DENISON HYDRAULICS vane pumps : single, double & triple General catalog T7 - T67 - T6C series
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1 DENION HYDRAULIC vane pumps : single, double & triple General catalog T7 - T7 - TC series Publ. - EN7 - A 7 / / / FB Replaces : - EN 79 - C L - 7 -
2 VANE PUMP - GENERAL CATALOG GENERAL General characteristics Minimum and maximum speeds - Pressure ratings - ingle pumps Minimum and maximum speeds - Pressure ratings - Double & triple pumps Minimum allowable inlet pressure Main calculation Intermittent pressure rating Description tart-up instructions & recommendations General haft & coupling data pecific point Fluids Formulas General characteristics INGLE T7B - T7B Ordering code and technical data Dimensions and operating characteristics TC Ordering code and technical data Dimensions and operating characteristics T7D - T7D Ordering code and technical data Dimensions and operating characteristics T7E - T7E Ordering code and technical data Dimensions and operating characteristics DOUBLE T7BB - T7BB Ordering code and technical data Dimensions and operating characteristics TCC Ordering code and technical data Dimensions and operating characteristics T7CB Ordering code and technical data Dimensions and operating characteristics T7DB - T7DB Ordering code and technical data Dimensions and operating characteristics T7DC Ordering code and technical data Dimensions and operating characteristics T7DD - T7DD Ordering code and technical data Dimensions and operating characteristics
3 VANE PUMP - GENERAL CATALOG DOUBLE T7EB - T7EB Ordering code and technical data Dimensions and operating characteristics T7EC Ordering code and technical data Dimensions and operating characteristics T7ED - T7ED Ordering code and technical data Dimensions and operating characteristics T7EE - T7EE Ordering code and technical data Dimensions and operating characteristics TRIPLE T7DBB Ordering code and operating characteristics Technical data Dimensions T7DCB Ordering code and operating characteristics Technical data Dimensions T7DCC Dimensions Ordering code and operating characteristics Technical data T7DDB - T7DDB Ordering code and operating characteristics Technical data Dimensions T7DDC Dimensions Ordering code and operating characteristics Technical data T7EDB - T7EDB Ordering code and operating characteristics Technical data Dimensions T7EDC - T7EDC Dimensions Ordering code and operating characteristics Technical data Porting diagrams for double and triple pumps Porting diagrams for triple pumps
4 CARACTERITIC - GENERAL CATALOG CHARACTERITIC GREATER FLOW HIGHER PREURE WIDE PEED RANGE BETTER EFFICIENCY LOW NOIE LEVEL MOUNTING FLEXIBILITY CARTRIDGE DEIGN WIDE RANGE OF ACCEPTABLE VICOITIE FIRE REITANT FLUID AND BIODEGRADABLE FLUID These vane pumps have been specially designed for high/low circuit. The combination of different cartridges in double and triple pumps allows low flow at high pressure ( bar max.) and high flow at lower pressure. This is a clever way to optimize your circuit design. This pump feature will also allow a very fast pressure cycle change with a very precise flow repeatability. B : 5,8 to 5, ml/rev. C :,8 to, ml/rev. D :, to 58, ml/rev. E :, to 8,7 ml/rev. B : bar max. ( bar for multiple pump). C : 75 bar max. D : 8 bar max. (5 bar for multiple pump). E : bar max. Industrial pumps : from to RPM Over 9 % under high pressure, which increases productivity and reduces heating and operation costs. Increase operator safety and acceptance. ingle pumps : positions. Double pumps : positions. Triple pumps : 8 positions. Provides for drop-in assemblies. They permit easy conversion and service. B and D cartridges : bi-directional C and E cartridges : Uni-directional. Viscosities from 8 to ct permit colder starts and hotter running. The balanced design compensates for wear and temperature changes. At high viscosity or cold temperature, the rotor to side plates gap is well lubricated and improves mechanical efficiency. Including phosphate esters, organic esters, chlorinated hydrocarbons, water glycols, rapeseed may be pumped at higher pressures and with longer service life by these pumps. GENERAL APPLICATION INTRUCTION. Check speed range, pressure, temperature, fluid quality, viscosity and pump rotation.. Check inlet conditions of the pump, if it can accept application requirement.. Type of shaft : if would support operating torque.. Coupling must be chosen to minimize pump shaft load (weight, misalignment). 5. Filtration : must be adequate for lowest contamination level.. Environment of pump : to avoid noise reflection, pollution and shocks.
5 INGLE PUMP : PEED, PREURE RATING - GENERAL CATALOG Model of pump T7B T7B TC T7D T7D T7E T7E Theoretical Maximum speed Maximum pressure Minimum Displacement HF-, HF- HF-, HF- HF-, HF- HF-, HF-, HF-5 HF- Displ. speed Vi HF- HF-5 Int. Cont. Int. Cont. Int. Cont. ml/rev RPM RPM RPM bar bar bar bar bar bar B 5,8 B 9,8 B,8 B5 5,9 B 9,8 ) 9 B7,5 B8, B9 8, B,8 B 5, B, 75 B 5, B5 5, 8,8 5 7,, 8,, 8 7, 75 75, ,,8 7, 5 79, 8 88,8 5, B, B7 55, B, B 7, B 8, 5 B8 9, 8 75 B 99, B5, B8, 8 8 B 7,5 5 5 ) 5, ) 58,, 5, 5 58,5 5,8 5 7, , 9,7, 7 7, 85 8, HF-, HF- = Anti-wear petroleum base. HF- = Non anti-wear petroleum base. HF-5 = ynthetic fluids. HF- = Water-in-oil invert emulsions. HF- = Water glycol solutions. ) Please consult DENION Hydraulics for application over bar. ) Ten vane technology. For further information or if the performance characteristics outlined above do not meet your own particular requirements, please consult your local DENION Hydraulics office. 5
6 DOUBLE AND TRIPLE PUMP : PEED, PREURE RATING - GENERAL CATALOG Model of pump T7BB/ T7CB T7DB/ T7EB/ T7DBB T7DCB T7DDB/ T7EDB/ TCC T7CB T7DC T7EC T7DCB T7DCC T7DDC T7EDC/ T7DB/ T7DC T7DD/ T7ED T7DBB T7DCB T7DCC T7DDB/ T7DDC T7EDB/ T7EDC/ T7EB/ T7EC T7ED T7EE/ T7EDB/ T7EDC/ Theoretical Maximum speed Maximum pressure Minimum Displacement HF-,HF- HF-,HF- HF-, HF- HF-, HF-, HF-5 HF- Displ. speed Vi HF- HF-5 Int. Cont. Int. Cont. Int. Cont. ml/rev RPM RPM RPM bar bar bar bar bar bar B 5,8 B 9,8 B,8 B5 5,9 B 9,8 B7,5 B8,9 B9 8, B,8 B 5, B, B 5, B5 5,,8 5 7,, 8,, 7,, 7 58,,8 7, 5 79, 8 88,8, B, B7 55, B, B 7, B 8, B8 9, B 99, B5, B8, B 7,5 ) 8 ) 8 ) 8 T7BB T7BB ) Other pumps T7BB T7BB 9 Other pumps ) 5, ) 58,, 5, 5 58,5 5,8 5 7, 57 8, ) 8 9,7, 7 7, 85 8, HF-, HF- = Anti-wear petroleum base. HF- = Non anti-wear petroleum base. HF-5 = ynthetic fluids. HF- = Water-in-oil invert emulsions. HF- = Water glycol solutions. ) Please consult DENION Hydraulics for application over bar. ) Ten vane technology. ) Please consult DENION Hydraulics with higher speeds. For further information or if the performance characteristics outlined above do not meet your own particular requirements, please consult your local DENION Hydraulics office.
