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Publ. 1 - AM0705 - A 09 / 2000 / 2000 / FB Replaces : 1 - AM 079 - B L14 - 10705 - 1
DENISON HYDRAULICS
high performance hydraulic vane pumps
single, double, tripleT7 and T67 industrial application
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CONTENTS - T7 AND T67 SERIES INDUSTRIAL APPLICATION
General characteristics.................................................................................................... 3Minimum and maximum speeds .................................................................................... 4Pressure ratings............................................................................................................... 4Minimum allowable inlet pressure ................................................................................. 5Main calculation ............................................................................................................. 6Intermittent pressure rating............................................................................................. 6Description...................................................................................................................... 7Application advantages................................................................................................... 7Hydraulic fluids .............................................................................................................. 8Shafts .............................................................................................................................. 9Priming at starting........................................................................................................... 9General characteristics.................................................................................................... 9Formulas ....................................................................................................................... 10Notes ............................................................................................................................. 11
Ordering code and technical data ................................................................................. 12Dimensions and operating characteristics .................................................................... 13
Ordering code and technical data ................................................................................. 14Dimensions and operating characteristics .................................................................... 15
Ordering code and technical data ................................................................................. 16Dimensions and operating characteristics .................................................................... 17
Ordering code and technical data ................................................................................. 18Dimensions and operating characteristics .................................................................... 19
Ordering code and technical data ................................................................................. 20Dimensions and operating characteristics .................................................................... 21
Ordering code and operating characteristics ................................................................ 22Technical data............................................................................................................... 23Dimensions ................................................................................................................... 26
Ordering code and operating characteristics ................................................................ 24Technical data............................................................................................................... 25Dimensions ................................................................................................................... 26
Dimensions .................................................................................................................. 27Ordering code and operating characteristics ................................................................ 28Technical data............................................................................................................... 29
Porting diagrams for double and triple pumps............................................................. 30Porting diagrams for triple pumps................................................................................ 31Addresses ...................................................................................................................... 32
GENERAL
T7B - T7BS
T7BB - T7BBS
T67CB
T67DB
T67EB
T67DBB
T67DCB
T67EDB
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CARACTERISTICS - T7 AND T67 SERIES INDUSTRIAL APPLICATION
These T67 series vane pumps have been specially designed for high/low circuit. Thecombination of different cartridges in double and triple pumps allows low flow at highpressure (4350 PSI max.) and high flow at lower pressure. This is a clever way tooptimize your circuit design.This pump feature will also allow a very fast pressure cycle change with a very preciseflow repeatability.
B : .35 to 3.05 in3/rev.
C : .66 to 6.10 in3/rev.D : 2.90 to 9.64 in
3/rev.
E : 8.07 to 13.86 in3/rev.
B : 4650 PSI max. (4350 PSI for multiple pump).C : 4000 PSI max.D : 3500 PSI max.E : 3500 PSI max.
Industrial pumps : from 600 to 3600 RPM
Over 94 % under high pressure, which increases productivity and reduces heating andoperation costs.
Increase operators safety and acceptance.
Single pumps : 4 positions.Double pumps : 32 positions.Triple pumps : 128 positions.
Provides for drop-in assemblies. It allows easy conversion and service.B cartridge : bi-directionalC, D and E cartridges : Uni-directional.
Viscosities from 3900 to 60 SUS permit colder starts and hotter running. The balanceddesign compensates for wear and temperature changes. At high viscosity or coldtemperature, the rotor to side plates gap is well lubricated and improves mechanicalefficiency.
Including phosphate esters, organic esters, chlorinated hydrocarbons, water glycols,
rapeseed, may be pumped at higher pressures and with longer service life by thesepumps.
1. Check speed range, pressure, temperature, fluid quality, viscosity and pump rotation.2. Check inlet conditions of the pump, if it can accept application requirement.3. Type of shaft : if would support operating torque.4. Coupling must be chosen to minimize pump shaft load (weight, misalignment).5. Filtration : must be adequate for lowest contamination level.6. Environment of pump : to avoid noise reflection, pollution and shocks.
CHARACTERISTICS
GREATER FLOW
HIGHER PRESSURE
WIDE SPEED RANGE
BETTER EFFICIENCY
LOW NOISE LEVELS
MOUNTING FLEXIBILITY
CARTRIDGE DESIGN
WIDE RANGE OF ACCEPTABLEVISCOSITIES
FIRE RESISTANT FLUIDS ANDBIODEGRADABLE FLUIDS
GENERAL APPLICATIONSINSTRUCTIONS
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MINIMUM AND MAXIMUM SPEED, PRESSURE RATINGS - T7 AND T67 SERIES INDUSTRIAL APPLICATION
Series Size Displ.
TheoreticalDisplacement
ViMinimum
Speed
Maximum Speed Maximum Pressure
HF-0,HF-1HF-2
HF-3, HF-4HF-5
HF-0, HF-2 HF-1, HF-4, HF-5 HF-3
Int. Cont. Int. Cont. Int. Cont.
in3/rev. RPM RPM RPM PSI PSI PSI PSI PSI PSI
T7 B
B02 .35
600 3600 1800 4650 4200 3500 3000 2500 2000
B03 .60
B04 .78
B05 .97
B06 1.21
B07 1.37
B08 1.52
B10 1.94
B12 2.50 3000 4350 4000
B15 3.05 4060 3500
T67
B
B02 .35
600 3600 1800 4350* 4000 3500 3000 2500 2000
B03 .60
B04 .78
B05 .97
B06 1.21
B07 1.37
B08 1.52
B10 1.94
B12 2.50 3000
B15 3.05 4060 3500
C
003 .66
600 2800 1800 4000 3500 3000 2500 2500 2000
005 1.05
006 1.30
008 1.61
010 2.08
012 2.26
014 2.81
017 3.56
020 3.89022 4.29
025 4.842500028 5.42 3000 2300 2300
031 6.10
D
014 2.90
600 2500 1800 3500 3000 3000 2500 2500 2000
017 3.55
020 4.00
024 4.80
028 5.50
031 6.00
035 6.80
038 7.30
042 8.302200045 8.90
050 9.64 3000 2300 2300
E
042 8.07
600 2200 1800 3500 3000 3000 2500 2500 2000
045 8.70
050 9.67
052 10.00
062 12.00
066 13.00
072 13.86HF-0, HF-2 = Antiwear petroleum base. HF-1 = Non antiwear petroleum base. HF-5 = Synthetic fluids.HF-3 = Water in oil emulsions. HF-4 = Water glycols.* Please consult DENISON Hydraulics for applications over 4350 PSI.
For further information or if the performance characteristics outlined above do not meet your own particular requirements, please consult your localDENISON Hydraulics office.
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MINIMUM ALLOWABLE INLET PRESSURE (PSI ABSOLUTE) - T7 AND T67 SERIES INDUSTRIAL APPLICATION
Cartridges Speed RPMDispl.Size Displ. 1200 1500 1800 2100 2200 2300 2500 2800 3000 3600
B
B02
11.6 11.6 11.6 11.6 11.6 11.6 11.6 11.6
11.6 11.6
B02
B03 B03
B04 B04
B05 B05
B06 11.9 14.2 B06
B07 B07B08 12.3 15.2 B08
B10 13.0 15.2 B10
B12 B12
B15 12.2 14.3 16.4 B15
C
003
11.6 11.6 11.6
11.611.6
11.6 13.014.5
003
005 005
006 006
008 008
010 010
012 12.3 13.3 012
01413.8
014
017 12.3 13.0 14.9 017020 020
022 12.3 13.0 14.2 15.2 022
025 13.0 13.8 13.8 15.2 025
028 14.2 14.2 15.7 028
031 12.3 13.0 14.5 16.1 031
D
014
11.6 11.611.6
11.612.8 13.8
14.5 014
017 017
020 020
024 11.9 16.0 025
028 12.3 13.3 14.5 17.1 028
031 13.0 13.8 17.8 031
035 13.3 14.2 14.8 18.7 035
038 13.8 14.5 15.2 038
042 14.8 15.7 042
045 12.3 14.2 15.2 045
050 14.8 15.8 050
E
042
11.6 11.6 11.6 13.0 14.5
042
045 045
050 050
052 052
062 12.3 13.8 062
066 12.3 12.3 13.8 14.5 15.8 066
072 12.3 15.2 072
Inlet pressure is measured at inlet flange with petroleum base fluids at a viscosity between 60 and 300 SUS. The difference betweeninlet pressure at the pump flange and atmospheric pressure must not exceed 2.9 PSI to prevent aeration.
