D VANE PUMPS D VANE PUMPS Operating pressure MPa {kgf/cm } Maximum Rated Discharge rate* L/min Permissible min Page DS DSP 7 {7} 7 {7} to D- MD Motor pumps incorporating a DSP D-4 DP DP DP DP 7. {7} 4 {4} D-6 DVS 9 {9} to ( to V) to (6 V) DV 7 {7} to ( to 4 V) D- DVM 8. {8} to ( V) DVL 7 {7} to Note: * The discharge rates indicated are the values at the rated pressure. The discharge rates indicated are the values at a of for the DP/DS series and of for the DV series. DE DEV DE DE DEV DEV DEV Operating pressure MPa {kgf/cm } Maximum Minimum 4. {4} to 7.6 {76}. {} to 7.6 {76} 4 {4} to {} 7. {7}.7 {7} Discharge rate* L/min.8 L/min@7.6 MPa (DE-) 7.8 L/min@4. MPa (DE-7). L/min@7.6 MPa (DE-6) 7 L/min@. MPa (DE-) 8.6 L/min@4 MPa (DEV-) 77 L/min@4 MPa (DEV-4) L/min (DEV-) 9 L/min (DEV-) 7 L/min (DEV-) 96 L/min (DEV-8) Permissible min to Page D-6 D- DEV4 8 L/min (DEV4-4) 8 L/min (DEV4-6) Note: * The discharge rates indicated are the values at the maximum pressure and at an input of. D-
Compact Single Stage Vane Pump Nomenclature Features - DS P - - 4 Applicable fluid code No designation: Petroleum-based hydraulic uid, water-glycol hydraulic uid Water/oil emulsion type hydraulic uid F: Phosphate ester hydraulic uid DS_P: Compact single stage vane pump Pump capacity code : DS type : DS type : DS type 4: DS4 type Specifications Low noise Large suction port reduces the suction resistance and realizes low-noise operation. High efficiency The cushion plate system keeps the side clearances constant at all times and maintains stable high efficiency without burn or wear even in the high speed range. Low pulsation The cam ring minimizes the fluctuation of the discharge rate and achieves quiet operation sound and stable performance with little pulsation. Design No. (The design No. is subject to change) Direction of rotation, when viewed from the shaft end No designation: Clockwise (rightward) L: Counterclockwise (leftward) * The direction of rotation (rightward or leftward) cannot be changed. [Conditions] Input :, Fluid used: equivalent to ISO VG, Fluid temperature: 4 C Discharge rate L/min Shaft input kw.4 MPa MPa MPa 7 MPa.4 MPa MPa MPa MPa 7 MPa {4 kgf/cm } { kgf/cm } { kgf/cm } {7 kgf/cm } {4 kgf/cm } { kgf/cm } { kgf/cm } { kgf/cm } {7 kgf/cm } DS P. 4. 4..9..8..8. DS P 7.7 7. 6.7 6...4.7.. DS P.6.8....... DS 4P......77.6..4 Refer to Page D- for the conditions of use for models compatible with flame-resistant hydraulic oil and to Page D-4 to for other notes on handling. 4 Mass (kg) Pump model Flange mount type Foot support mount type DS P 4.4 Foot support model codes Foot supports are not provided with the pump. Order them separately as required by specifying the model code given in the table below. Pump model Foot support model codes DS P DS M Refer to Page S- for the dimensions of the foot supports. D-
Motor Pumps Features These are motor pumps that integrate a DSP type vane pump and an electric motor in one body. Adoption of a direct coupling system enables one-touch assembly without couplings, protective covers, a pump base, or even centering work. Nomenclature - MD - 4 Applicable fluid code No designation: Petroleum-based hydraulic uid, water-glycol hydraulic uid Water/oil emulsion type hydraulic uid F: Phosphate ester hydraulic uid MD: Compact single stage vane pump Pump capacity code : DSP : DSP : DSP 4: DS4P 4 Motor output :.7 kw-4p :. kw-4p :. kw-4p Design No. (The design No. is subject to change) Specifications Pump Motor Discharge rate Maximum operating Output (at no load) pressure (number of Pump model L/min MPa {kgf/cm } poles) Rated current A Hz 6 Hz Hz 6 Hz kw (4P) V ( Hz) V (6 Hz) V (6 Hz) MD DSP 4... {} 4.4 {44}.7.7.4. MD.6 {6}. {} DSP 6.4 7.7 MD 7. {7} 7. {7}. 6.8 6. 6. MD.6 {6} 4.7 {47} DSP..6 MD 7. {7} 7. {7}. 9.6 9. 8.4 MD4 DS4P 8.4.. {} 4. {4} Mass (kg) MD MD MD MD MD MD4 Mass kg 9 4 4 D-4