7 MINIMUM ALLOWABLE INLET PREURE (BAR ABOLUTE) - GENERAL CATALOG Cartridges peed RPM izes Displ Displ. B B B B,8,8 B B B5 B5 B B,8,98 B7,8,8 B7 B B8,8,8,8,8,8,8 B8,85,5 B9 B9 B,5 B B,9 B B B B B,8,99, B5 B5 5 5,8,9 8,8, 8,8,9,85 C,8,8,8 7,95 7,85,,9,85,9,98,5 5,95,95,5 5,9 8,98,98,8 8,85,9,, B B,8,8 B7 B7 B,8,8 B B,8,8,88 B B,8,95 B,8,8,8,8 B8,88, B8 D,8,8 B,9,5 B B5,8,97 B5 B8,8, B8 B,9 B 5,98,5 5,85 5,, ,8,9 5 5,8,8, E 57 57,85,95,95,9,85,85, 7,85,5 7 85,9,9, 85 Inlet pressure is measured at inlet flange with petroleum base fluids at viscosity between and 5 ct. The difference between inlet pressure at the pump flange and atmospheric pressure must not exceed, bar to prevent aeration. Multiply absolute pressure by,5 for HF-, HF- fluids. by,5 for HF-5 fluid. by, for ester or rapeseed base. Use the cartridge with the highest absolute pressure for double and triple pumps. 7
8 PUMP ELECTION - GENERAL CATALOG MAIN CALCULATION To resolve Volumetric displ. Available flow Input power Vi [ml/rev.] qv [l/min] P [kw] Performances required Requested flow qv [l/min] 75 peed n [RPM] 5 5 Routine :. First calculation Vi = Q n Example : Vi = x 75 5 = ml/rev.. Choice Vi of pump immediately greater (see tabulation) T7B B, Vi =,8 cm /rev.. Theoretical flow of this pump Vp x n q Vi = q Vi =,8 x 5 = 79,5 l/min. Find qvs leakage function of pressure q Vs = f(p) on curve at or ct T7B (page ) : q Vs = l/min at 5 bar, ct 5. Available flow q Ve = q Vi - q Vs q Ve = 79,5 - = 7,5 l/min. Theoretical input power q Vi x p Pi = Pi = 79,5 x 5 =, kw 7. Find Ps hydrodynamic power loss on curve T7B (page ) : Ps at 5 RPM, 5 bar =,9 kw 8. Calculation of necessary input power P = Pi + Ps 9. Results P =, +,9 =, kw Vi =,8 ml/rev. q Ve = 7,5 l/min P =, kw ) T7B B These calculation steps must be followed for each application. INTERMITTENT PREURE RATING Pressure (bar),5 5 Time (minutes) Average Pressure Cycle T7 and T7 units may be operated intermittently at pressures higher than the recommended continuous rating when the time weighted average of pressure is less than or equal to the continuous duty pressure rating. This intermittent pressure rating calculation is only valid if other parameters : speed, fluid, viscosity and contamination level are respected. For total cycle time longer than 5 minutes, please consult your DENION Hydraulics representative. Example : T7B - B Duty cycle min. at bar min. at 5 bar 5 min. at bar ( X ) + ( x 5) + (5 x ) =,5 bar,5 bar is lower than 9 bar allowed as continuous pressure for T7B - B with HF- fluid. 8
9 DECRIPTION - GENERAL CATALOG Inlet Outlet Front & rear sideplates are each clamped axialy by the separate discharge pressures. haft end outlet port has - positions at 9 intervals relative to inlet. Inlet Cap end outlet port has8-positions at 5 intervals relative to inlet on each double and triple pump. Pilot recess as required by AE for full conformity. haft comes in variety of keyed and splined options to meet AE and IO 9-. Cartridge is replaceable assembly including cam ring, rotor, vanes, pins and sideplate. B Vane is urged outward at suction ramp by pin force and centrifugal force. Ball bearing holds shaft in alignment. 9 ection Cartridge are replaceable assemblies. Each includes cam ring, rotor, vanes, pins and sideplates. Holes in cam ring improve wide cartridge inlet characteristics. uction ramp where unloaded vane moves out. Working vane on major arc pushes fluid to discharge port. A ection B-B B ection A-A Pin cavity is at a steady pressure equal to that at discharge port. ide feed holes supply discharge pressure to pin cavities. Discharge ramp where unloaded vane moves in.. A Working vane on minor arc seals discharge pressure from the suction port. APPLICATION ADVANTAGE! The high pressure capability up to bar, in the small envelope, reduces installation costs and provides extended life at reduced pressure.! The high volumetric efficiency, typically better than 9%, reduces heat generation, and allows speeds down to RPM at full pressure.! The high mechanical efficiency, typically better than 9%, reduces energy consumption.! The wide speed range ( RPM at RPM), combined with large size cartridge displacements will optimize operation for the lowest noise level in the smallest envelope! The low speed ( RPM), low pressure, high viscosity (8 ct) allows application in cold environment with a minimum energy consumption and without risk of seizure.! The low ripple pressure (± bar) reduces piping noise and increases lifetime of other 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 customized installation.! Noise : pecially designed to optimize the low noise level characteristics.! Cartridge concept : drops maintenance costs by two. 9
10 TART-UP INTRUCTION & RECOMMENDATION - GENERAL CATALOG GENERAL : ROTATION & PORT INDICATION All DENION Hydraulics vane pumps & motors are individually tested to provide the best quality & reliability. Modifications, conversions & repairs can only be done by authorized dealers or OEM to avoid invalidation of the guarantee. The pumps & motors are to be used in the design limits indicated in all the sales bulletins. Please contact DENION when tresspassing the catalog limits. Do not modify or work on the pump (or motor) under pressure or when the electric motor (or any drive) is on. Qualified personnel is required to assemble and set-up hydraulic devices. Always conform yourself to the valid regulations (safety, electrical, environment...). The following instructions are important to follow to obtain a good service life time from the unit. The rotation and ports orientation are viewed from the shaft end. CW stands for clockwise, right-hand rotation. CCW stands for counter-clockwise, left-hand rotation. TART-UP CHECK-UP Check that the assembly of the power unit is correct : The distance between the suction pipe & the return lines in the tank should be at its maximum. A bevel on both suction & return lines is recommended to increase the surface and so lower the velocity. We suggest a 5 minimum angle. Velocities : inlet,5 < x <,9 m/s (, < x <, ft per sec.) : return x < m/s (x < 9,7 ft per sec.) : Always insure that all return and suction lines are under the oil level to avoid forming aeration or vortex effect. This should be done under the most critical situation (all cylinders extended for example). traight and short pipes are the best. Q (Lpm) Q (GPM) V= x π x r = m/s V= (cm). x π x r = ft/s (in) tart-up : The size of the air filter should be times greater than the max. instant return flow (all cylinders in movement for example). If the pump is in the tank, please choose the NOP option (no paint) and use a short inlet pipe. DENION does not recommend inlet strainers. If needed, a mesh (9 microns) is the finest mesh recommended. A coaxial drive is recommended. For any other type of drives, please contact DENI- ON. Make sure that all protective plugs & covers have been removed. Check the pump rotation versus the E-motor or engine rotation. The tank has been filled up with a clean fluid in proper conditions. Flushing the system with an external pump prior to the start-up is good. To allow a good priming of the pump, the air should be bled off. The first valve on the circuit should be open to tank. Air bleed off valves are available on the market place. It is possible to bleed off the air by creating a leak in the P port of the pump. Warning : this has to be done in low pressure mode as it could create a dangerous fluid leak. Make sure that the pressure cannot rise (open center valve to tank, pressure relief valve unloaded...). When oil free of air appears, tighten the connectors to the correct torque.