Multiply absolute pressure by 1,25 for HF-3, HF-4 fluids.by 1,35 for HF-5 fluid.by 1,10 for ester or rapeseed base.
Use the cartridge with the highest absolute pressure for double and triple pumps.
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PUMP SELECTION - T7 AND T67 SERIES INDUSTRIAL APPLICATION
To resolve Performances required
Volumetric displ. Vi [in3/rev.] Requested flow qv [GPM] 19.8
Available flow qv [GPM] Speed n [RPM] 2500
Input power P [HP] Pressure p [PSI] 3600
Routine : Example :
1. First calculation Vi =231 Q
nVi =
231x19.8
2500= 1.83 in
3/rev.
2. Choose Vi of pump immediatelygreater (see tabulation)
T7B B10, Vi = 1.94 in3/rev.
3. Theoretical flow of this pump
qVi=Vpxn
231
qVI=1.94x2500
231= 21.0 GPM
4. Find qVs leakage function of
pressure qVs= f(p) on curve at 60 or115 SUS
T7B (page 12) : qVS= .79 GPM at3600 PSI, 115 SUS
5. Available flow qVe= qVi- qVs qVe= 21.0 - .79 = 20.21 GPM
6. Theoretical input power
Pi =qvixp
1714
Pi =21.0x3600
1714= 44.1 HP
7. Find Ps hydrodynamical powerloss on curve
T7B (page12) : Ps at 2500 RPM,3600 PSI = 1.2 HP
8. Calculation of necessary inputpower P = Pi + Ps
P = 44.1 + 1.2 = 45.3 HP
9. Results Vi = 1.94 in
3
/rev.qVe = 20.21 GPM T7B B10
P = 45.30 HP
These calculation steps must be followed for each application.
T7 and T67 units may be operated intermittently at pressures higher than therecommended continuous rating when the time weighted average of pressure is lessthan or equal to the continuous duty pressure rating. This intermittent pressure ratingcalculation is only valid if other parameters : speed, fluid, viscosity and contaminationlevel are respected.
For total cycle time longer than 15 minutes, please consult your DENISON Hydraulicsrepresentative.
Example : T7B - B10Duty cycle 4 min. at 4650 PSI
1 min. at 500 PSI5 min. at 2300 PSI
(4x4650)+(1x500)+(5x2300)
10= 3070 PSI
3070 PSI is lower than 4200 PSI allowed as continuous pressure for T7B - B10 withHF-0 fluid.
INTERMITTENT PRESSURERATING
MAIN CALCULATION
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DESCRIPTION - T7 AND T67 SERIES INDUSTRIAL APPLICATION
Cap end outlet port has 8-positionsat 45 intervals relative to inlet on
each double and triple pump.Inlet
Shaft end outlet port has4-positions at 90 intervals
relative to inlet.
Front & rear sideplates areeach clamped axially by the
separate discharge pressures.
Pilot recess as required bySAE for full conformity.
Shaft comes in varietyof keyed and splinedoptions to meet SAE
and ISO 3019-1.
Ball bearing holdsshaft in alignment. The cartridges are replaceable assemblies. Each
includes cam ring, rotor, vanes, pins and sideplates.The cartridge is a replaceable
assembly including cam ring, rotor,vanes, pins and sideplate.
OutletInlet
Vane is urged outward atsuction ramp by pin force
and centrifugal force.. 90 SectionHoles in cam ring improve wide
cartridge inlet characteristics.Working vane on major arc
pushes fluid to discharge port.
Suction ramp
where unloadedvane moves out.
Section B-B
Section A-A
Pin cavity is at a steadypressure equal to that at
discharge port.
Discharge rampwhere unloadedvane moves in.
Side feed holes supply dischargepressure to pin cavities.
Working vane on minor arc sealsdischarge pressure from the
suction port.Nota : The "E" and "B" size cartridges are with 12 vanes.
The high pressure capability up to 4650 PSI, in the small envelope, reducesinstallation costs and provides extended life at reduced pressure.
The high volumetric efficiency, typically better than 94%, reduces heat generation,and allows speeds down to 600 RPM at full pressure.
The high mechanical efficiency, typically better than 94%, reduces energyconsumption.
The wide speed range (600 RPM at 3600 RPM), combined with large size cartridgedisplacements will optimize operation for the lowest noise level in the smallestenvelope.
The low speed (600 RPM), low pressure, high viscosity (3900 SUS) allowsapplications in cold environment with a minimum energy consumption and withoutrisk of seizure.
The low ripple pressure (29 PSI) reduces piping noise and increases lifetime ofother components in the circuit.
The high resistance to particle contamination, because of the double lip vane,increases pump life.
The large variety of options (cam displacement, shaft, porting) allows customizedinstallation.
Noise : Specially designed to optimize the low noise level characteristics.
Cartridge concept : drops maintenance costs by two.
APPLICATION ADVANTAGES
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HYDRAULIC FLUIDS - T7 AND T67 SERIES INDUSTRIAL APPLICATION
RECOMMENDED FLUIDS
ACCEPTABLE ALTERNATEFLUIDS
VISCOSITY
VISCOSITY INDEX
FLUID CLEANLINESS
OPERATING TEMPERATURESAND VISCOSITIES
WATER CONTAMINATION INTHE FLUID
Petroleum based antiwear R & O fluidsThese fluids are the recommended fluids for T7 and T67 series pumps. Maximumcatalog ratings and performance data are based on operation with these fluids. Thesefluids are covered by DENISON Hydraulics HF-0 and HF-2 specifications.
The use of fluids other than petroleum based antiwear R & O fluids requires that themaximum ratings of the pumps will be reduced. In some cases, the minimumreplenishment pressures must be increased. Consult specific sections for more details(page 4).
Max. (cold start, low speed & pressure) ____________________________3900 (SUS)Max. (full speed & pressure) _____________________________________500 (SUS)Optimum (max. life)____________________________________________140 (SUS)Min. (full speed & pressure forHF-1, HF-3, HF-4 & HF-5 fluids)__________________________________90 (SUS)Min. (full speed & pressure for HF-0 & HF-2 fluids) ___________________60 (SUS)
90 min. Higher values extend the range of operating temperatures.
Maximum fluid temperature () FHF-0, HF-1, HF-2________________________________________________ + 212HF-3, HF-4 _____________________________________________________ + 122HF-5 __________________________________________________________ + 158Biodegradable fluids (esters & rapeseed base)__________________________ + 149
Minimum fluid temperature () FHF-0, HF-1, HF-2, HF-5 ___________________________________________ - 0.4HF-3, HF-4 ______________________________________________________ + 50Biodegradable fluids (esters & rapeseed base)___________________________ - 4.4
The fluid must be clean before and during operation to maintain contamination level of
NAS 1638 class 8 (or ISO 18/14) or better. Filters with 25 micron (or better, 10 100)nominal ratings may be adequate but do not guarantee the required cleanliness levels.Suction strainers must be of adequate size to provide minimum inlet pressure specified.100 mesh (149 micron) is the finest mesh recommended. Use oversize strainers or omitthem altogether on applications which require cold starts or use fire resistant fluids.