Compact Medium-pressure Vane Pump Features The straight vane type structure realizes compact and lightweight design which brings greater cost effectiveness. These vane pumps with a maximum pressure of 7. MPa are suited to various applications in industrial machinery. Nomenclature - DE - - - - 4 6 7 Applicable fluid code No designation: Wear-resistant hydraulic uid Water-glycol hydraulic uid F: Phosphate ester hydraulic uid DE: Compact medium-pressure vane pump Pump capacity code : DE (. to.8 cm /rev) : DE ( 9. to 4.4 cm /rev) 4 Pump capacity (cm /rev) DE DE :. 6: 9. : 6.6 7:.8 : 9.8 8: 6. 4:. 9: 9.7 : 6.4 : 6.4 6: 9. : 9 7:.8 : 4.4 6 7 Direction of rotation, when viewed from the shaft end R: Clockwise (rightward) L: Counterclockwise (leftward) Installation types No designation: Without foot support B: Foot support mount Design No. (The design No. is subject to change) Specifications and masses Displacement volume cm /rev DE-. Maximum pressure* MPa DE- 6.6 DE- 9.8 7. DE-4. DE- 6.4 DE-6 9.. DE-7.8.8 DE-6 9. DE-7.8 DE-8 6. DE-9 9.7 DE- 6.4 DE- 9 DE- 4.4 * Values with wear-resistant hydraulic uid 7.. Minimum pressure MPa Minimum min Maximum * min.7 Without foot support Mass kg With foot support 7 8 Foot supports are not provided with the pump. Order them separately as required by referring to Page S-. Refer to Pages D- and for the conditions of use for models compatible with flame-resistant hydraulic oil and for other notes on handling. Refer to Page S- for the machining dimensions of coupling holes. D-6
Sectional structural diagram DE, 4 DE Seal/bearing table Part No. Name Speci cations Material Quantity Bearing 6 - Oil seal Special part NBR O-ring AS68 4 NBR 4 O-ring AS68 44 NBR DE Seal/bearing table Part No. Name Speci cations Material Quantity Bearing 64 - Oil seal Special part NBR O-ring AS68 6 NBR 4 O-ring Special part NBR D-8
General performance Fluid used: viscosity of mm /s, Fluid temperature: 49 C DE- DE-. DE- 4 4.... D VANE PUMPS DE- DE- 4. DE- 4 4 4........ 4 DE- 4 DE- 6 4 DE- 4 DE-4 4 DE-4 9 8 7 6 4 DE-4 D-9
General performance Fluid used: viscosity of mm /s, Fluid temperature: 49 C 4 DE- 4 DE- 9 8 7 6 4 DE- 4 DE-6 4 DE-6 DE-6 4 DE-7 4 DE-7 DE-7 D-
General performance Fluid used: viscosity of mm /s, Fluid temperature: 49 C 4 DE-6 4 DE-6 DE-6 D VANE PUMPS 4 DE-7 4 DE-7 DE-7 4 DE-8 4 DE-8 DE-8 4 DE-9 4 DE-9 DE-9 D-
General performance Fluid used: viscosity of mm /s, Fluid temperature: 49 C 4 DE- 4 DE- DE- 4 DE- 4 DE- DE- 4 DE- 4 DE- DE- D-
Medium-pressure Cartridge Type Vane Pump Features Nomenclature The intra-vane type structure realizes a low noise level at high pressure. The cartridge type design offers reliable operation over a prolonged period. These vane pumps with a maximum pressure of.6 MPa are suited to various applications in industrial machinery. D VANE PUMPS - DEV - - - - 4 6 7 Applicable fluid code No designation: Wear-resistant hydraulic uid Water-glycol hydraulic uid F: Phosphate ester hydraulic uid DEV: Medium-pressure cartridge type vane pump Pump capacity code : DEV ( 7 to 4 cm /rev) : DEV ( to 67 cm /rev) : DEV ( 8 to cm /rev) 4: DEV4 ( 8 to 9 cm /rev) Specifications and masses 4 Pump capacity (cm /rev) 6 DEV DEV DEV DEV4 : 7 : : 8 4: 8 : 8 : 4 : 97 4: 47 8: 7 4: 4 : : 6 9: 7: 8: 6: 9 7 : 6 : 67 : 9 4: 4 Direction of rotation, when viewed from the shaft end R: Clockwise (rightward) L: Counterclockwise (leftward) Installation types No designation: Without foot support B: Foot support mount Design No. (The design No. is subject to change) Displacement volume cm /rev * Values with wear-resistant hydraulic uid Maximum pressure* MPa DEV- 7.8 DEV- 8 DEV-8 7 DEV-9.6 DEV- 6 DEV- 9.7 DEV-4 4.8 DEV- DEV- 4 DEV-4 4 DEV-7 DEV- 67 DEV- 8 DEV- 97 DEV- DEV-8 DEV4-4 8 DEV4-4 47 DEV4-6 DEV4-6 9 7. Minimum pressure MPa Minimum min Foot supports are not provided with the pump. Order them separately as required by referring to Page S-. Refer to Pages D- and for the conditions of use for models compatible with flame-resistant hydraulic oil and for other notes on handling. Refer to Page S- for the machining dimensions of coupling holes. D- Maximum * min.7 Without foot support Mass kg With foot support. 