous operation ize 5 10 12 16 23 32 45 56 63 0 a mm 12 16 16 16 16 16 16 1 1 1 20 F q max N 710 23 27 3700 4300 5400 6100 1 9200 10300 110 ±F ax max N 10 320 320 320 0 0 0 630 00 00 1000 ±F ax perm. /bar N/bar 1,5 3,0 3,0 3,0 5,2 5,2 5,2 7,0,7,7 10,6 ize 90 107 125 160 10 200 2 355 0 710 1000 a mm 20 20 20 25 25 25 41 52,5 52,5 67,5 67,5 F q max N 12900 100 15900 1400 20600 900 1200 1 ) 10 1 ) 1900 1 ) 3000 1 ) 2600 1 ) ±F ax max N +F ax max 1000 12 12 1600 1600 1600 4000 00 62 10000 10000 - F ax max 1000 12 12 1600 1600 1600 1200 10 1900 3000 2600 ±F ax perm. /bar N/bar 10,6 12,9 12,9 16,7 16,7 16,7 2 ) 2 ) 2 ) 2 ) 2 ) 1 ) Axial piston unit in stationary or in bypass operation, please contact us when appearing higher forces! 2 ) Please contact us! Code explanation a = distance of F q from shaft shoulder F q max = max. perm. radial force at distance a (at intermittent operation) ±F ax max = max. perm. axial force when stationary or when axial piston unit is running at zero pressure ±F ax perm. /bar = perm. axial force/bar working pressure he direction of the max. perm. axial force must be noted by sizes 5 200 F ax = increases bearing life + F ax = reduces bearing life (avoid if possible) Optimal force direction of Fq (valid for sizes 10...10) By means of appropriate force directions of Fq the bearing load caused by inside rotary group forces can be reduced. An optimal life expectation of the bearing can be reached. ϕ opt = ϕ opt = ϕ opt = 70 ϕ opt = 70 A B A B clockwise rotation pressure at port B anti-clockwise rotation pressure at port A clockwise rotation pressure at port B 6/16 Brueninghaus Hydromatik

RE 91401/11.95 Before finalising your design, please request a certified drawing. Unit Dimensions, ize 5 h 17,5 74,5 5,5 Y R 6 70 Detail Y ø60 4 51 0 25 ø4,5 75 ±0,1 6,4 70 B, (A) service line ports M 1x1,5 suction port M x1,5 drain port M 10x1, both sides B 62 haft ends B Parallel shaft with C apered shaft with spigot key A4x4x20 and spring washer 3x5 DIN 65 DIN 6 4 24 7,3 33 13,5 ø12 M4 ø12, M10x1 10 R0,4 taper 1:10 Nominal pressure = 210 bar Nominal pressure = 315 bar Ordering Code / tandard Program ize 5 Axial piston unit Bent axis design, fixed displacement A2F ize Displacement V g (cm 3 ) 5 Direction of rotation Viewed on shaft end clockwise R anti-clockwise L eries A2F 5 6.0 7 Additional instructions in text form 6.0 eals he fixed pump A2F 5 is equipped with NBR (Nitrilcaoutchouc) seals in standard design. In case of need FPM- (fluor-caoutchouc) seals please indicate when ordering in clear text: "with FPM-seals" haft end Parallel shaft with key DIN 65 B apered shaft with spigot and spring washer DIN 6 C ervice line connections hreads at side, metric 7 = preferred program (preferred types see page 15) Brueninghaus Hydromatik 7/16