Operating temperatures are a function of the fluid viscosities, fluid type, and pump.Fluid viscosity should be selected to provide optimum viscosity at normal operating
temperatures. For cold starts, the pumps should be operated at low speed and pressureuntil fluid warms up to an acceptable viscosity for full power operation.
Maximum acceptable content of water : 0,10 % for mineral base fluids. 0,05 % for synthetic fluids, crankcase oils and biodegradable fluids.If amount of water is higher, then it should be drained off the circuit.
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SHAFTS - T7 AND T67 SERIES INDUSTRIAL APPLICATION
The mating female spline should be free to float and find its own center. If bothmembers are rigidly supported, they must be aligned within .006 TIR or less to reduce
fretting. The angular alignment of two spline axes must be less than .002 per 1"radius. The coupling spline must be lubricated with a lithium molydisulfide grease or asimilar lubricant. The coupling must be hardened to a hardness between 27 and 45 R.C. The female spline must be made to conform to the Class 1 fit as described inSAE-J498b (1971). This is described as a Flat Root Side Fit.
DENISON Hydraulics supplies the T7 and T67 series keyed shaft pumps with highstrength heat-treated keys. Therefore, when installing or replacing these pumps, theheat-treated keys must be used in order to ensure maximum life in the application. Ifthe key is replaced, it must be a heat-treated key between 27 and 34 R.C. hardness. Thecorners of the keys must be chamfered .030" to .040" at 45 to clear radii in the keyway.
Alignment of keyed shafts must be within tolerances given for splined shafts.
These products are designed primarily for coaxial drives which do not impose axial orside loading on the shaft. Consult specific sections for more details.
When the pump is set into operation for the first time, it must be primed at the lowestpossible speed and pressure. When a pressure relief valve is used at the outlet, it shouldbe backed off to minimize return pressure.When possible, an air bleed off should be provided in the circuit to facilitate purging ofsystem air.Never operate the pump at maximum speed and pressure without making sure that thepump priming is completed and that the fluid is disaerated.
SPLINED SHAFTSCOUPLING SPLINES
KEYED SHAFT
NOTE
SHAFT LOADS
PRIMING AT STARTING
Mountingstandard
Weight withoutconnector andbracket - Lbs
Moment ofinertialb.in
2
SAE 4 boltsJ518c - ISO/DIS 6162-1
Suction Pressure
T7B ISO3019-2 100 A2HW
50.7 1.1 1"1/2 1" or 3/4"
T7BS SAE J744cISO/3019-1 SAE B
50.7 1.1 1" 1/2 1" or 3/4"
T7BB ISO3019-2 100 A2HW
71.8 4.0 2" 1/2 P1 P2
1" or 3/4" 3/4"
T7BBS SAE J744cISO/3019-1 SAE B
71.8 4.0 2" 1/2 1" or 3/4" 3/4"
T67CB SAE J744cISO/3019-1 SAE B
57.3 3.9 2" 1/2 1" 3/4"
T67DB SAE J744cISO/3019-1 SAE C 80.7 9.1 3" 1" 1/4 3/4"
T67EB SAE J744cISO/3019-1 SAE C
121.0 23.8 3" 1/2 1" 1/2 3/4"
T67DBBT67DCB
SAE J744cISO/3019-1 SAE C
134.5 11.5 4" P1 P2 P3
1"1/4 1" 3/4"
T67EDB ISO/3019-2 220.4 26.1 4" 1"1/2 1"1/4 3/4"
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FORMULAS - T7 AND T67 SERIES INDUSTRIAL APPLICATION
FLUID POWER FORMULAS
Pump input torque lbs. in.
Pump input power HP
Pump output flow U.S. gpm
Fluid motor speed rpm
Fluid motor torque lbs. in.
Fluid motor power HP
pressure(PSI)xdisplacement (in3rev)
2 xmech. eff.
speed(rpm)xdisplacement(in3rev)xpressure(PSI)
395934xoveralleff.
speed(rpm)xdisplacement(in3rev)xvolumetric eff.
231
231xflow rate(U.S. gpm)xvolumetric eff.
displacement(in3rev.)
pressure(PSI)xdisplacement(in3rev)xmech. eff.
2
speed(rpm)xdisplacement(in3rev)xpressure(PSI)xoveralleff.
395934
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NOTES - T7 AND T67 SERIES INDUSTRIAL APPLICATION
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ORDERING CODE - T7B AND T7BS SERIES
Model No T7B or T7BS - B10 - 1 R 00 - A 1 M0
T7B series - ISO 2 bolts 3019-2100A2 HWT7BS series - SAE B 2 boltsMounting flange J744c
Cam ring(Delivery at 0 PSI & 1200 RPM)B02 = 1.84 GPM B07 = 7.13 GPMB03 = 3.11 GPM B08 = 7.89 GPMB04 = 4.06 GPM B10 = 10.08 GPMB05 = 5.04 GPM B12 = 13.00 GPMB06 = 6.28 GPM B15 = 15.85 GPM
Type of shaft - T7B2 = keyed (ISO R775)
Type of shaft - T7BS1 = keyed (SAE B)3 = splined (SAE B)4 = splined (SAE BB)
Direction of rotation (view on shaft end)R = clockwiseL = counter-clockwise
Maximum permissible axial load Fa = 180 Lbs
P = Pressure portS = Suction port
HYDROMECHANICAL POWER LOSS (TYPICAL) PERMISSIBLE RADIAL LOAD
INTERNAL LEAKAGE (TYPICAL) NOISE LEVEL (TYPICAL)
PowerlossPs[HP]
LoadF[Lbs]
Lp.No
iselevel[db(A)]1mISO4412
In
ternalleakageQs[GPM]
Pressure p [PSI] Speed n [RPM]
Pressure p [PSI]Pressure p [PSI]
Modifications
Mounting w/connection variables
Seal class1 = S1 (for mineral oil)4 = S4 (for fire resistant fluids)5 = S5 (for mineral oil and fire resistant fluids)
Design letter
Porting combination00 = standard
T7B - B10
Do not operate the pump more than 5 seconds at any speed orviscosity if internal leakage is higher than 50% of theoreticalflow.
Metric threadT7B - T7BS
UNC threadT7BS
M0 M1 00 01
P 1" 3/4" 1" 3/4"
S 1"1/2 1"1/2 1"1/2 1"1/2
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DIMENSIONS & OPERATING CHARACTERISTICS - Weight : 50.7 Lbs - T7B AND T7BS SERIES
OPERATING CHARACTERISTICS - TYPICAL [115 SUS]
Series Volumetricdisplacement Vi
Speedn [RPM]
Flow qv[GPM] Input power P [HP]
p = 0 PSI p = 2000 PSI p = 4650 PSI p = 100 PSI p = 2000 PSI p = 4650 PSI
B02 .35 in3/rev 1200
18001.842.76
1.412.33
-1.73
0.270.74
2.544.02
-8.59
B03 .60 in3/rev 1200
18003.114.66
2.684.23
2.083.63
0.340.85
4.026.24
9.0613.75
B04 .78 in3/rev 1200
18004.066.09
3.635.66
3.035.06
0.400.94
5.137.90
11.6417.62
B05 .97 in3/rev 1200
1800
5.04
7.56
4.61
7.13
4.01
6.53
0.45
1.02
6.27
9.62
14.31
21.62B06 1.21 in
3/rev 1200
18006.289.42
5.858.99
5.258.39
0.531.13
7.7111.79
17.6626.66
B07 1.37 in3/rev 1200
18007.1310.70
6.7010.27
6.109.67
0.581.20
8.7113.29
19.9830.14
B08 1.52 in3/rev 1200
18007.8911.84
7.4611.41
6.8610.81
0.621.27
9.6014.62
22.0533.24
B10 1.94 in3/rev 1200
180010.0815.12
9.6514.69
9.0514.09
0.751.46
12.1518.45
27.9842.14
B12 2.50 in3/rev 1200
180013.0019.50
12.5719.07
12.031)
18.541)
0.921.72
15.5623.55
33.591)
50.581)
B15 3.05 in3/rev 1200
180015.8523.78
15.4223.35
14.952)
22.882)
1.081.97
18.8928.55
38.112)
57.352)
- We do not recommand to use the B02 cartridge at 4650 PSI & 1800 RPM as the internal leakage is over 50% of theoretical flow.1) B12 = 4350 PSI max. int. 2) B15 = 4060 PSI max. int.