4.7 4.8 7..7 8.6 4. 9.9
Sectional structural diagram DEV,,, 4 D 4 VANE PUMPS 6 DEV Seal/bearing table Part No. Name Speci cations Material Quantity Bearing 64 Oil seal Special part NBR O-ring AS68-6 (HS7 ) 4 Sealing ring Special part O-ring AS68- (HS7 ) NBR 6 Backup ring MS8774- PTFE DEV Seal/bearing table Part No. Name Speci cations Material Quantity Bearing 6 Oil seal Special part NBR O-ring AS68-4 (HS7 ) NBR 4 Sealing ring Special part O-ring AS68-4 (HS7 ) NBR 6 Backup ring MS8774-4 PTFE DEV Seal/bearing table Part No. Name Speci cations Material Quantity Bearing 66 Oil seal Special part NBR O-ring AS68-47 (HS7 ) NBR 4 Sealing ring Special part O-ring AS68- (HS7 ) NBR 6 Backup ring MS8744-46 PTFE DEV4 Seal/bearing table Part No. Name Speci cations Material Quantity Bearing 67 Oil seal Special part NBR O-ring AS68- (HS7 ) NBR 4 Sealing ring Special part O-ring AS68- (HS7 ) NBR 6 Backup ring MS8744- PTFE D-
General performance Fluid used: viscosity of 6 mm /s, Fluid temperature: C DEV- DEV-. DEV- 4 min 4 4. 4......... DEV- DEV- DEV- 4 4 DEV-8 DEV-8 DEV-8 4 4 DEV-9 DEV-9 DEV-9 4 4 D-6
General performance Fluid used: viscosity of 6 mm /s, Fluid temperature: C DEV- DEV- DEV- 4 4 D VANE PUMPS DEV- DEV- DEV- 4 4 DEV-4 DEV-4 DEV-4 4 4 DEV- DEV- DEV- 4 4 D-7
General performance Fluid used: viscosity of 6 mm /s, Fluid temperature: C DEV- DEV- DEV- 4 4 DEV-4 DEV-4 DEV-4 4 4 DEV-7 DEV-7 DEV-7 4 4 DEV- DEV- 4 DEV- 4 4 D-8
General performance Fluid used: viscosity of 6 mm /s, Fluid temperature: C DEV- DEV- DEV- 4 4 4 D VANE PUMPS DEV- DEV- 6 DEV- 4 4 4 DEV- DEV- 7 DEV- 4 4 6 4 DEV-8 DEV-8 7 DEV-8 4 4 6 4 D-9
General performance Fluid used: viscosity of 6 mm /s, Fluid temperature: C DEV4-4 DEV4-4 9 DEV4-4 4 4 8 7 6 4 DEV4-4 DEV4-4 9 DEV4-4 4 4 8 7 6 4 DEV4- DEV4-9 DEV4-4 4 8 7 6 4 DEV4-6 4 DEV4-6 4 9 8 7 6 4 DEV4-6 D-
Conditions of use for models compatible with flame-resistant hydraulic oil (DE, DEV) Hydraulic oil Wear-resistant hydraulic uid 7..7 DE- to DE-6, 7 DE-6 to 9 DE- to Operating pressure MPa Permissible Operating pressure MPa Permissible Operating pressure MPa Permissible Operating pressure MPa Permissible Maximum Minimum min Maximum Minimum min Maximum Minimum min Maximum Minimum min.8 to..7 7..7. to 7..7 Water-glycol hydraulic uid..7..7..7.7.7 to to to Water/oil emulsion type hydraulic uid..7.7.7.7.7 9..7 to Phosphate ester hydraulic uid..7..7..7. to..7 to D VANE PUMPS Hydraulic oil DEV DEV DEV DEV4 Operating pressure MPa Permissible Operating pressure MPa Permissible Operating pressure MPa Permissible Operating pressure MPa Maximum Minimum min Maximum Minimum min Maximum Minimum min Maximum Minimum Permissible min Wear-resistant hydraulic uid.7 to.6.7 to 7..7 to 7..7 to 7..7 to Water-glycol hydraulic uid.7 to.9.7 to.7.7 to.7.7 to.7.7 to Water/oil emulsion type hydraulic uid 6.9.7 to 6.9.7 to 6.9.7 to 6.9.7 to Phosphate ester hydraulic uid.7 to.6.7 to 7..7 to 7..7 to 7..7 to Handling (DE, DEV) Hydraulic oil A viscosity grade of ISO VG or ISO VG46 is recommended. Avoid using MIL-spec. hydraulic fluid, high water base hydraulic fluid (HFA), or spindle oil. Maintain the fluid temperature inside the tank in the range to 4 C when using