11 TART-UP INTRUCTION & RECOMMENDATION - GENERAL CATALOG HAFT & COUPLING DATA : COUPLING AND FEMALE PLINE KEYED HAFT HAFT LOAD The pump should prime within a few seconds. If not, please read the troubleshooting guide ( - EN7 - *). If the pump is noisy, please troubleshoot the system. Never operate the pump at top speed and pressure without checking the completion of pump priming.! The mating female spline should be free to float and find its own center. If both members are rigidly supported, they must be aligned within,5 TIR (. TIR) or less to reduce fretting. The angular alignment of two splines axes must be less than ±,5 per 5, radius (±. per radius).! The coupling spline must be lubricated with a lithium molydisulfide grease, disulfide of molybdenum or a similar lubricant.! The coupling must be hardened to a hardness between 9 and 5 HRC.! The female spline must be made to conform to the Class fit as described in AE- J98b (97). This is described as a Flat Root ide Fit. DENION Hydraulics supplies the T series keyed shaft pumps with high strength heat-treated keys. Therefore, when installing or replacing these pumps, the heat-treated keys must be used in order to ensure maximum life in the application. If the key is replaced, it must be a heat-treated key between 7 and R.C. hardness. The corners of the keys must be chamfered by,7 mm to, mm (. to.) at 5 to clear the radii in the key way. The alignment of keyed shafts must be within tolerances given for splined shafts here above. These products are primarily designed for coaxial drives which do not impose axial or side loading on the shaft. Contact DENION for specific applications. PECIFIC POINT : MINIMUM INLET PREURE MAXIMUM INLET PREURE MINIMUM OUTLET PREURE VERTICAL MOUNT Please read the charts in the sales leaflets as the minimum requested inlet pressure varies versus the displacement and the speed. Never go under,8 bar Absolute (-, bar relative). PI Absolute (-.9 PI G). It is recommended to always have at least,5 bar ( PI) differential between inlet and outlet. tandard shaft seals are limited to,7 bar ( PI G) but some allow 7 bar ( PI G). Please contact DENION for more information. It is recommended to always have at least,5 bar ( PI) differential between inlet and outlet. When assembled vertically, always be careful to prevent any air from being trapped in the pump (behind the shaft seal for example). FLUID : DENION CLAIFICATION FILTRATION RECOMMENDATION Type of fluids : For all types of fluids, DENION s products have different pressures, speeds & temperature limits. Please refer to the sales leaflets. HF- = Anti-wear petroleum base. HF- = Non anti-wear petroleum base. HF- = Anti-wear petroleum base. HF- = Water-in-oil invert emulsions. HF- = Water glycol solutions. HF-5 = ynthetic fluids. NA 8 class 8 or better. IO 8 / or better. Inlet strainers : DENION does not recommend inlet strainers. If requested, a mesh (9 microns) is the finest mesh recommended.
12 TART-UP INTRUCTION & RECOMMENDATION - GENERAL CATALOG RECOMMENDED FLUID ACCEPTABLE ALTERNATE FLUID VICOITY VICOITY INDEX TEMPERATURE WATER CONTAMINATION IN THE FLUID Petroleum based antiwear R & O fluids. These fluids are the recommended fluids for pumps & motors. Maximum catalog ratings and performance data are based on operation with these fluids. These fluids are covered by DENION Hydraulics HF- and HF- specifications. The use of fluids other than petroleum based antiwear R & O fluids requires that the maximum ratings of the pumps will be reduced. In some cases the minimum replenishment pressures must be increased. Consult specific sections for more details (page ). Indutrial Max. (cold start, low speed & pressure) 8 ct - 9 U Max. (full speed & pressure) 8 ct - 5 U Optimum (max. life) ct - U Min. (full speed & pressure for HF-, HF-, HF- & HF-5 fluids) 8 ct - 9 U Min. (full speed & pressure for HF- & HF- fluids) ct - U 9 min. Higher values extend the range of operating temperatures. The usual limitating factor of temperature (low or high) comes from the obtained viscosity. The seals are sometimes the limit : standard seals range from - C to 9 C (-9. F to 9 F). Maximum fluid temperature (θ) C F HF-, HF-, HF- + + HF-, HF HF Biodegradable fluids (esters & rapeseed base) Minimum fluid temperature (θ) (also depend on max. viscosity) C F HF-, HF-, HF-, HF HF-, HF Biodegradable fluids (esters & rapeseed base) Over or under these values, please contact DENION. Maximum acceptable content of water :!, % for mineral base fluids.!,5 % for synthetic fluids, crankcase oils, biodegradable fluids. If the amount of water is higher, then it should be drained off the circuit. FLUID POWER FORMULA Pump input torque Pump input power Pump output flow Fluid motor speed Fluid motor torque Fluid motor power N.m kw Lpm rpm N.m kw pressure (bar) x displacement cm /rev π x mech. eff. rpm x (cm /rev) x pressure (bar) x overall eff. rpm x (cm /rev) x volumetric eff. x flow rate (Lpm) x volumetric eff. displacement (cm /rev.) pressure (bar) x displacement (cm /rev) x mech. eff. π rpm x (cm /rev) x (bar) x overall eff.