Model Code A B C D E F G H
T7BM0 M10
.75 deepM12
.88 deep1.03 2.06 1.00 5.50 2.75 .55
M1 .87 1.87 .75 5.50 2.75 .55
T7BS00 3/8-16 UNC
.75 deep1/2-13 UNC
.88 deep1.03 2.06 1.00 5.75 2.87 .56
01 .87 1.87 .75 5.75 2.87 .56
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ORDERING CODE - T7BB - T7BBS SERIES
Pressure p [PSI] Speed n [RPM]
Maximum permissible axial load Fa = 180 LbsTotal hydromechanical power loss is the sum of each section at
its operating conditions.
P1 P2
PowerlossPs[HP]
LoadF[Lbs]
Lp.No
iselevel[db(A)]1mISO4412
In
ternalleakageQs[GPM]
Do not operate the pump more than 5 seconds at any speed orviscosity if internal leakage is higher than 50% of theoreticalflow.
Total leakage is the sum of each section loss at its operatingconditions.
Double pump noise level is given with each section discharging atthe pressure noted on the curve.
Pressure p [PSI]Pressure p [PSI]
T7BB - B10 - B10
HYDROMECHANICAL POWER LOSS (TYPICAL) PERMISSIBLE RADIAL LOAD
INTERNAL LEAKAGE (TYPICAL) NOISE LEVEL (TYPICAL)
Model No. T7BB or T7BBS - B10 - B10 - 1 R 00 - A 1 M1 -
T7BB series - ISO 2 bolts100A2HWT7BBS series - SAE B 2 boltsMounting flange J744c
Cam ring for "P1" and "P2"(Delivery at 0 PSI & 1200 RPM)B02 = 1.84 GPM B07 = 7.13 GPMB03 = 3.11 GPM B08 = 7.89 GPMB04 = 4.06 GPM B10 = 10.08 GPMB05 = 5.04 GPM B12 = 13.00 GPMB06 = 6.28 GPM B15 = 15.85 GPM
Type of shaft T7BB5 = keyed (ISO R775)
Type of shaft T7BBS1 = keyed (non SAE)2 = keyed (SAE BB)3 = splined (SAE B)4 = splined (SAE BB)
Modifications
Mounting w/connection variables
Seal class1 = S1 (for mineral oil)4 = S4 (for fire resistant fluids)5 = S5 (for mineral oil and fire resistant fluids)
Design letter
Porting combination (see page 30)00 = standard
Direction of rotation (view on shaft end)R = clockwiseL = counter-clockwise
Metric threadT7BB - T7BBS
UNC threadT7BBS
M0 M1 00 01
P1 1" 3/4" 1" 3/4"
P2 3/4" 3/4" 3/4" 3/4"
S 2"1/2 2"1/2 2"1/2 2"1/2
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DIMENSIONS & OPERATING CHARACTERISTICS - Weight : 71.9 Lbs - T7BB AND T7BBS SERIES
OPERATING CHARACTERISTICS - TYPICAL [115 SUS]
Pressureport
Series Volumetricdisplacem. Vi
Flow qv[GPM] & n = 1800 RPM Input power P [HP] & n = 1800 RPM
p = 0 PSI p = 2000 PSI p = 4650 PSI p = 100 PSI p = 2000 PSI p = 4650 PSI
P1
&
P2
B02 .35 in3/rev 2.76 2.33 1.73 0.74 4.02 8.59
B03 .60 in3/rev 4.66 4.23 3.63 0.85 6.24 13.75
B04 .78 in3/rev 6.09 5.66 5.06 0.94 7.90 17.62
B05 .97 in3/rev 7.56 7.13 6.53 1.02 9.62 21.62
B06 1.21 in3/rev 9.42 8.99 8.39 1.13 11.79 26.66
B07 1.37 in3/rev 10.70 10.27 9.67 1.20 13.29 30.14
B08 1.52 in3/rev 11.84 11.41 10.81 1.27 14.62 33.24
B10 1.94 in3/rev 15.12 14.69 14.09 1.46 18.45 42.14
B12 2.50 in3/rev 19.50 19.07 18.54
1)1.72 23.55 50.58
1)
B15 3.05 in3/rev 23.78 23.35 22.88
2)1.97 28.55 57.35
2)
1) B12 = 4350 PSI max. int. 2) B15 = 4060 PSI max. int.
Shaft torque limits [in3/rev x PSI]
Pump Shaft V x p max.
T7BB 1 12666
Model Code A B C D E F G H
T7BBM0 M10
.75 deepM12
.88 deep1.03 2.06 1.00 5.50 2.75 .55
M1 .87 1.87 .75 5.50 2.75 .55
T7BBS00 3/8-16 UNC
.75 deep1/2-13 UNC
.88 deep1.03 2.06 1.00 5.75 2.87 .56
01 .87 1.87 .75 5.75 2.87 .56
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Model No. T67CB W - 010 - B10 - 1 R 00 - A 1 M1 -
Series - SAE B 2 boltsMounting flange J744c
Use for severe duty shaft only
Cam ring for "P1"(Delivery at 0 PSI & 1200 RPM)003 = 3.42 GPM 017 = 18.48 GPM005 = 5.45 GPM 020 = 20.23 GPM
006 = 6.75 GPM 022 = 22.29 GPM008 = 8.37 GPM 025 = 25.14 GPM010 = 10.81 GPM 028 = 28.15 GPM012 = 11.76 GPM 031 = 31.70 GPM014 = 14.58 GPM
Cam ring for "P2"(Delivery at 0 PSI & 1200 RPM)B02 = 1.84 GPM B07 = 7.13 GPMB03 = 3.11 GPM B08 = 7.89 GPMB04 = 4.06 GPM B10 = 10.08 GPMB05 = 5.04 GPM B12 = 13.00 GPMB06 = 6.28 GPM B15 = 15.85 GPM
Type of shaft Type of shaft - W severe duty1 = keyed (non SAE) 2 = keyed (SAE BB)3 = splined (SAE BB)5 = splined (SAE B)
Modifications
Mounting w/connection variables11 = 4 bolts SAE flanges(J518c) UNC threadM1 = 4 bolts SAE flanges(J518c) Metric thread
Seal class
1 = S1 (for mineral oil)4 = S4 (for fire resistant fluids)5 = S5 (for mineral oil and fire
resistant fluid)
Design letter
Porting combination (see page 30)00 = standard
Direction of rotation (view on shaft end)R = clockwiseL = counter-clockwise
ORDERING CODE - T67CB SERIES
PowerlossPs[HP]
LoadF[Lbs]
Pressure p [PSI] Speed n [RPM]
Maximum permissible axial load Fa = 180 Lbs
Pressure p [PSI]
Lp.No
iselevel[db(A)]1mISO4412
In
ternalleakageQs[GPM]
Pressure p [PSI]
T67CB - 014 - B03
P1 P2
HYDROMECHANICAL POWER LOSS (TYPICAL) PERMISSIBLE RADIAL LOAD
INTERNAL LEAKAGE (TYPICAL) NOISE LEVEL (TYPICAL)
Total hydromechanical power loss is the sum of each section at
its operating conditions.
Do not operate the pump more than 5 seconds at any speed orviscosity if internal leakage is higher than 50% of theoreticalflow.