a water-glycol hydraulic fluid or water/oil emulsion type hydraulic fluid. Recommended contamination level of hydraulic fluid Operating pressure MPa Up to.7.7 to.6 Over.6 Recommended ISO class /8/ 9/7/4 8/6/ contamination level NAS class 9 8 Use clean hydraulic fluid that satisfies the recommended contamination level for the operating pressure. Installation and alignment Ensure that the eccentricity of the drive shaft and pump shaft is no greater than. mm (TIR), and run the pump with no force acting perpendicularly on the pump shaft. Misalignment between the shaft centers will cause damage to bearings and oil seals, generate noise and vibration, and lead to pump accidents. Avoid crosswise drive using a belt, chain or gears (it will cause noise generation or damage to the bearings). The pump shaft can be installed vertically. Restrict the clearance between the spigot joint of the flange and the hole to +. to +. mm in diameter. Restrict the clearance between the key shaft and the coupling hole to +. to +. mm in diameter. Filters Use a suction filter with meshes per inch at the inlet side. In the return line to the tank at the discharge side, use a line filter with a filtration accuracy of μm or better. For delivery pressures of 4 MPa {4 kgf/cm } or greater, use a line filter with a filtration accuracy of μm or better. Piping Ensure the suction port is airtight. Aeration will cause abnormal noise. When using steel pipes for piping, take care not to force the pump off center. Forcing the pump off center with pipes may cause abnormal noise. At start Fill inside the pump and the hydraulic system with the hydraulic fluid before starting operation. After checking that all hydraulic circuits and electrical circuits are ready for operation, set the hydraulic circuit at the load side in the no-load status before starting the pump. When the pump is driven for the first time, turn the power switch to the motor on and off a few times to let the air out of the piping and then run it continuously at full speed. At a fluid temperature of 7 C or lower, warm up the pump by running it at a pressure of MPa maximum and increase the pressure when the fluid temperature has risen. (Note that the pressure must be.7 MPa minimum.) If there is a temperature difference of C or greater between the pump and fluid, warm up the pump to reduce the temperature difference to within C before running it. Suction pressure Keep the suction pressure within the permissible suction pressure of the pump. High suction pressures will generate cavitation and cause damage to the parts, noise, and vibration, resulting in a shorter pump service life. The discharge pressure must always be larger than the suction pressure. Permissible suction pressure MPa Hydraulic fluid () Hydraulic fluid () DE series.7 to.68. to.68 DEV series.7 to.4. to.4 () Wear-resistant hydraulic fluid () Water-glycol hydraulic fluid, water/oil emulsion type hydraulic fluid, phosphate ester hydraulic fluid Maximum pressure The rated pressure refers to the maximum pressure at which the product can be operated continuously. D-
Starting up procedure and points to note (DE, DEV) Supply fluid from either the pump's discharge port or suction port before starting the pump. Avoid piping where both of the ports are installed downward. As far as possible, try to arrange the oil tank and the pump such that the oil level in the tank is higher than the pump position. If the oil tank needs to be arranged such that the pump position is lower than the oil level, keep the piping length as short as possible and be sure to supply fluid into the pump casing from either the discharge port or suction port before starting the pump. The pump usually starts suctioning and discharging