RE 91401/11.95 Before finalising your design, please request a certified drawing. Unit Dimensions, izes 10, 12, 16 ø0 h6 1,2 12 20 6 R 4,5 40 64,5 53,5 5 23,5 2 5 41,5 10 55,5 69 93,5 R 10 100 95 9 95 42,5 16 5 130,5 147 167,5 haft ends izes 10, 12, 16 izes 10, 12 A plined shaft, DIN 540 Z plined shaft, DIN 540 W 25x1,25x30x1x9g W 20x1,25x30x14x9g B(A) service line ports Mx1,5 suction port M33x2, 2 drain port (1 port plugged) x1,5 R air bleed (plugged) Mx1 izes 10, 12, 16 izes 10, 12 B Parallel shaft with key, P Parallel shaft with key, A x7x32, DIN 65 A 6x6x32, DIN 65 16 R 1,2 M 10 ø21,6 M 6 ø16,6 ø25 M 10 ø24,6,5 ø20 M 6 ø19,6 6 34 12 2,5 40 16 2,5 40 = 400 bar Unit Dimensions, izes 23,, 32 ø100 h6 23,2 R 60,7 25 1 61,5 40 55,5 9 19 4,5 40,5 13 2 144 169 193 19 141 19 1,2 R 1,6 70 91 120 M; 15 tief deep R 12 haft ends izes 23,, 32 izes 23, A plined shaft, DIN 540 Z plined shaft, DIN 540 W 30x2x30x14x9g W 25x1,25x30x1x9g 125 11 11 11 47,6 19 60 14,2 106 M 10; 17 deep tief B(A) service line ports AE 1/2" suction port AE 3/4" 3 bar (00 psi) standard series, 2 drain port (1 port plugged) x1,5 R air bleed (plugged) M 10x1 izes 23,, 32 izes 23, B Parallel shaft with key P Parallel shaft with key A x7x40, DIN 65 A x7x40, DIN 65 M 10 ø24,6 M ø21,6 15 19 35 43 = 400 bar 33 ø30 M 10 ø29,6 ø25 M ø24,6 /16 Brueninghaus Hydromatik

RE 91401/11.95 Before finalising your design, please request a certified drawing. Unit Dimensions, ize 45 30 60,3 32 20 12 1 15 R 16 1 52,4 25 26,2 ø125h6 R 7 63 40 1 52 19, 11 2 155 11 206 23, 0 102 132 M 10; 17 tief deep 160 13,5 1 63,5 20 11 M 10; 17 tief deep B(A) service line ports AE 3/4" suction port AE 1" 3 bar (00 psi) standard series, 2 drain port (1 port plugged) M 1x1,5 R air bleed (plugged) x1,5 haft ends A plined shaft, DIN 540 Z plined shaft, DIN 540 P Parallel shaft with key W 32x2x30x14x9g W 30x2x30x14x9g A x7x, DIN 65 ø26,6 35 = 400 bar ø24,6 35 33 ø30 60 ø29,6 Unit Dimensions, izes 56, 63 ø125 h6 30 67,5 20 32 10 7 70 R 40 1 56 19, 11 2 171 197 5 1 169,5 23, 7 109 142 R 16 M 10; 17 tief deep haft ends izes 56, 63 ize 56 A plined shaft, DIN 540 Z plined shaft, DIN 540 W 35x2x30x16x9g W 30x2x30x14x9g 160 1 13,5 1 52,4 25 26,2 1 6 23 M 10; 17 deep tief B(A) service line ports AE 3/4" suction port AE 1" 3 bar (00 psi) standard series, 2 drain port (1 port plugged) M 1x1,5 R air bleed (plugged) x1,5 izes 56, 63 ize 56 B Parallel shaft with key P Parallel shaft with key A 10xx, DIN 65 A x7x, DIN 65 ø29,6 ø24,6 2,5 40 35 60 60 = 400 bar 3 ø35 ø34,6 33 ø30 ø29,6 2,5 Brueninghaus Hydromatik 9/16

RE 91401/11.95 Before finalising your design, please request a certified drawing. Unit Dimensions, izes 0, 90 ø140 h6 29 7,5 32 20 10 R 5,5 R2,5 3 40 15 61 57,2 25 11 2 196 3,5 255 15 19,5 27, R 1,6 99 1 160 R 16 ; 17 tief deep haft ends izes 0, 90 ize 0 A plined shaft, DIN 540 Z plined shaft, DIN 540 W 40x2x30x1x9g W 35x2x30x16x9g 10 165 13,5 165 73 25 izes 0, 90 ize 0 B Parallel shaft with key P Parallel shaft with key A 12xx56, DIN 65 A 10xx56, DIN 65 5,7 32 30,2 13 M 10; 17 tief deep B(A) service line ports AE 1" suction port AE 1 1/4" 3 bar (00 psi) standard series, 2 drain port (1 port plugged) M 1x1,5 R air bleed (plugged) x1,5 45 ø34,6 40 ø29,6 43 ø40 2,5 70 ø39,6 3 ø35 2,5 70 = 400 bar ø34,6 Unit Dimensions, izes 107, 125 Dimensions brackets for size 107 2, 40 23 10 ø160 h6,5 9 R haft ends izes 107, 125 ize 107 A plined shaft, DIN 540 Z plined shaft, DIN 540 W 45x2x30x21x9g W 40x2x30x1x9g R2,5 5 40 12 1 67 1 66,7(57,2) 2 213 245 275 32(25) 212 31,(27,) R2,5 110 R 20 1 173 M14; 19 tief deep (M12; 17 tief) deep) 200 190 17,5 190 9 B(A) service line ports AE 1 1/4" (1") suction port AE 1 1/2" 210 bar (3000 psi) standard series, 2 drain port (1 port plugged) M 1x1,5 R air bleed (plugged) M 14x1,5 izes 107, 125 ize 107 B Parallel shaft with key P Parallel shaft with key A 14x9x63, DIN 65 A 12xx63, DIN 65 69,9 3 20 35,7 1 ; 20 tief deep ø39,6 ø34,6 4,5 10/16 Brueninghaus Hydromatik ø45 ø44,6 43 ø40 ø39,6 2,5 2,5 45 0 0 = 400 bar