Total leakage is the sum of each section loss at its operatingconditions.
Double pump noise level is given with each section discharging atthe pressure noted on the curve.
16
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DIMENSIONS & OPERATING CHARACTERISTICS - Weight : 57.3 Lbs - T67CB SERIES
OPERATING CHARACTERISTICS - TYPICAL [115 SUS]
Pressureport
Series Volumetricdisplacem. Vi
Flow qv[GPM] & n = 1800 RPM Input power P [HP] & n = 1800 RPM
p = 0 PSI p = 2000 PSI p = 4000 PSI p = 100 PSI p = 2000 PSI p = 4000 PSI
P1
003 .66 in3/rev 5.14 3.85 - 2.11 8.45 -005 1.05 in
3/rev 8.18 6.89 5.68 2.29 12.00 19.81
006 1.30 in3/rev 10.13 8.84 7.63 2.40 14.28 23.79
008 1.61 in3/rev 12.55 11.26 10.05 2.54 17.11 28.75
010 2.08 in3/rev 16.22 14.93 13.71 2.76 21.38 36.22
012 2.26 in3/rev 17.64 16.35 15.14 2.84 23.05 39.14
014 2.81 in3/rev 21.88 20.59 19.37 3.09 27.99 47.78
017 3.56 in3/rev 27.73 26.44 25.22 3.43 34.81 59.73
020 3.89 in3/rev 30.34 29.05 27.84 3.58 37.86 65.07
022 4.29 in3/rev 33.43 32.14 30.93 3.76 41.47 71.38
0251)
4.84 in3/rev 37.71 36.42 35.21 4.01 46.46 80.12
0281)
5.42 in3/rev 42.23 40.94 40.32
2)4.27 51.74 76.73
2)
031
1)
6.10 in
3
/rev 47.56 46.27 45.65
2)
4.58 57.95 86.06
2)
p = 0 PSI p = 2000 PSI p = 4350 PSI p = 100 PSI p = 2000 PSI p = 4350 PSI
P2
B02 .35 in3/rev 2.76 2.33 1.80 0.74 4.02 8.10
B03 .60 in3/rev 4.66 4.23 3.70 0.85 6.24 12.93
B04 .78 in3/rev 6.09 5.66 5.13 0.94 7.90 16.55
B05 .97 in3/rev 7.56 7.13 6.60 1.02 9.62 20.29
B06 1.21 in3/rev 9.42 8.99 8.46 1.13 11.79 25.00
B07 1.37 in3/rev 10.70 10.27 9.74 1.20 13.29 28.26
B08 1.52 in3/rev 11.84 11.41 10.88 1.27 14.62 31.15
B10 1.94 in3/rev 15.12 14.69 14.16 1.46 18.45 39.48
B12 2.50 in3/rev 19.50 19.07 18.54 1.72 23.55 50.58
B15 3.05 in3/rev 23.78 23.35 22.88
3)1.97 28.55 57.35
3)
- We do not recommand to use this 003 at 4000 PSI & 1800 RPM as the internal leakage is over 50% of theoretical flow1) 025 - 028 - 031 = 2500 RPM max. 2) 028 - 031 = 3000 PSI max. int. 3) B15 = 4060 PSI max. int.
Shaft torque limits [in3/rev x PSI]
Pump Shaft V x p max.
T67CB1 12666
2 18972
5 18246
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ORDERING CODE - T67DB SERIES
PowerlossPs[HP]
LoadF[Lbs]
Pressure p [PSI]Speed n [RPM]
Maximum permissible axial load Fa = 270 Lbs
Pressure p [PSI]
Lp.No
iselevel[db(A)]1mISO4412
In
ternalleakageQs[GPM]
Pressure p [PSI]
HYDROMECHANICAL POWER LOSS (TYPICAL) PERMISSIBLE RADIAL LOAD
INTERNAL LEAKAGE (TYPICAL) NOISE LEVEL (TYPICAL)
Model No. T67DB W - 045 - B10 - 1 R 00 - A 1 M1 -
Series - SAE C 2 boltsMounting flange J744c
Use for severe duty shaft only
Cam ring for "P1"(Delivery at 0 PSI & 1200 RPM)014 = 15.09 GPM 035 = 35.19 GPM017 = 18.45 GPM 038 = 38.14 GPM020 = 20.92 GPM 042 = 43.12 GPM024 = 25.20 GPM 045 = 46.19 GPM028 = 28.44 GPM 050 = 50.09 GPM031 = 31.17 GPM
Cam ring for "P2"(Delivery at 0 PSI & 1200 RPM)B02 = 1.84 GPM B07 = 7.13 GPMB03 = 3.11 GPM B08 = 7.89 GPMB04 = 4.06 GPM B10 = 10.08 GPMB05 = 5.04 GPM B12 = 13.00 GPMB06 = 6.28 GPM B15 = 15.85 GPM
Type of shaft Type of shaft - W severe duty1 = keyed (SAE C) 5 = keyed (non SAE)2 = keyed (non SAE)3 = splined (SAE C)4 = splined (non SAE)
Modifications
Mounting w/connection variables11 = 4 bolts SAE flanges(J518c) UNC threadM1 = 4 bolts SAE flanges(J518c) metric thread
Seal class
1 = S1 (for mineral oil)4 = S4 (for fire resistant fluids)5 = S5 (for mineral oil and fire resistant
fluids)
Design letter
Porting combination (see page 30)00 = standard
Direction of rotation (view on shaft end)R = clockwiseL = counter-clockwise
T67DB - 038 - B04
P1 P2
Total hydromechanical power loss is the sum of each section at
its operating conditions.
Do not operate the pump more than 5 seconds at any speed or
viscosity if internal leakage is higher than 50% of theoretical flow.Total leakage is the sum of each section loss at its operatingconditions.
Double pump noise level is given with each section discharging atthe pressure noted on the curve.
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DIMENSIONS & OPERATING CHARACTERISTICS - Weight : 80.7 Lbs - T67DB SERIES
OPERATING CHARACTERISTICS - TYPICAL [115 SUS]
Pressureport
Series Volumetricdisplacem. Vi
Flow qv[GPM] & n = 1800 RPM Input power P [HP] & n = 1800 RPM
p = 0 PSI p = 2000 PSI p = 3500 PSI p = 100 PSI p = 2000 PSI p = 3500 PSI
P1
014 2.90 in3/rev 22.64 20.46 18.82 4.02 29.31 49.34
017 3.55 in3/rev 27.68 25.50 23.86 4.31 35.20 59.64
020 4.03 in3/rev 31.39 29.21 27.57 4.53 39.52 67.21
024 4.85 in3/rev 37.81 35.63 33.99 4.91 47.02 80.32
028 5.47 in3/rev 42.66 40.48 38.84 5.19 52.68 90.23
031 6.00 in3/rev 46.75 44.57 42.93 5.43 57.45 98.58
035 6.77 in3/rev 52.79 50.61 48.97 5.78 64.50 110.91
038 7.34 in3/rev 57.21 55.03 53.39 6.04 69.66 119.94
0421)
8.30 in3/rev 64.68 62.50 60.86 6.47 78.37 135.19
0451)
8.89 in3/rev 69.29 67.11 65.47 6.74 83.75 144.61
0501) 9.64 in3/rev 75.14 72.96 71.782) 7.08 90.58 134.542)
p = 0 PSI p = 2000 PSI p = 4350 PSI p = 100 PSI p = 2000 PSI p = 4350 PSI
P2
B02 .35 in3/rev 2.76 2.33 1.80 0.74 4.02 8.10
B03 .60 in3/rev 4.66 4.23 3.70 0.85 6.24 12.93
B04 .78 in3/rev 6.09 5.66 5.13 0.94 7.90 16.55
B05 .97 in3/rev 7.56 7.13 6.60 1.02 9.62 20.29
B06 1.21 in3/rev 9.42 8.99 8.46 1.13 11.79 25.00
B07 1.37 in3/rev 10.70 10.27 9.74 1.20 13.39 28.26
B08 1.52 in3/rev 11.84 11.41 10.88 1.27 14.62 31.15
B10 1.94 in3/rev 15.12 14.69 14.16 1.46 18.45 39.48
B12 2.50 in3/rev 19.50 19.07 18.54 1.72 23.55 50.58
B15 3.05 in3/rev 23.78 23.55 22.88
3)1.97 28.55 57.35
3)
1) 042 - 045 - 050 = 2200 RPM max. 2) 050 = 3000 PSI max. int. 3) B15 = 4060 PSI max. int.