the fluid within two to three seconds after it is started. If no fluid is discharged, check for resistance at the suction side of the pump, aeration, and removal of air at the discharge side. Air has to be removed from the hydraulic system to enable suctioning by the pump when starting it for the first time. If it cannot be removed, implement the necessary measures, such as loosening the pipe joint at the discharge side or providing an air bleeding valve to enable removal of air. If the pump does not suction or discharge even after such measures, increasing the of the pump may help. Follow the guideline below for the of the pump when starting it for the first time. Guideline for of the pump when starting it for the first time DE series DEV series min minimum 8 min minimum If the oil level is lower than the pump position and insufficient If the oil level is lower than the pump position and insufficient priming fluid is supplied at the start, it may be necessary to run the priming fluid is supplied at the start, it may be necessary to run the pump at min or higher. pump at min or higher. When starting the pump at a lower than the guideline above, it is advisable to have the oil level in the oil tank higher than the pump position. Once the pump has started suctioning and discharging, securely fasten the connections at the discharge side that were loosened earlier. At the initial operation of the pump, run it for to minutes with no load to remove air in the hydraulic system. When the entire system has filled with fluid with the air fully removed, the pump can run under the regular operation conditions. The operating conditions while the pump is running are as follows. DE series DEV series Minimum Recommended suction pressure to.4 MPa to.4 MPa Permissible suction pressure.7 to.68 MPa.7 to.4 MPa Recommended hydraulic fluid viscosity to 4 cst to 4 cst Maximum viscosity at start cst 86 cst When the pump is stopped for a long time, or when building a system where fluid inside the discharge/suction piping of the pump is drained when the pump is stopped, arrange the suction piping of the pump in the direction that prevents the fluid inside the pump casing draining out. By orienting the suction/discharge port upward or sideways, fluid is retained inside the pump on starting it after it has been stopped for a long time, and dry running of the pump can be avoided. When starting the pump after it has been stopped for a long time, follow the procedure and pay due attention to the points to note given above again. The condition of fluid inside piping in relation to the time that the pump has been stopped varies depending on the system configuration and conditions of use. However, it is necessary to check that the pump suctions fluid and the pressure rises properly after the pump has been stopped for around a week to days. If suctioning at the pump cannot be confirmed, stop the pump and restart it by following the procedure above. D-
D GEAR PUMPS D GEAR PUMPS Handling Hydraulic oil Use a general-purpose hydraulic oil (R&O) equivalent to ISO VG to 68, or wear-resistant hydraulic oil. Operate the unit in an environment where both the following conditions are satisfied: viscosity range from to 4 mm /s {cst} and oil temperature from to 6 C. Contamination of the hydraulic fluid causes pump trouble and reduces the service life, so pay due attention to controlling contamination and ensure that it goes no higher than NAS contamination class 9. Filters Use a suction filter with meshes per inch at the inlet side. In the return line to the tank at the discharge side, use a line filter with a filtration accuracy of μm or better. Piping Ensure the suction port is airtight. Aeration will cause abnormal