13 GENERAL CHARACTERITIC - GENERAL CATALOG GENERAL CHARACTERITIC Weight without Moment of AE bolts Mounting connector and inertia J58 - IO/DI - standard bracket - kg kgm x - uction Pressure T7B IO 9- A HW T7B AE J7 AE B,, "/ " or /" TC AE J7 AE B 5,7 7,5 "/ " T7D IO 9-5 A HW T7D AE J7 AE C, 9, " "/ T7E IO 9-5 A HW T7E AE J7 AE C,,5 " "/ T7BB IO 9- A HW T7BB AE J7 AE B,,7 "/ " or /" /" TCC AE J7 AE B,,9 "/ or " " " or /" T7CB AE J7 AE B,, "/ " /" T7DB IO 9-5 A HW T7DB AE J7 AE C 8,,7 " "/ " or /" T7DC AE J7 AE C 8,, " "/ " or /" T7DD IO 9-5 B HW T7DD AE J7 AE C 5,, " "/ "/ T7EB IO 9-5 A HW T7EB AE J7 AE C 55, 5,9 "/ "/ " T7EC AE J7 AE C 55, 7,8 "/ "/ " T7ED IO 9-5 A HW T7ED AE J7 AE C, 79,7 " "/ "/ T7EE IO 9-5 B HW T7EE AE J7 AE E 95, 97, " "/ "/ T7DBB, AE J7 /" T7DCB, 9,7 " "/ " AE C T7DCC, " or /" T7DDB IO 9-5 B HW T7DDB AE J7 AE C, 9,5 " "/ "/ " or /" T7DDC AE J7 AE C,, " "/ "/ " or /" T7EDB IO 9-5 B HW T7EDB AE J7 AE E, 7, " "/ "/ " or /" T7EDC IO 9-5 B HW T7EDC AE J7 AE E, 8, " "/ "/ " or /"
14 ORDERING CODE - T7B - T7B ERIE Model No. T7B or T7B - B - R - A M -.. T7B series - A HW IO bolts 9- mounting flange T7B series - AE B bolts Mounting flange J7 Displacement B = 5,8 B9 = 8, B = 9,8 B =,8 B =,8 B = 5, B5 = 5,9 B =, B = 9,8 B = 5, B7 =,5 B5 = 5, B8 =,9 Type of shaft T7B - T7B = keyed (IO R775) Type of shaft T7B = keyed (AE B) = splined ( AE B) = splined (AE BB) Modifications Mounting w/connection variables bolts AE flange (J58C) Metric thread UNC thread T7B - T7B T7B M M P / / / eal class = - BUNA N = - EPDM 5 = 5 - VITON Design letter Porting combination = standard Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise Internal leakage q Vs [l/min] INTERNAL LEAKAGE (TYPICAL) 8 7 ct ct Lp. Noise level [db(a)] m IO P = Pressure port = uction port NOIE LEVEL (TYPICAL) T7B - B Pe =,9 bar abs érie n = RPM érie n = 5 RPM υ = ct Lw = Lp + 8 db (A) HYDROMECHANICAL POWER LO (TYPICAL) PERMIIBLE RADIAL LOAD Power loss Ps [kw],5,5 n = RPM n = RPM [ ct] n = RPM Load F [N] 8 haft Fkeyed n Fa haft keyed N, peed n [RPM] Maximum permissible axial load Fa = 8 N
15 DIMENION & OPERATING CHARACTERITIC - Weight :, kg - T7B AND T7B ERIE G 7,5 F 8,5 7, 8, 8,,5MAXI H 5,,,55 7, Mounting torque : 87 Nm T7B ERIE (FLANGE AE "B") 9,7, x 5,5 x 5,5,,9 MAXI haft code (KEYED AE "B") B -HOLE A -HOLE,7 7,,7,5,5 x 5 5,,5,5 x 5 5,8 C, KEY 8 x 7 7, D P, 99, 97 haft code AE B INVOLUTE PLINE DATA CLA - FLAT ROOT IDE FIT J98b - PITCH / TEETH - PREURE ANGLE haft code T7B T7B M M A /8 UNC x 9 deep M x 9 deep T7B T7B B / UNC x, M deep M M x, deep C A /8 UNC,x9 DEEP,5 M x9 DEE,,5 D B /UNCx.DEEP 5, 7,5 M x. DEEP5, 7,5 C ED 5. 5, 7.5 9, , 9, F E F G G H H.,., 5, AE BB INVOLUTE PLINE DATA CLA - FLAT ROOT IDE FIT J98b - PITCH / 5 TEETH - PREURE ANGLE UCTION 8, PREURE E T7B ERIE (FLANGE IO 9/ AHW ) 9,, x 5,5 x 5 5,5,995 8, MAXI haft code (KEYED IO R775) haft torque limits [ml/rev. x bar] haft Vi x p max. 5 OPERATING CHARACTERITIC TYPICAL [ ct] Pressure Volumetric Flow q Ve [l/min] & n = 5 RPM Input power P [kw] & n = 5 RPM eries port displacem. Vi p = bar p = bar p = bar p = 7 bar p = bar p = bar B 5,8 ml/rev 8,7 7,,8,5, 5, B 9,8 ml/rev,7,,8,, 8, B,8 ml/rev 9, 7,5 5,, 5,, B5 5,9 ml/rev,9,,,7,,5 B 9,8 ml/rev 9,7 8, 5,8,7 7,5, T7B B7,5 ml/rev,7, 9,9,8 8,5 8,8 T7B B8,9 ml/rev 7, 5,7,5,8 9,,7 B9 8, ml/rev,, 8,,9,, B,8 ml/rev 7,7,,8,9,7, B 5, ml/rev 5,5 5,8 8, 9 ),,8 7, ) B, ml/rev,5 59,8 5 ),,9,5 ) B 5, ml/rev 7,5 5,8, 9 ),,,5 ) B5 5, ml/rev 75, 7, 7, ), 8, 5,7 ) ) B - B B = bar max. int. ) B5 = 8 bar max. int. 5
16 ORDERING CODE - TC ERIE Model No. TC - - R - B -.. eries AE B bolts Mounting flange J7 Displacement =,8 7 = 58, 5 = 7, =,8 =, = 7, 8 =, 5 = 79, =, 8 = 88,8 = 7, =, =, Type of shaft = keyed (AE B) = keyed (non AE) = splined (AE B) = splined (AE BB) Modifications eal class = - BUNA N = - EPDM 5 = 5 - VITON Design letter Porting combination = standard Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise P = Pressure port = uction port Internal leakage q Vs [l/min] INTERNAL LEAKAGE (TYPICAL) ct ct 8 8 Do not operate pump more than 5 seconds at any speed or viscosity if internal leakage is more than 5% of theoretical flow. Lp. Noise level [db(a)] m IO NOIE LEVEL (TYPICAL) TC - Pe =,9 bar abs n = = 5 RPM n = = 5 RPM υ = ct Lw = Lp + 8 db (A) 55 8 HYDROMECHANICAL POWER LO (TYPICAL) PERMIIBLE RADIAL LOAD Power loss Ps [kw] n = RPM n = 5 RPM [ ct] n = 8 RPM Load F [N] 8 F Fa haft keyed N peed n [RPM] Maximum permissible axial load Fa = 8 N
17 DIMENION & OPERATING CHARACTERITIC - Weight : 5,7 kg - TC ERIE 7,5, 7, 7,, 8, 8, 9,7,5 MAXI 8, KEY.5. 5, 5,,,55 7,,,5 x 5 M8 DEEP,5,,9 MAXI Mounting torque : 59 Nm. /8 UNC 9 DEEP- HOLE, x 5 HAFT CODE (Keyed AE B),7,5,5 x 5 5,5,5,5 x 5 / UNC. DEEP- HOLE 5,8,,,7 58,,7 KEY.7.7,5 MAXI 7, 5, 5,, P,5 x 5,5, HAFT CODE AE B INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / TEETH - PREURE ANGLE HAFT CODE AE BB INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / 5 TEETH - PREURE ANGLE UCTION 8. PREURE 5. HAFT CODE (Keyed non AE ) haft torque limits [ml/rev. x bar] haft Vi x p max. 8 OPERATING CHARACTERITIC TYPICAL [ ct] Pressure Volumetric Flow q Ve [l/min] & n = 5 RPM Input power P [kw] & n = 5 RPM eries port displacem. Vi p = bar p = bar p = bar p = 7 bar p = bar p = bar,8 ml/rev,, 7,7, 5, 8, 5 7, ml/rev 5,8,8 7,, 7,5,, ml/rev,9,9,,5 8,9,7 8, ml/rev 9,,,,,7 7,7, ml/rev 5,,,,7,, TC 7, ml/rev 55, 5, 7,,7,,, ml/rev 9,,,5,9 7, 9,5 7 58, ml/rev 87, 8, 78,9,,9,9,8 ml/rev 95,7 9,7 87,,,8, 7, ml/rev 5,, 9,9,,, 5 ) 79, ml/rev 8,9,9,,5 9, 9,5 8 ) 88,8 ml/rev, 8, 5,8 ),8,7 8,5 ) ), ml/rev 5, 5,, ),8,5 5, ) ) 5 8 = 5 RPM max.. ) 8 = bar max. int. Port connection can be furnished with metric threads. 7