Shaft torque limits [in3/rev x PSI]
Pump Shaft V x p max.
T67DB1 38299
2 30638
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ORDERING CODE - T67EB SERIES
Maximum permissible axial load Fa = 449 Lbs
HYDROMECHANICAL POWER LOSS (TYPICAL) PERMISSIBLE RADIAL LOAD
INTERNAL LEAKAGE (TYPICAL) NOISE LEVEL (TYPICAL)
Model No. T67EB - 066 - B03 - 1 R 00 - A 1 01 -
Series - SAE C 2 boltsMounting flange J744c
Cam ring for "P1"(Delivery at 0 PSI & 1200 RPM)042 = 41.94 GPM 062 = 62.36 GPM045 = 45.15 GPM 066 = 67.62 GPM050 = 50.25 GPM 072 = 72.00 GPM
052 = 52.25 GPMCam ring for "P2"(Delivery 0 PSI & 1200 RPM)B02 = 1.84 GPM B07 = 7.13 GPMB03 = 3.11 GPM B08 = 7.89 GPMB04 = 4.06 GPM B10 = 10.08 GPMB05 = 5.04 GPM B12 = 13.00 GPMB06 = 6.28 GPM B15 = 15.85 GPM
Type of shaft1 = keyed (SAE CC)2 = keyed (non SAE)3 = splined (SAE C)4 = splined (SAE CC)
Modifications
Mounting w/connection variables01 = 4 bolts SAE flanges(J518c) UNC threadM1 = 4 bolts SAE flanges(J518c) Metric thread
Seal class
1 = S1 (for mineral oil)4 = S4 (for fire resistant fluids)5 = S5 (for mineral oil and fire resistant
fluids)
Design letter
Porting combination (see page 30)00 = standard
Direction of rotation (view on shaft end)R = clockwiseL = counter-clockwise
T67EB - 050 - B03
P1 P2
Total hydromechanical power loss is the sum of each section at
its operating conditions.
Do not operate the pump more than 5 seconds at any speed or
viscosity if internal leakage is higher than 50% of theoretical flow.Total leakage is the sum of each section loss at its operatingconditions.
Double pump noise level is given with each section discharging atthe pressure noted on the curve.
PowerlossPs[HP]
LoadF[Lbs]
Pressure p [PSI]Speed n [RPM]
Pressure p [PSI]
Lp.No
iselevel[db(A)]1mISO4412
In
ternalleakageQs[GPM]
Pressure p [PSI]
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DIMENSIONS & OPERATING CHARACTERISTICS - Weight : 121.0 Lbs - T67EB SERIES
OPERATING CHARACTERISTICS - TYPICAL [115 SUS]
Pressureport
Series Volumetricdisplacem. Vi
Flow qv[GPM] & n = 1800 RPM Input power P [HP] & n = 1800 RPM
p = 0 PSI p = 2000 PSI p = 3500 PSI p = 100 PSI p = 2000 PSI p = 3500 PSI
P1
042 8.07 in3/rev 62.92 60.37 58.52 8.09 78.44 133.80
045 8.69 in3/rev 67.72 65.17 63.32 8.37 84.04 143.60
050 9.67 in3/rev 75.38 72.83 70.98 8.82 92.97 159.24
052 10.06 in3/rev 78.37 75.82 73.97 8.99 96.47 165.36
062 12.00 in3/rev 93.54 90.99 89.14 9.88 114.17 196.34
066 13.02 in
3
/rev 101.44 98.89 97.04 10.34 123.38 212.46072 13.86 in
3/rev 108.00 105.45 103.60 10.72 131.04 225.86
p = 0 PSI p = 2000 PSI p = 4350 PSI p = 100 PSI p = 2000 PSI p = 4350 PSI
P2
B02 .35 in3/rev 2.76 2.33 1.80 0.74 4.02 8.10
B03 .60 in3/rev 4.66 4.23 3.70 0.85 6.24 12.93
B04 .78 in3/rev 6.09 5.66 5.13 0.94 7.90 16.55
B05 .97 in3/rev 7.56 7.13 6.60 1.02 9.62 20.29
B06 1.21 in3/rev 9.42 8.99 8.46 1.13 11.79 25.00
B07 1.37 in3/rev 10.70 10.27 9.74 1.20 13.29 28.26
B08 1.52 in3/rev 11.84 11.41 10.88 1.27 14.62 31.15
B10 1.94 in3/rev 15.12 14.69 14.16 1.46 18.45 39.48
B12 2.50 in3/rev 19.50 19.07 18.54 1.72 23.55 50.58
B15 3.05 in3/rev 23.78 23.35 22.88
1)1.97 28.55 57.35
1)
1) B15 = 4060 PSI max. int.
Shaft torque limits [in3/rev x PSI]
Pump Shaft V x p max.
T67EB2 30638
3 54207
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ORDERING CODE & OPERATING CHARACTERISTICS - T67DBB SERIES
Model No. T67DBB - 038 - B10 - B10 - 1 R 00 - A 1 - M1 -
Series - SAE C 2 boltsMounting flange J744c
Cam ring for "P1"(Delivery at 0 PSI & 1200 RPM)014 = 15.09 GPM017 = 18.45 GPM020 = 20.92 GPM024 = 25.20 GPM028 = 28.44 GPM031 = 31.17 GPM035 = 35.19 GPM038 = 38.14 GPM042 = 43.12 GPM045 = 46.19 GPM050 = 50.09 GPM
Cam ring for "P2" & "P3"(Delivery at 0 PSI & 1200 RPM)B02 = 1.84 GPMB03 = 3.11 GPMB04 = 4.06 GPMB05 = 5.04 GPMB06 = 6.28 GPMB07 = 7.13 GPMB08 = 7.89 GPMB10 = 10.08 GPMB12 = 13.00 GPMB15 = 15.85 GPM
Modifications
Mounting w/connection variables01 = 4 bolts SAE flanges(J518c) UNC threadM1 = 4 bolts SAE flanges(J518c) Metric thread
Seal class
1 = S1 (for mineral oil)4 = S4 (for fire resistant fluids)5 = S5 (for mineral oil and fire resistant
fluids)
Design letter
Porting combination (see pages 30 & 31)00 = standard
Direction of rotation (view on shaft end)R = clockwiseL = counter-clockwise
Type of shaft1 = keyed (non SAE)2 = keyed (SAE CC)3 = splined (SAE C)4 = splined (SAE CC)
OPERATING CHARACTERISTICS - TYPICAL [115 SUS]
P2 P3P1
Pressureport
Series Volumetricdisplacem. Vi
Flow qv[GPM] & n = 1800 RPM Input power P [HP] & n = 1800 RPM
p = 0 PSI p = 2000 PSI p = 3500 PSI p = 100 PSI p = 2000 PSI p = 3500 PSI
P1
014 2.90 in3/rev 22.64 20.46 18.82 4.02 29.31 49.34
017 3.55 in3/rev 27.68 25.50 23.86 4.31 35.20 59.64
020 4.03 in3/rev 31.39 29.21 27.57 4.53 39.52 67.21
024 4.85 in3/rev 37.81 35.63 33.99 4.91 47.02 80.32
028 5.47 in3/rev 42.66 40.48 38.84 5.19 52.68 90.23
031 6.00 in3/rev 46.75 44.57 42.93 5.43 57.45 98.58
035 6.77 in3/rev 52.79 50.61 48.97 5.78 64.50 110.91
038 7.34 in3/rev 57.21 55.03 53.39 6.04 69.66 119.94
0421)
8.30 in3/rev 64.68 62.50 60.86 6.47 78.37 135.19
0451)
8.89 in3/rev 69.29 67.11 65.47 6.74 83.75 144.61
0501) 9.64 in3/rev 75.14 72.96 71.782) 7.08 90.58 134.542)
p = 0 PSI p = 2000 PSI p = 4350 PSI p = 100 PSI p = 2000 PSI p = 4350 PSI
P2&P3
B02 .35 in3/rev 2.76 2.33 1.80 0.74 4.02 8.10
B03 .60 in3/rev 4.66 4.23 3.70 0.85 6.24 12.93
B04 .78 in3/rev 6.09 5.66 5.13 0.94 7.90 16.55
B05 .97 in3/rev 7.56 7.13 6.60 1.02 9.62 20.29
B06 1.21 in3/rev 9.42 8.99 8.46 1.13 11.79 25.00
B07 1.37 in3/rev 10.70 10.27 9.74 1.20 13.29 28.26
B08 1.52 in3/rev 11.84 11.41 10.88 1.27 14.62 31.15
B10 1.94 in3/rev 15.12 14.69 14.16 1.46 18.45 39.48
B12 2.50 in3/rev 19.50 19.07 18.54 1.72 23.55 50.58
B15 3.05 in3/rev 23.78 23.35 22.88
3)1.97 28.55 57.35
3)
1) 042 - 045 - 050 = 2200 RPM max. 2) 050 = 3000 PSI max. int. 3) B15 = 4060 PSI max. int.