211 120,7 RE 91401/01.97 Before finalising your design, please request a certified drawing. Unit Dimensions, izes 160, 10 ø10 h6 37,2 93 40 25 10 10 R R4 95,5 40 19,5 12,5 77,5 66,7 32 19,5 2 237 271 294 233 31, R2,5 121 1 1 M 14; 19 deep tief R 20 haft ends izes 160, 10 ize 160 A plined shaft, DIN 540 Z plined shaft, DIN 540 W x2x30x24x9g W 45x2x30x21x9g 4 210 17,5 210 101 izes 160, 10 ize 160 B Parallel shaft with key P Parallel shaft with key A 14x9x70, DIN 65 A 14x9x70, DIN 65 R2,5 69,9 42 15 35,7 10 ; 20 tief deep B(A) service line ports AE 1 1/4" suction port AE 1 1/2" 210 bar (3000 psi) standard series, 2 drain port (1 port plugged) M x1,5 R air bleed (plugged) M 14x1,5 R2,5 11 55 ø44,6 ø39,6 53,5 90 90 = 400 bar ø 4,5 ø45 Unit Dimensions, ize 200-0,029 ø200 32 104 40 32 9 121 25 102,5 15 92 15 66,7 32 237 31, 75 100 45 2 2 45 2 90 R 21 haft ends A plined shaft, DIN 540 W x2x30x24x9g 265 319 341 M 14; 19 tief deep R2,5 169 B Parallel shaft with key A 14x9x70, DIN 65 69,9 10 M16; 24 tief deep B(A) service line ports AE 1 1/4" suction port AE 3 1/2" 35 bar (0 psi) standard series drain port (1 port plugged) M x1,5 R air bleed (plugged) M 14x1,5 R4 ø44,6 53,5 11 11 55 90 = 400 bar ø Brueninghaus Hydromatik 11/16

19 1 102 172 2 335 79,4, 63 210, 245 1 1 170 RE 91401/11.95 Before finalising your design, please request a certified drawing. Unit Dimensions, ize 2 267 2 9 U 246 11 ø4 h 105 105 26 30 31, 0 246 124 B 25 2 329 M14; 19 tief deep 32 66,7 M12; 17 tief deep,9 12 haft ends Z plined shaft, DIN 540 P Parallel shaft with key W x2x30x24x9g A 14x9x0, DIN 65 R2,5 9 5 ø45 53,5 ø 2 B(A) service line ports AE 1 1/4" suction port AE 2 1/2" 210 bar (3000 psi) standard series drain port (1 port plugged) M x1,5 U port for bearing flushing (plugged) M 14x1,5 Unit Dimensions, ize 355 14 3 23,5 U 320 30 335,6,9 0 ø0 h 26 30 B 320 M16; 21 deep tief M12; 17 deep tief 3 3 40 63 60 haft ends Z plined shaft, DIN 540 P Parallel shaft with key W 60x2x30xx9g A 1x11x100, DIN 65 M 20 42 R4 11 2 ø55 64,4 m6 ø60 M 20 42 105 B(A) service line ports AE 1 1/2" suction port AE 2 1/2" 210 bar (3000 psi) standard series drain port (1 port plugged) M 33x2 U port for bearing flushing (plugged) M 14x1,5 12/16 Brueninghaus Hydromatik