18 ORDERING CODE - T7D - T7D ERIE Model No. T7D or T7D - B - R - A M -.. T7D series - 5 A HW IO bolts 9- mounting flange T7D series - AE C bolts Mounting flange J7 Displacement B =, B = 99, B7 = 55, B5 =, B =, B8 =, B = 7, B = 7,5 B = 8, 5 = 5,7 B8 = 9, 5 = 58, Type of shaft T7D = keyed (AE C - ) = keyed (non AE) = splined ( AE C - ) = splined (non AE) Type of shaft T7D - T7D 5 = keyed (IO 9- - GM) Modifications Mounting w/connection variables bolts AE flange J58 P = / - = UNC Metric T7D M T7D M Y ) ) 5 bar max. int. eal class = - BUNA N = - EPDM 5 = 5 - VITON Design letter Porting combination = standard Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise P = Pressure port = uction port Internal leakage q Vs [l/min] INTERNAL LEAKAGE (TYPICAL) 7 ct ct Lp. Noise level [db(a)] m IO NOIE LEVEL (TYPICAL) T7D - B Pe = =,9,9 bar bar abs abs érie n = RPM RPM érie n = 5 5 RPM RPM υ = = ct ct Lw Lw = Lp Lp db db (A) (A) HYDROMECHANICAL POWER LO (TYPICAL) PERMIIBLE RADIAL LOAD Power loss Ps [kw] 5 n = RPM n = 5 RPM [ ct] n = 5 RPM Load F [N] 8 8 F Fa haft keyed N peed n [RPM] Maximum permissible axial load Fa = N 8
19 DIMENION & OPERATING CHARACTERITIC - Weight :, kg - T7D AND T7D ERIE D, C 8,9 8, 87, 8,,7,5 MA XI 9, T7D KEY , M x DEEP 5, 7, 7,, 95 E, x 5, 75, 7 5, MAXI 7, 77,7 (*) 8,, x 5 7, 8, MOUNTING TORQUE : 87 Nm KEY , M AXI A x.9 DEEP,5 B x. DEEP,9 5, 9,,5 MA XI 5,7, 87, HAFT CODE 5, (Key ed AE C) KE Y x 8 M x DEEP, x 5, 75, 7 77, 8 8, 9 58, 7 9, 5 P, 5,, 97 HAFT CODE A E C pc (* ) I N VOL U T E PLI N E D A TA CLA -FLAT ROOT IDE FIT J98 b - PI TCH / TEETH - PR EURE ANGLE 55, 8,, x 5 HAFT CODE (Keyed non AE) U CTION 5.8 * PREURE.8, x 5, 8, 5, MA XI HAFT CODE 5 (IO 9/- G M) T7D HAF T CODE AE C INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / TEETH- PREURE ANGLE OPERATING CHARACTERITIC TYPICAL [ ct] Pressure Volumetric Flow q Ve [l/min] & n = 5 RPM eries port T7D T7D haft torque limits [ml/rev. x bar] haft Vi x p max T7D T7D M Y ) M A / UNC M M M B 7/ UNC M M M C 8, 8, D 9,5 9, E 7,5 8, ) 5 bar max. int. Input power P [kw] & n = 5 RPM displacem. Vi p = bar p = bar p = 5 bar p = 7 bar p = bar p = 5 bar B, ml/rev, 59, 5,,5, 9, B7 55, ml /rev 8,5 7, 7,9,7, 5,8 B, ml/rev 99, 9, 88,5,9,,7 B 7, ml/rev 5, 99,5 9,, 5,7 5, B 8, ml/rev, 5,,, 9, 5, B8 9, ml/rev 5, 8,,,, 57,7 B 99, ml/rev 8,8, 7,5,5 5,9, B5, ml/rev 7,,9 5,9, 7,9 B8, ml/rev 8,9 7,5 7,,9, 7,8 B 7,5 ml/rev, 99, 95,9 ), 9,8 8, ) 5 ) 5,7 ml/rev 8,5 9,,, 5,8 89,5 5 ) 58, ml/rev 7, 7,7, ), 57, 85, ) ) B = bar max. int. ) 5 = bar max. int. ) 5 5 = RPM max * special / (,5) suction also available Please contact DENION Hydraulics 9
20 ORDERING CODE - T7E - T7E ERIE Model No. T7E or T7E R - A M -.. T7E series - 5 A HW IO bolts 9- mounting flange T7E series - AE C bolts Mounting flange J7 Displacement =, 5 =, 5 = 58,5 5 =,8 5 = 7, 57 = 8, = 9,7 =, 7 = 7, 85 = 8,7 Type of shaft T7E - T7E 5 = keyed (IO R775 - G8M) Type of shaft T7E = keyed (AE CC) = keyed (non AE) = splined (AE C) = splined (AE CC) Modifications Mounting w/connection variables bolts AE flange (J58) Metric thread UNC thread T7E - T7E T7E M P / eal class = - BUNA N = - EPDM 5 = 5 - VITON Design letter Porting combination = standard Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise P = pressure port = uction port Internal leakage q Vs [l/min] INTERNAL LEAKAGE (TYPICAL) ct ct Lp. Noise level [db(a)] m IO NOIE LEVEL (TYPICAL) T7E - 5 Pe =,9,9 bar bar abs abs n érie = RPM RPM n érie = 5 RPM RPM υ = = ct ct Lw = Lp Lp db db (A) (A) 8 HYDROMECHANICAL POWER LO (TYPICAL) PERMIIBLE RADIAL LOAD Power loss Ps [kw] 5 n = RPM n = 5 RPM [ ct] n = RPM Load F [N] 9 9 F Fa haft keyed N peed n [RPM] Maximum permissible axial load Fa = N
21 DIMENION - Weight :, kg - T7E - T7E ERIE K/, K 7. MOUNTING TORQUE 87 Nm 5, 9,9, 5, W,5 MAXI 5,8 KEY 9,5 9,7 T7E 98, M x DEEP d 87,5 8, 8,5, MAXI 7,, x 5 e x 5 HAFT CODE ( Keyed AE C-C ),,5, x 5,9 8, KEY /8 UNC DEEP - HOLE M x DEEP (METRIC VERION),,9 / UNC. DEEP - HOLE M x. DEEP (METRIC VERION) 7,8 5,7 7,5, W 9, 5, KEY x 8 T7E M x DEEP,75,7 5,7 MAX, 5, 9,8,9 P 8,8 8,, MAXI, x 5, x 5 HAFT CODE AE CC INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / 7 TEETH - PREURE ANGLE HAFT CODE ( Keyed no AE ) UCTION 75, * PREURE 7, e x 5 HAFT CODE 5 ( Keyed IO/R775 - G8M) 55,9 8,, x 5 haft torque limits [ml/rev. x bar] haft Vi x p max HAFT CODE AE C INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / TEETH - PREURE ANGLE Alternate mounting flange eries Dia Max. Min. e x 5 W K Dia d T7E 5,,97, 9,5 8, 8, T7E 7,,95,,7 8, 7,5 OPERATING CHARACTERITIC TYPICAL [ ct] Pressure port Volumetric Flow q Ve [l/min] & n = 5 RPM eries T7E T7E Input power P [kw] & n = 5 RPM displacem. Vi p = bar p = bar p = bar p = 7 bar p = bar p = bar, ml/rev 98,5 88,5 8, 5, 9, 8, 5, ml/rev,, 9,5 5, 5,9 88,7 5 58,5 ml/rev 7,7 7,7, 5,7 58,5 98, 5,8 ml/rev 7, 7,, 5,8,8, 5 7, ml/rev 5,5,5 9, 5,9, 5,8 57 8, ml/rev 75, 5, 5, 7,, 9,7 ml/rev 95, 85, 7, 7,9,, ml/rev 9,9 9,,8,7 77,7, 7 7, ml/rev,,,5,9 8, 9,5 85 8,7 ml/rev, 9, ) - 9, 5,8 ) - ) 85 = 9 bar max. int. * special / ( 88,9) suction also available Please contact DENION Hydraulics