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TECHNICAL DATA - T67DBB SERIES
Triple pump noise level is given with each section discharging atthe pressure noted on the curve.
Powe
rlossPs[HP]
Lo
adF[Lbs]
Pressure p [PSI] Speed n [RPM]
Maximum permissible axial load Fa = 180 Lbs
Pressure p [PSI]
Lp.Noiselevel[db(A)]1mISO4412
InternalleakageQs[GPM]
Pressure p [PSI]
HYDROMECHANICAL POWER LOSS (TYPICAL) PERMISSIBLE RADIAL LOAD
INTERNAL LEAKAGE (TYPICAL) NOISE LEVEL (TYPICAL)
T67DBB - 038 - B06 - B04
Total hydromechanical power loss is the sum of each section at
its operating conditions.
Do not operate the pump more than 5 seconds at any speed orviscosity if internal leakage is higher than 50% of theoretical flow.Total leakage is the sum of each section loss at its operatingconditions.
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ORDERING CODE & OPERATING CHARACTERISTICS - T67DCB SERIES
Model No. T67DCB - 038 - 028 - B10 - 1 R 00 - A 1 - M1 -
Series - SAE C 2 boltsMounting flange J744c
Cam ring for "P1"(Delivery at 0 PSI & 1200 RPM)014 = 15.09 GPM 035 = 35.19 GPM017 = 18.45 GPM 038 = 38.14 GPM020 = 20.92 GPM 042 = 43.12 GPM024 = 25.20 GPM 045 = 46.19 GPM028 = 28.44 GPM 050 = 50.09 GPM
031 = 31.17 GPMCam ring for "P2"(Delivery at 0 PSI & 1200 RPM)003 = 3.43 GPM 012 = 11.76 GPM 025 = 25.14 GPM005 = 5.45 GPM 014 = 14.58 GPM 028 = 28.15 GPM006 = 6.75 GPM 017 = 18.48 GPM 031 = 31.70 GPM008 = 8.37 GPM 020 = 20.23 GPM010 = 10.81 GPM 022 = 22.29 GPM
Cam ring for "P3"(Delivery at 0 PSI & 1200 RPM)B02 = 1.84 GPM B06 = 6.28 GPM B12 = 13.00 GPMB03 = 3.11 GPM B07 = 7.13 GPM B15 = 15.85 GPMB04 = 4.06 GPM B08 = 7.89 GPMB05 = 5.04 GPM B10 = 10.08 GPM
Modifications
Mounting w/connection variables01 = 4 bolts SAE flanges(J518c) UNC threadM1 = 4 bolts SAE flanges(J518c) Metric thread
Seal class1 = S1 (for mineral oil)
4 = S4 (for fire resistant fluids)5 = S5 (for mineral oil and fire resistantfluids)
Design letter
Porting combination (see pages 30 & 31)00 = standard
Direction of rotation (view on shaft end)R = clockwise L = counter-clockwise
Type of shaft1 = keyed (non SAE) 3 = splined (SAE C)2 = keyed (SAE CC) 4 = splined (SAE
OPERATING CHARACTERISTICS - TYPICAL [115 SUS]
P2 P3P1
Pressureport
Series Volumetricdisplacem. Vi
Flow qv[GPM] & n = 1800 RPM Input power P [HP] & n = 1800 RPM
p = 0 PSI p = 2000 PSI p = 3500 PSI p = 100 PSI p = 2000 PSI p = 3500 PSI
P1
014 2.90 in3/rev 22.64 20.46 18.82 4.02 29.31 49.34
017 3.55 in3/rev 27.68 25.50 23.86 4.31 35.20 59.64
020 4.03 in3/rev 31.39 29.21 27.57 4.53 39.52 67.21
024 4.85 in3/rev 37.81 35.63 33.99 4.91 47.02 80.32
028 5.47 in3/rev 42.66 40.48 38.84 5.19 52.68 90.23
031 6.00 in3/rev 46.75 44.57 42.93 5.43 57.45 98.58
035 6.77 in3/rev 52.79 50.61 48.97 5.78 64.50 110.91
038 7.34 in3/rev 57.21 55.03 53.39 6.04 69.66 119.94
0421)
8.30 in3/rev 64.68 62.50 60.86 6.47 78.37 135.19
0451)
8.89 in3/rev 69.29 67.11 65.47 6.74 83.75 144.61
0501)
9.64 in3/rev 75.14 72.96 71.78
3)7.08 90.58 134.54
3)
p = 0 PSI p = 2000 PSI p = 4000 PSI p = 100 PSI p = 2000 PSI p = 4000 PSI
P2
003 .66 in3/rev 5.14 3.85 - 2.11 8.45 -
005 1.05 in3/rev 8.18 6.89 5.68 2.29 12.00 19.81
006 1.30 in3/rev 10.13 8.84 7.63 2.40 14.28 23.79
008 1.61 in3/rev 12.55 11.26 10.05 2.54 17.11 28.75
010 2.08 in3/rev 16.22 14.93 13.71 2.76 21.38 36.22
012 2.26 in3/rev 17.64 16.35 15.14 2.84 23.05 39.14
014 2.81 in3/rev 21.88 20.59 19.37 3.09 27.99 47.78
017 3.56 in3/rev 27.73 26.44 25.22 3.43 34.81 59.73
020 3.89 in3/rev 30.34 29.05 27.84 3.58 37.86 65.07
022 4.29 in3/rev 33.43 32.14 30.93 3.76 41.47 71.38
0252)
4.84 in3/rev 37.71 36.42 35.21 4.01 46.46 80.12
0282)
5.42 in3/rev 42.23 40.94 40.32
3)4.27 51.74 76.73
3)
0312)
6.10 in3/rev 47.56 46.27 45.65
3)4.58 57.95 86.06
3)
p = 0 PSI p = 2000 PSI p = 4350 PSI p = 100 PSI p = 2000 PSI p = 4350 PSI
P3
B02 .35 in3/rev 2.76 2.33 1.80 0.74 4.02 8.10
B03 .60 in3/rev 4.66 4.23 3.70 0.85 6.24 12.93
B04 .78 in3/rev 6.09 5.66 5.13 0.94 7.90 16.55
B05 .97 in3/rev 7.56 7.13 6.60 1.02 9.62 20.29
B06 1.21 in3/rev 9.42 8.99 8.46 1.13 11.79 25.00
B07 1.37 in3/rev 10.70 10.27 9.74 1.20 13.29 28.26
B08 1.52 in3/rev 11.84 11.41 10.88 1.27 14.62 31.15
B10 1.94 in3/rev 15.12 14.69 14.16 1.46 18.45 39.48
B12 2.50 in3/rev 19.50 19.07 18.54 1.72 23.55 50.58
B15 3.05 in3/rev 23.78 23.35 22.88
4)1.97 28.55 57.35
4)
- We do not recommand to use the 003 cartridge at 4000 PSI & 1800 RPM as the internal leakage is over 50% of theoretical flow.1)
042 - 045 - 050 = 2200 RPM max.2)
025 - 028 - 031 = 2500 RPM max.3) 028 - 031 - 050 = 3000 PSI max. int. 4) B15 = 4060 PSI max. int.