noise. When using steel pipes for piping, take care not to force the pump off center. Forcing the pump off center with pipes may cause abnormal noise. At start Supply fluid inside the pump before starting operation for better lubrication of sliding surfaces. After checking that all hydraulic circuits and electrical circuits are ready for operation, set the hydraulic circuit at the load side in the no-load status or connect an unloading circuit before starting the pump. Check that the pump rotates in the direction of the arrow showing the direction of rotation. When the pump is driven for the first time, turn the power switch to the motor on and off a few times to let the air out of the piping and then run it continuously at full speed. Noise may be observed until the air has been completely removed but this is not abnormal. At a fluid temperature of 7 C or lower, warm up the pump by running it at a pressure of MPa { kgf/cm } maximum and increase the pressure when the fluid temperature has risen. If there is a temperature difference of C or greater between the pump and fluid, warm up the pump to reduce the temperature difference to within C before running it. Suction pressure Maintain the suction pressure. kpa to kpa { mmhg to. kgf/cm }. The unit can permit a pressure up to 4. kpa { mmhg} for short time at the start but do not increase the pressure during this time. High suction pressures will generate cavitation and cause damage to the parts, noise, and vibration, resulting in a shorter pump service life. Rated pressure The rated pressure refers to the maximum pressure at which the product can be operated continuously. Maximum operating pressure The maximum operating pressure refers to the maximum pressure at which the product can be operated. D-
MFP Series Motor Pumps These are motor pumps that integrate a TFP type gear pump and an electric motor in one body. Nomenclature MFP/ - - - 4 MFP: MFP series motor pump Voltage specifications : AC V (/6 Hz), AC V (6 Hz) Pump capacity.:. cm /rev.7:.7 cm /rev.:. cm /rev.6:.6 cm /rev.:. cm /rev.8:.8 cm /rev 4.: 4. cm /rev 7.8: 7.8 cm /rev 4 Motor output.4:.4 kw-4p.7:.7kw-4p.:. kw-4p.:. kw-4p Design No. (The design No. is subject to change) Specifications Model code Gear pump type Motor kw (4P) Operating pressure MPa {kgf/cm } Theoretical discharge rate cm /rev.4.7.. Maximum Rated MFP/.-- - TFP/.DCI6-. MFP/.7-- - TFP/.7DCI6-.7 MFP/.-- - TFP/.DCI6-. MFP/.6-- - TFP/.6DCI6- {} 4 {4}.6 MFP/.-- - TFP/.DCI6-. MFP/.8-- - TFP/.8DCI6-.8 MFP/4.-- - TFP/4.DCI6-4. MFP/7.8-- - TFP/7.8DCI6-8 {8}. {} 7.8 4 : Motor output and specifications Code Output kw Motor rated current A (Number of poles: 4P) V ( Hz) V (6 Hz) V (6 Hz).4.4.4...7.7.7.4... 6.8 6. 6... 9.6 9. 8.4 D-4
Noise characteristics (measuring position: m from pump front) Motor.7 kw Motor. kw Motor. kw Noise level (db-a) 6 MFP/7.8 MFP/4. MFP/.6 Noise level (db-a) 6 MFP/7.8 MFP/4. MFP/.6 Noise level (db-a) 6 MFP/7.8 MFP/4. MFP/. D GEAR PUMPS 7 4 { kgf/cm } 7 4 { kgf/cm } 7 4 { kgf/cm } Shaft input characteristics Input : min Input : Discharge rate (L/min) 6 4 9 8 7 6 4.4 kw.7 kw. kw. kw 6 9 8 Pressure MPa { kgf/cm } 7.8 4..8..6..7. Pump capacity (cm /rev) Discharge rate (L/min) 6 4 9 8 7 6 4.4 kw.7 kw. kw. kw 7.8 6 9 8 Pressure MPa { kgf/cm } 4..8..6..7. Pump capacity (cm /rev) D-
DAIKIN INDUSTRIES, LTD. Oil Hydraulic Equipment Osaka Office YODOGAWA PLANT -, Nishi-Hitotsuya, Settsu, Osaka 66-88, Japan Indian Representative Technocrats Alliance Engineering Pvt. Ltd. Works/Correspondence Office : /, TIL Compound, Site-IV, Sahibabad Industrial. Area, Ghaziabad - (UP) INDIA Registered Office : C - /, Yamuna Vihar, Delhi - INDIA Tel: +9-- 4448, 448 Fax: +9--448 E-mail : info@tca.co.in website : www.tca.co.in