22 ORDERING CODE - T7BB - T7BB ERIE Model No. T7BB or T7BB - B - B - R - A M -.. T7BB series - A HW IO bolts 9- mounting flange T7BB series - AE B bolts Mounting flange J7 Displacement and B = 5,8 B9 = 8, B = 9,8 B =,8 B =,8 B = 5, B5 = 5,9 B =, B = 9,8 B = 5, B7 =,5 B5 = 5, B8 =,9 Type of shaft T7BB - T7BB 5 = keyed (IO R775) Type of shaft T7BB = keyed (non AE) = keyed (AE BB) = splined ( AE B) = splined (AE BB) Modifications Mounting w/connection variables bolts AE flange (J58) Metric thread UNC thread T7BB - T7BB T7BB M M / / / / eal class = - BUNA N = - EPDM 5 = 5 - VITON Design letter Porting combination (see page ) = standard Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise Internal leakage q Vs [l/min] Power loss Ps [kw] INTERNAL LEAKAGE (TYPICAL) ct ct Do not operate pump more than 5 seconds at any speed or viscosity if internal leakage is higher than 5% of theoretical flow. Total leakage is the sum of each section loss at its operating conditions..5 HYDROMECHANICAL POWER LO (TYPICAL).5.5 n = RPM n = 5 RPM [ ct] n = 8 RPM Lp. Noise level [db(a)] m IO NOIE LEVEL (TYPICAL) T7BB - B - B Double pump noise level is given with each section discharging at the pressure noted on the curve. Load F [N] Pe =,9 bar bar abs abs n érie = RPM RPM n érie = 5 RPM RPM υ = ct ct Lw Lw = Lp Lp db db (A) (A) PERMIIBLE RADIAL LOAD F Fa haft keyed N Total hydromechanical power loss is the sum of each section at its operating conditions. 8 peed n [RPM] Maximum permissible axial load Fa = 8 N
23 DIMENION & OPERATING CHARACTERITIC - Weight :, kg - T7BB AND T7BB ERIE,7,5,5 x 5 7, 8, KEY.5. M8 x DEEP 8, 7,7 98,, 58,, 7, 8,, MAXI,7 T7BB (FLANGE AE "B ") KEY.7.7 7, 5,,,55,5 x 5 5, 5,7 8, MAXI,5 x 5,5,,5 MAXI HAFT CODE AE B INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / TEETH - PREURE ANGLE G HAFT CODE (Keyed AE "B-B") MOUNTING TORQUE Nm MOUNTING TORQUE 87Nm B -HOLE A -HOLE, 5,8 5, A -HOLE C 9,7, x 5,7 7,,, HAFT CODE (KEYED NON AE) T7BB (FLANGE IO 9/ AHW) KEY 8 x 7 M M M 7,5 F 7, 88,9 D, 99,97 F/,5,5 x 5 5,5,995 8, MAXI PREURE 9, x 5 HAFT CODE 5 (KEYED IO R775) UCTION.5 PREURE E 9, 5,,5,5 x 5 haft torque limits [ml/rev. x bar] haft Vi x p max HAFT CODE AE B-B INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / 5 TEETH - PREURE ANGLE T7BB T7BB M M A /8" UNC - 9 deep M x 9 deep B /" UNC -, deep M x, deep C,,5,,5 D 5, 7,5 5, 7,5 E 5, 9, 5, 9, F G 7 7 H,, OPERATING CHARACTERITIC TYPICAL [ ct] Pressure Volumetric Flow q Ve [l/min] & n = 5 RPM Input power P [kw] & n = 5 RPM eries port displacem. Vi p = bar p = bar p = bar p = 7 bar p = bar p = bar B 5,8 ml/rev 8,7 7,,8,5, 5, B 9,8 ml/rev,7,,8,, 8, B,8 ml/rev 9, 7,5 5,, 5,, B5 5,9 ml/rev,9,,,7,,5 & B B8 B 9,8 ml/rev,9 ml/rev,8 ml/rev 9,7 7, 7,7 8, 5,7, 5,8,5,8,7,8,9 7,5 9,,7,,7, B7 B9 B,5 ml/rev 8, ml/rev 5, ml/rev,7, 5,5,,9 5,8 9,9 8, 8,9 ),8,9, 8,5,,8 8,8, 7, ) B, ml/rev,5 59,8 5 ),,9,5 ) B 5, ml/rev 7,5 5,8,9 ),,,5 ) B5 5, ml/rev 75, 7, 7, ), 8, 5,7 ) ) B - B - B = bar max. int. ) B5 = 8 bar max. int.
24 ORDERING CODE - TCC ERIE Model No. TCC W R - C -.. eries AE B bolts Mounting flange J7 evere duty shaft Displacement and =,8 7 = 58, 5 = 7, =,8 =, = 7, 8 =, 5 = 79, =, 8 = 88,8 = 7, =, =, Type of shaft evere duty shaft (TCCW only) = keyed (non AE) = keyed (AE BB) = splined (AE BB) 5 = splined (AE B) Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise Modifications Mounting w/connection variables bolts AE flange (J58) = - = = - / ) / ) / ) for ml/rev. max. ) for ml/rev. max. The largest cartridge must be always mounted in the front. eal class = - BUNA N = - EPDM 5 = 5 - VITON Design letter Porting combination (see page ) = standard Internal leakage q Vs [l/min] INTERNAL LEAKAGE (TYPICAL) ct ct Lp. Noise level [db(a)] m IO NOIE LEVEL (TYPICAL) TCC - - Pe =,9,9 bar bar abs abs n érie = RPM RPM n érie = 5 RPM RPM υ = ct ct Lw = Lp + 88 db db (A) (A) 55 8 Power loss Ps [kw] Do not operate pump more than 5 seconds at any speed or viscosity if internal leakage is higher than 5% of theoretical flow. Total leakage is the sum of each section loss at its operating conditions. HYDROMECHANICAL POWER LO (TYPICAL) n = RPM n = 5 RPM [ ct] n = 8 RPM Double pump noise level is given with each section discharging at the pressure noted on the curve. Load F [N] 8 PERMIIBLE RADIAL LOAD F Fa haft keyed N 8 8 Total hydromechanical power loss is the sum of each section at its operating conditions. 8 peed n [RPM] Maximum permissible axial load Fa = 8 N
25 DIMENION & OPERATING CHARACTERITIC - Weight :, kg - TCC ERIE 7, 7,5, 5, 7, 88,, 8, 9,7 8,, MAXI KEY.5. 7, 8, D M8 x DEEP, 7,,5 x 5 5, 5,7 8, MAXI 5,,,55 MOUNTING TORQUE 59 Nm MOUNTING TORQUE Nm, x 5 TCCW HAFT CODE ( Keyed AE B-B ) 5,5,7,5 E- HOLE K- HOLE E- HOLE B G, 58,,7,5,5 x 5,5 x 5, KEY.7.7 HAFT CODE AE BB INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / 5 TEETH - PREURE ANGLE A HAFT CODE 5 AE B INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / TEETH - PREURE ANGLE UCTION C F UCTION H 5,, PREURE 5.,5 x 5 HAFT CODE ( Keyed o non AE ),5,,5 MAXI Alternate ports = " = "/ ) F, 88,9 G,9 5,9 H 7,,5 Code ) M W ) ) M W ) A 5, 7,7 5, 7,7 5, 7,7 5, 7,7 B,,,,,,,, C 5, 9, 5, 9, 5, 9, 5, 9, D 7,7 7, 7,7 7, 7,7 7, 7,7 7, E /8" - UNC x 9 deep M x 9 deep /8" - UNC - 9 deep M x 9 deep K 5/8" - UNC x 8, deep M x 8, deep 5/8" - UNC x 8, deep M x 8, deep ) Max. cam ) + = ml/rev max. haft torque limits [ml/rev. x bar] haft Vi x p max. 7 5 OPERATING CHARACTERITIC TYPICAL [ ct] Pressure Volumetric Flow q Ve [l/min] & n = 5 RPM Input power P [kw] & n = 5 RPM eries port displacem. Vi p = bar p = bar p = bar p = 7 bar p = bar p = bar,8 ml/rev,, 7,7, 5, 8, 5 7, ml/rev 5,8,8 7,, 7,5,, ml/rev,9,9,,5 8,9,7 8, ml/rev 9,,,,,7 7,7, ml/rev 5,,,,7,, & 7 7, ml/rev 58, ml/rev 55, 87, 5, 8, 7, 78,9,7,,,9,,9, ml/rev,8 ml/rev 9, 95,7, 9,7,5 87,,9, 7,,8 9,5, 7, ml/rev 5,, 9,9,,, 5 ) 79, ml/rev 8,9,9,,5 9, 9,5 8 ) 88,8 ml/rev, 8, 5,8 ),8,7 8,5 ) ), ml/rev 5, 5,, ),8,5 5, ) ) 5 8 = 5 RPM max.. ) 8 = bar max. int. 5