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Vi x p max. P1 + P2 + P3
54207
58901
Shaft
3
4
Shaft torque limits [in3/rev x PSI]
Vi x p max. P1 + P2 + P3
38299
58901
Shaft
1
2
Pump
T67DBB
T67DCB
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ORDERING CODE & OPERATING CHARACTERISTICS - T67EDB SERIES
Model No. T67EDB - 062 - 035 - B10 - 1 R 00 - A 1 - P 1 -
Series - 250 B4HWISO 3019-2 Mounting flange
Cam ring for "P1"(Delivery at 0 PSI & 1800 RPM)042 = 41.94 GPM 062 = 62.36 GPM045 = 45.15 GPM 066 = 67.62 GPM050 = 50.25 GPM 072 = 72.00 GPM
052 = 52.25 GPMCam ring for "P2"(Delivery at 0 PSI & 1800 RPM)014 = 15.09 GPM 035 = 35.19 GPM017 = 18.45 GPM 038 = 38.14 GPM020 = 20.92 GPM 042 = 43.12 GPM024 = 25.20 GPM 045 = 46.19 GPM028 = 28.44 GPM 050 = 50.09 GPM031 = 31.17 GPM
Cam ring for "P3"(Delivery at 0 PSI & 1800 RPM)B02 = 1.84 GPM B07 = 7.13 GPMB03 = 3.11 GPM B08 = 7.89 GPMB04 = 4.06 GPM B10 = 10.08 GPMB05 = 5.04 GPM B12 = 13.00 GPMB06 = 6.28 GPM B15 = 15.85 GPM
Modifications
Mounting w/connection variables4 bolts SAE flanges(J518c) Metric thread1 = P3 = 3/4" SAE
Mounting (pump)P = 4 holes for pedestal mounting
F = Standard mounting
Seal class1 = S1 (for mineral oil)4 = S4 (for fire resistant fluids)5 = S5 (for mineral oil and fire resistant fluids)
Design letter
Porting combination (see pages 30 & 31)00 = standard
Direction of rotation (view on shaft end)R = clockwiseL = counter-clockwise
Type of shaft1 = keyed (G45N - ISO 3019-2)
OPERATING CHARACTERISTICS - TYPICAL [115 SUS]
P2 P3P1
Pressureport
Series Volumetricdisplacem. Vi
Flow qv[GPM] & n = 1800 RPM Input power P [HP] & n = 1800 RPM
p = 0 PSI p = 2000 PSI p = 3500 PSI p = 100 PSI p = 2000 PSI p = 3500 PSI
P1
042 8.07 in3/rev 62.92 60.37 58.52 8.09 78.44 133.8
045 8.69 in3/rev 67.72 65.17 63.32 8.37 84.04 143.60
050 9.67 in3/rev 75.38 72.83 70.98 8.82 92.97 159.24
052 10.06 in3/rev 78.37 75.82 73.97 8.99 96.47 165.36
062 12.00 in
3
/rev 93.54 90.99 89.14 9.88 114.17 196.34066 13.02 in
3/rev 101.44 98.89 97.04 10.34 123.38 212.46
072 13.86 in3/rev 108.00 105.45 103.60 10.72 131.04 225.86
P2
014 2.90 in3/rev 22.64 20.46 18.82 4.02 29.31 49.34
017 3.55 in3/rev 27.68 25.50 23.86 4.31 35.20 59.64
020 4.03 in3/rev 31.39 29.21 27.57 4.53 39.52 67.21
024 4.85 in3/rev 37.81 35.63 33.99 4.91 47.02 80.32
028 5.47 in3/rev 42.66 40.48 38.84 5.19 52.68 90.23
031 6.00 in3/rev 46.75 44.57 42.93 5.43 57.45 98.58
035 6.77 in3/rev 52.79 50.61 48.97 5.78 64.50 110.91
038 7.34 in3/rev 57.21 55.03 53.39 6.04 69.66 119.94
0421)
8.30 in3/rev 64.68 62.50 60.86 6.47 78.37 135.19
0451)
8.89 in3/rev 69.29 67.11 65.47 6.74 83.75 144.61
0501) 9.64 in3/rev 75.14 72.96 71.782) 7.08 90.58 134.542)
p = 0 PSI p = 2000 PSI p = 4350 PSI p = 100 PSI p = 2000 PSI p = 4350 PSI
P3
B02 .35 in3/rev 2.76 2.33 1.80 0.74 4.02 8.10
B03 .60 in3/rev 4.66 4.23 3.70 0.85 6.24 12.93
B04 .78 in3/rev 6.09 5.66 5.13 0.94 7.90 16.55
B05 .97 in3/rev 7.56 7.13 6.60 1.02 9.62 20.29
B06 1.21 in3/rev 9.42 8.99 8.46 1.13 11.79 25.00
B07 1.37 in3/rev 10.70 10.27 9.74 1.20 13.29 28.26
B08 1.52 in3/rev 11.84 11.41 10.88 1.27 14.62 31.15
B10 1.94 in3/rev 15.12 14.69 14.16 1.46 18.45 39.48
B12 2.50 in3/rev 19.50 19.07 18.54 1.72 23.55 50.58
B15 3.05 in3/rev 23.78 23.35 22.88
3)1.97 28.55 57.35
3)
1) 042 - 045 - 050 = 2200 RPM max. 2) 050 = 3000 PSI max. int. 3) B15 = 4060 PSI max. int.
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TECHNICAL DATA - T67EDB SERIES
Maximum permissible axial load Fa = 449 Lbs
HYDROMECHANICAL POWER LOSS (TYPICAL) PERMISSIBLE RADIAL LOAD
INTERNAL LEAKAGE (TYPICAL) NOISE LEVEL (TYPICAL)
T67EDB - 062 - 035 - B04
Triple pump noise level is given with each section discharging atthe pressure noted on the curve.
Do not operate the pump more than 5 seconds at any speed orviscosity if internal leakage is higher than 50% of theoretical flow.Total leakage is the sum of each section loss at its operatingconditions.
Total hydromechanical power loss is the sum of each section at
its operating conditions.
Powe
rlossPs[HP]
Lo
adF[Lbs]
Pressure p [PSI] Speed n [RPM]
Pressure p [PSI]
Lp.Noiselevel[db(A)]1mISO4412
InternalleakageQs[GPM]
Pressure p [PSI]
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PORTING DIAGRAMS - T67 SERIES INDUSTRIAL APPLICATION
T67DBB, T67DCB & T67EDB
T7BB - T67CB - T67DB - T67EB
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PORTING DIAGRAMS - T67 SERIES INDUSTRIAL APPLICATION
T67DBB, T67DCB & T67EDB