RE 91401/01.97 Before finalising your design, please request a certified drawing. Unit Dimensions, ize 0 9 14 27,5 U 1,5 30 375,6 106,4 h ø315 30 111 142 142 396 26 30 112,5 0 400 0 375 192 79,4 M16; 24 tief deep B 40 65 75 55 62 270 M16; 24 deep tief haft ends Z plined shaft, DIN 540 P Parallel shaft with key W 70x3x30xx9g A 20x12x100, DIN 65 M 20 42 R4 13 0 ø62,7 74,5 m6 ø70 M 20 42 105 B(A) service line ports AE 1 1/2" suction port AE 3" (2000 psi) standard series drain port (1 port plugged) M 33x2 U port for bearing flushing (plugged) M 1x1,5 Unit Dimensions, ize 710 131 14 41,5 U 46 30 465 44,5 103,2 ø400h 13 13 1 30 102 252 0 4 465 23 96, M20; 30 deep tief B 77, 340 M16; 24 deep tief 35 156 7 100 5 70 haft ends Z plined shaft, DIN 540 P Parallel shaft with key W 90x3x30xx9g A 25x14x125, DIN 65 M 24 R4 14 105 ø2,6 95 m6 ø90 M 24 130 B(A) service line ports AE 2" suction port AE 4" 35 bar (0 psi) standard series drain port (1 port plugged) M 42x2 U port for bearing flushing (plugged) M 1x1,5 Brueninghaus Hydromatik 13/16

RE 91401/11.95 Before finalising your design, please request a certified drawing. Unit Dimensions, ize 1000 46 131 14 41,5 U 30 465 130,2 44,5 0 h ø400 13 2 haft ends Z plined shaft, DIN 540 P Parallel shaft with key W 90x3x30xx9g A 25x14x125, DIN 65 M 24 R4 14 105 35 156 ø2,6 13 512 95 m6 ø90 26 30 M 24 143 279 130 4 465 77, M16; 24 deep tief 100 70 5 96, 340 M20; 30 deep tief B(A) service line ports AE 2" suction port AE 4" 35 bar (0 psi) standard series drain port (1 port plugged) M 42x2 U port for bearing flushing (plugged) M 1x1,5 A 14/16 Brueninghaus Hydromatik

RE 91401/01.97 Preferred types, please state type and ident-no. when ordering ype Ident-No. ype Ident-No. Please indicate in the ordering code the direction of rotation ( "R" for clockwise rotation, "L" for counter-clockwise rotation) A2F5.6.0B7 9404452 A2FO10/61.-PAB06 942494 A2FO10/61.-PBB06 961062 A2FO12/61.-PAB06 9420472 A2FO12/61.-PBB06 961063 A2FO16/61.-PAB06 9411113 A2FO16/61.-PBB06 9411121 A2FO23/61.-PAB05 94273 A2FO23/61.-PBB05 961064 A2FO/61.-PAB05 9425164 A2FO/61.-PBB05 961065 A2FO32/61.-PAB05 9410193 A2FO32/61.-PBB05 941019 A2FO45/61.-PZB05 941155 A2FO56/61.-PAB05 9425190 A2FO56/61.-PBB05 961066 A2FO63/61.-PAB05 940527 A2FO63/61.-PBB05 940552 A2FO0/61.-PAB05 942467 A2FO0/61.-PBB05 961067 A2FO90/61.-PAB05 940467 A2FO90/61.-PBB05 940472 A2FO107/61.-PAB05 9423259 A2FO107/61.-PBB05 9432 A2FO125/61.-PAB05 9409641 A2FO125/61.-PBB05 9409642 A2FO160/61.-PAB05 94192 A2FO160/61.-PBB05 96106 A2FO10/61.-PAB05 9409371 A2FO10/61.-PBB05 940935 A2FO200/63.-PAB05 2011993 A2FO2/60.-VPB05 915761 A2FO355/60.-VPH11 929470 A2FO0/60.-VPH11 932461 A2FLO710/60.-VPH11 962451 A2FLO1000/60.-VPH11 97614 izes 5...200: production plant Elchingen; izes 2...1000: production plant Horb Brueninghaus Hydromatik 15/16

RE 91401/01.97 Brueninghaus Hydromatik GmbH, Plant Elchingen, Glockeraustraße 2, D 9275 Elchingen, el. (0730) 20, elefax (0730) 7274 Plant Horb, An den Kelterwiesen 14, D 72160 Horb, el. (07451) 920, elefax (07451) 1 16/16 Brueninghaus Hydromatik he specified data is for product description purposes only and may not be deemed to be guaranteed unless expressly confirmed in the contract. All rights reserved ubject to revision