26 ORDERING CODE - T7CB ERIE Model No. T7CB W - - B - R - A - M -.. eries - AE B bolts Mounting flange J7 evere duty shaft Displacement for =,8 7 = 58, 5 = 7, =,8 =, = 7, 8 =, 5 = 79, =, 8 = 88,8 = 7, =, =, Displacement for B = 5,8 B9 = 8, B = 9,8 B =,8 B =,8 B = 5, B5 = 5,9 B =, B = 9,8 B = 5, B7 =,5 B5 = 5, B8 =,9 Type of shaft evere duty shaft (T7CBW only) = keyed (non AE) = keyed (AE BB) = splined (AE BB) 5 = splined (AE B) Modifications Mounting w/connection variables = bolts AE flange (J58) UNC thread M = bolts AE flange (J58) Metric thread eal class = - BUNA N = - EPDM 5 = 5 - VITON Design letter Porting combination (see page ) = standard Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise Internal leakage q Vs [l/min] 8 8 INTERNAL LEAKAGE (TYPICAL) ct ct Do not operate pump more than 5 seconds at any speed or viscosity if internal leakage is higher than 5% of theoretical flow. Total leakage is the sum of each section loss at its operating conditions. Power loss Ps [kw] HYDROMECHANICAL POWER LO (TYPICAL) 5 n = RPM n = 5 RPM [ ct] n = 8 RPM n = RPM n = 5 RPM [ ct].5 n = 8 RPM Total hydromechanical power loss is the sum of each section at its operating conditions. Lp. Noise level [db(a)] m IO NOIE LEVEL (TYPICAL) T7CB - - B Pe =,9 bar bar abs abs n érie = RPM RPM n érie = 5 RPM RPM υ = ct ct Lw = Lp Lp + 88 db db (A) (A) 55 8 Double pump noise level is given with each section discharging at the pressure noted on the curve. Load F [N] 8 PERMIIBLE RADIAL LOAD F Fa haft keyed N 8 peed n [RPM] Maximum permissible axial load Fa = 8 N
27 - DIMENION - Weight :, kg - T7CB ERIE 7, 7,5, 5, 7, 88,, 8, 9,7, MAXI 8, KEY,5, 7, 8, 7, M8 x DEEP, 7, 5,,,55,5 x 5 5, 5,7 8, MAXI MOUNTING TORQUE 59 Nm 5,5,5,5 x 5,7 MOUNTING TORQUE Nm / UNC.9 DEEP - HOLE (M. DEEP - METRIC VERION) /8 UNC 9 DEEP - HOLE (M 9 DEEP - METRIC VERION),5,5 x 5, /8 UNC 9 DEEP - HOLE (M DEEP - METRIC VERION) 5,8,,,5 x 5,7 58, T7CBW HAFT CODE (Keyed AE B-B),7 KEY,7,7 7,7 88, 9 5,,,5 x 5,5,,5 MAX HAFT CODE AE BB INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / 5 TEETH - PREURE ANGLE HAFT CODE 5 AE B INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / TEETH - PREURE ANGLE PREURE 9 UCTION.5 PREURE 5. HAFT CODE (Keyed no AE) haft torque limits [ml/rev. x bar] haft Vi x p max. 7 5 OPERATING CHARACTERITIC TYPICAL [ ct] Pressure Volumetric Flow q Ve [l/min] & n = 5 RPM Input power P [kw] & n = 5 RPM eries port displacem. Vi p = bar p = bar p = 75 bar p = 7 bar p = bar p = 75 bar,8 ml/rev,, -, 5, - 5 7, ml/rev 5,8,8,, 7,5,9, ml/rev,9,9,,5 8,9,8 8, ml/rev 9,, 9,9,,7,, ml/rev 5,,,,7, 5, 7, ml/rev 55, 5, 5,9,7, 7,, ml/rev 9,, 59,,9 7,,7 7 58, ml/rev 87, 8, 77,7,,9,,8 ml/rev 95,7 9,7 8,,,8, 7, ml/rev 5,, 95,7,, 5, 5 ) 79, ml/rev 8,9,9 9,,5 9, 5, 8 ) 88,8 ml/rev, 8, 5,8 ),8,7 8,5 ) ), ml/rev 5, 5,, ),8,5 5, ) p = bar p = bar p = bar p = 7 bar p = bar p = bar B 5,8 ml/rev 8,7 7, 5,,5, 5, B 9,8 ml/rev,7,,,, 8, B,8 ml/rev 9, 7,5 5,, 5,, B5 5,9 ml/rev,9,,,7,,7 B 9,8 ml/rev 9,7 8,,,7 7,5 5, B7,5 ml/rev,7,,,8 8,5 7, B8,9 ml/rev 7, 5,7,7,8 9, 9,5 B9 8, ml/rev,, 8,,9,,8 B,8 ml/rev 7,7,,,9,7, B 5, ml/rev 5,5 5,8 8,9,,8 7, B, ml/rev,5 59,8 5,,9,5 B 5, ml/rev 7,5 5,8,9,,,5 B5 5, ml/rev 75, 7, 7, ), 8, 5,7 ) - We do not recommand to use this at 75 bar & 5 RPM as the internal is over 5% of theoretical flow. ) = 5 RPM max. ) 8 - = bar max. int. ) B5 = 8 bar max. int. 7
28 ORDERING CODE - T7DB - T7DB ERIE Model No. T7DB or T7DB - B - B - R - A M -.. T7DB series - 5 A HW IO bolts 9- mounting flange T7DB series - AE C bolts Mounting flange J7 Displacement for Volumetric displacement (ml/rev.) B =, B = 99, B7 = 55, B5 =, B =, B8 =, B = 7, B = 7,5 B = 8, 5 = 5,7 B8 = 9, 5 = 58, Displacement for Volumetric displacement (ml/rev.) B = 5,8 B9 = 8, B = 9,8 B =,8 B =,8 B = 5, B5 = 5,9 B =, B = 9,8 B = 5, B7 =,5 B5 = 5, B8 =,9 Type of shaft T7DB = keyed (AE C) = splined (AE C) = keyed (non AE) = splined (spec. AE C) Type of shaft T7DB - T7DB 5 = keyed (IO 9- - GM) Internal leakage q Vs [l/min] 8 8 INTERNAL LEAKAGE (TYPICAL) ct ct Do not operate pump more than 5 seconds at any speed or viscosity if internal leakage is higher than 5% of theoretical flow. Total leakage is the sum of each section loss at its operating conditions. HYDROMECHANICAL POWER LO (TYPICAL) Power loss Ps [kw] 5 n = RPM n = 5 RPM [ ct] n = 5 RPM 8.5 n = RPM n = 5 RPM [ ct].5 n = 5 RPM Total hydromechanical power loss is the sum of each section at its operating conditions. Lp. Noise level [db(a)] m IO Modifications Mounting w/connection variables bolts AE flanges J58 Metric thread UNC thread T7DB - T7DB T7DB M M / / / / / / eal class = (for mineral oil) = (for the resistant fluid) 5 = 5 (for mineral oil and fire resistant fluids) Design letter Porting combination (see page ) = standard Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise NOIE LEVEL (TYPICAL) T7DB - B - B Pe = =,9,9 bar bar abs abs n érie = RPM RPM n érie = 5 RPM RPM υ = = ct ct Lw = Lp Lp db db (A) (A) 55 8 Double pump noise level is given with each section discharging at the pressure noted on the curve. Load F [N] 8 8 PERMIIBLE RADIAL LOAD F Fa haft keyed N peed n [RPM] Maximum permissible axial load Fa = N 8
29 DIMENION & OPERATING CHARACTERITIC - Weight : 8, kg - T7DB - T7DB ERIE K/, K 8, 9,5, 8,,5 MAXI 8, W 9, KEY 7,89 DIA d 8, 7,5 88,9 7,7, x 5 M x DEEP,75,7 O 5,7 MAXI, O DIA 8 5, MOUNTING TORQUE 87 Nm 55, KEY x 8 8,, x 5 * 77,7 MOUNTING TORQUE 8Nm 5/8 UNC 8.5 DEEP - HOLE M x 8. DEEP - METRIC VERION /8 UNC 9 DEEP - HOLE M x 9. DEEP - METRIC VERION 8,, x 5 A, 7/ UNC. DEEP - HOLE M x. DEEP - METRIC VERION, 5,7 e x 5 HAFT CODE ( Keyed AE C ) 7, 8, KEY 7,89 B, 58,7, x 5v M x DEEP HAFT CODE 5 ( Keyed IO/R775 - GM ),8 O, 5, MAXI HAFT CODE HAFT CODE PREURE C AE C INVOLUTE PLINE DATA AE C * pc INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT CLA -FLAT ROOT IDE FIT UCTION 7 J98b - PITCH / J98b - PITCH / TEETH - PREURE ANGLE TEETH - PREURE ANGLE PREURE,8, x 5,75,7 O 5,7 MAXI HAFT CODE ( Keyed non AE ) Alternate mounting flange eries Dia Max. Min. e x 5 W K Dia d T7DB 5,,97, 9,5 8, 8, T7DB 7,,95,,7 8, 7,5 Alternate connect. variables & M & M A,, B 5,5 7, C 5, 9, haft torque limits [ml/rev. x bar] haft Vi x p max OPERATING CHARACTERITIC TYPICAL [ ct] Pressure Volumetric Flow q Ve [l/min] & n = 5 RPM Input power P [kw] & n = 5 RPM eries port displacem. Vi p = bar p = bar p = 5 bar p = 7 bar p = bar p = 5 bar B, ml/rev, 59, 5,,5, 9, B7 55, ml /rev 8,5 7, 7,9,7, 5,8 B, ml/rev 99, 9, 88,5,9,,7 B 7, ml/rev 5, 99,5 9,, 5,7 5, B 8, ml/rev, 5,,, 9, 5, B8 9, ml/rev 5, 8,,,, 57,7 B 99, ml/rev 8,8, 7,5,5 5,9, B5, ml/rev 7,,9 5,9, 7,9 B8, ml/rev 8,9 7,5 7,,9, 7,8 B 7,5 ml/rev, 99, 95,9 ), 9,8 8, ) 5 ) 5,7 ml/rev 8,5 9,,, 5,8 89,5 5 ) 58, ml/rev 7, 7,7, ), 57, 85, ) p = bar p = bar p = bar p = 7 bar p = bar p = bar B 5,8 ml/rev 8,7 7, 5,,5, 5, B 9,8 ml/rev,7,,,, 8, B,8 ml/rev 9, 7,5 5,, 5,, B5 5,9 ml/rev,9,,,7,,7 B 9,8 ml/rev 9,7 8,,,7 7,5 5, B7,5 ml/rev,7,,,8 8,5 7, B8,9 ml/rev 7, 5,7,7,8 9, 9,5 B9 8, ml/rev,, 8,,9,,8 B,8 ml/rev 7,7,,,9,7, B 5, ml/rev 5,5 5,8 8,9,,8 7, B, ml/rev,5 59,8 5,,9,5 B 5, ml/rev 7,5 5,8,9,,,5 B5 5, ml/rev 75, 7, 7, ), 8, 5,7 ) ) B = bar max. int. ) 5 = bar max. int. ) 5 5 = RPM max ) B5 = 8 bar max.int. 9
30 ORDERING CODE - T7DC ERIE Model No. T7DC W - B - - R - A - M -.. eries - AE C bolts Mounting Flange J7 evere duty shaft Displacement for B =, B = 99, B7 = 55, B5 =, B =, B8 =, B = 7, B = 7,5 B = 8, 5 = 5,7 B8 = 9, 5 = 58, Displacement for =,8 7 = 58, 5 = 7, =,8 =, = 7, 8 =, 5 = 79, =, 8 = 88,8 = 7, =, =, Type of shaft = keyed (AE C) = splined (AE C) = keyed (non AE) = splined (spec. AE C) Type of shaft - evere duty (T7DCW only) 5 = keyed (non AE) Internal leakage q Vs [l/min] 8 8 INTERNAL LEAKAGE (TYPICAL) ct ct 8 8 Do not operate pump more than 5 seconds at any speed or viscosity if internal leakage is higher than 5% of theoretical flow. Total leakage is the sum of each section loss at its operating conditions. HYDROMECHANICAL POWER LO (TYPICAL) Lp. Noise level [db(a)] m IO Modifications Mounting w/connection variables bolts AE flange J58 Metric thread UNC thread M M / / / / / / eal class = - BUNA N = - EPDM 5 = 5 - VITON Design letter Porting combination (see page ) = standard Direction of rotation (view on shaft end) R = Clockwise L = Counter-clockwise NOIE LEVEL (TYPICAL) T7DC - B - Pe = =,9,9 bar bar abs abs érie n = = RPM RPM érie n = = 5 5 RPM RPM υ = = ct ct Lw Lw = Lp Lp db 8 db (A) (A) 8 Double pump noise level is given with each section discharging at the pressure noted on the curve. PERMIIBLE RADIAL LOAD Power loss Ps [kw] 5 n = RPM n = 5 RPM [ ct] n = 5 RPM 8 n = RPM n = 5 RPM [ ct] n = 5 RPM Load F [N] 8 8 F Fa haft keyed N 8 8 Total hydromechanical power loss is the sum of each section at its operating conditions peed n [RPM] Maximum permissible axial load Fa = N
31 DIMENION - Weight : 8, kg - T7DC ERIE 9,5, 8, 8, 8, 9,5, 8,,,5 MAXI 9, KEY ,5 55, 8, MOUNTING TORQUE 87 Nm, x 5 8, /8 UNC 9 DEEP- HOLE (M x 9 DEEP - METRIC VERION ) * 77,7 8, 7,5 88,9 7,7 MOUNTING TORQUE 8 Nm 7/ UNC. DEEP- HOLE 5/8 UNC 8.5 DEEP- HOLE ( M x. DEEP - METRIC VERION ) ( M x 8. DEEP - METRIC VERION ), x 5,,,9,95 5,7, 5,, x 5,75,7 5,7 MAXI,, x 5 HAFT CODE ( Keyed AE C ) 7, 8, M x DEEP KEY ,,95 5,5, 5, 58,7 9,5 -, x 5,75,7 5,7 MAXI HAFT CODE AE C INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - PITCH / TEETH - PREURE ANGLE HAFT CODE AE*C pc INVOLUTE PLINE DATA CLA -FLAT ROOT IDE FIT J98b - / dp TEETH - PREURE ANGLE UCTION 7 PREURE 5 PREURE.8 HAFT CODE ( Keyed no AE ) 8,,, x 5 KEY 7,89 M8 DEEP,9,875 HAFT CODE 5 ( Keyed no AE ) 8, MAXI T7DCW haft torque limits [ml/rev. x bar] haft Vi x p max OPERATING CHARACTERITIC TYPICAL [ ct] Pressure Volumetric Flow q Ve [l/min] & n = 5 RPM Input power P [kw] & n = 5 RPM eries port displacem. Vi p = bar p = bar p = 5 bar p = 7 bar p = bar p = 5 bar B, ml/rev, 59, 5,,5, 9, B7 55, ml /rev 8,5 7, 7,9,7, 5,8 B, ml/rev 99, 9, 88,5,9,,7 B 7, ml/rev 5, 99,5 9,, 5,7 5, B 8, ml/rev, 5,,, 9, 5, B8 9, ml/rev 5, 8,,,, 57,7 B 99, ml/rev 8,8, 7,5,5 5,9, B5, ml/rev 7,,9 5,9, 7,9 B8, ml/rev 8,9 7,5 7,,9, 7,8 B 7,5 ml/rev, 99, 95,9 ), 9,8 8, ) 5 ) 5,7 ml/rev 8,5 9,,, 5,8 89,5 5 ) 58, ml/rev 7, 7,7, ), 57, 85, ) p = bar p = bar p = 75 bar p = 7 bar p = bar p = 75 bar,8 ml/rev,, -, 5, - 5 7, ml/rev 5,8,8,, 7,5,9, ml/rev,9,9,,5 8,9,8 8, ml/rev 9,, 9,9,,7,, ml/rev 5,,,,7, 5, 7, ml/rev 55, 5, 5,9,7, 7,, ml/rev 9,, 59,,9 7,,7 7 58, ml/rev 87, 8, 77,7,,9,,8 ml/rev 95,7 9,7 8,,,8, 7, ml/rev 5,, 95,7,, 5, 5 ) 79, ml/rev 8,9,9 9,,5 9, 5, 8 ) 88,8 ml/rev, 8, 5,8 ),8,7 8,5 ) ), ml/rev 5, 5,, ),8,5 5, ) - We do not recommand to use this at 75 bar & 5 RPM as the internal leakage is over 5% of theoretical flow. ) B = bar max. int. ) 5 8 = bar max. int. ) 5 5 = RPM max ) 5 8 = 5 RPM max.
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