ontact etails RP series Rotor Pumps Nomenclature Features Low noise Substantial reduction of the operation noise, by to db (comparison with aikin products), and improved sound quality are achieved by adopting noise reduction technology unique to aikin. ownsizing The integrated structure reduces the total length by approximately % in comparison with aikin conventional models, makes handling simpler, and is leading to downsizing the main machine. Low pulsation Pulsation has also been reduced by approximately % in comparison with aikin conventional models. High reliability The fully enclosed structure with no shaft protruding from the casing eliminates the possibility of oil leakage without an oil seal. In addition, the oil-cooled motor suppresses temperature rise of the coil and enables prolonged continuous overloaded operation. E compliant These models are best suited to integration into European Safety Standard (E) compliant equipment since they are equipped with a terminal box that satisfies the IP4 ingress protection grade and complies with international standards such as EN64-. Pressure compensator control RP A - - - 4 9 ombination control (pressure feedback method) RP H - - 6 7 9 ombination control (solenoid operated method) RP J - - 6 7 8 9 Note: Refer to Page -6 for possible combinations of pump capacities, control methods, and motor outputs. Model No. RP: RP series rotor pump 4 6 7 Pump capacity 8: 8. cm /rev : 4.8 cm /rev : 4.4 cm /rev 8: 7.7 cm /rev ontrol method I A: Pressure compensator control : ombination control Pressure adjustment range (See the pressure adjustment range table) Low pressure adjustment range :. to 7 MPa { to 7 kgf/cm } :. to 4 MPa { to kgf/cm } High pressure adjustment range :. to 7 MPa { to 7 kgf/cm } :. to 4 MPa { to kgf/cm } :. to MPa { to kgf/cm } ontrol method II H: Pressure feedback method J: Solenoid operated method Note: * Vertical installation can only be applied to RP8 and RP. Since the vibration-absorbing rubber pad has no effect in vertical installation, be sure to secure sufficient rigidity on the mounting base and incorporate a structure that absorbs vibration. Insufficient rigidity of the mounting base may cause noise and vibration. Refer to Page N-8 for NR series rotor packs, i.e. hydraulic units equipped with an RP series rotor pump. - 8 Voltage code for the solenoid valve A: A V (/6 Hz), A V (6 Hz) : A V (/6 Hz), A V (6 Hz) P: 4 V 9 Motor output (See the motor specification table) Voltage specifications No designation: A V (/6 Hz), A V (6 Hz) : A V ( Hz) Y: A 8 V ( Hz), A V (/6 Hz) A 4 V ( Hz), A 4 V (6 Hz) A 46 V (6 Hz) esign No. (The design No. is subject to change) ontrol method III No designation: Without remote control system R: With remote control system Pump installation No designation: Foot support mount T: Vertical installation*
ontact etails Models and pressure adjustment range table Pressure compensator control 4 Pressure adjustment range ode Pressure adjustment range MPa {kgf/cm } Without remote control system With remote control system RP8 RP RP RP8 RP8 RP RP RP8. to 7 { to 7}. to 7 { to 7}. to 4 { to }. to 4 { to } * *. to { to } * * * 4. to { to } * * * 4 Note: * Applies only to the models with the motor output of. kw. * Applies only to the models with the motor output of. kw. * Applies only to the models with the motor output of.7 kw. * 4 Applies only to the models with the motor output of. kw. ombination control Low pressure adjustment range ode Pressure adjustment range MPa {kgf/cm } Pressure feedback method Without remote control system Solenoid operated method RP8 RP RP RP8 RP8 RP RP RP8. to 7 { to 7}. to 4 { to } 6 High pressure adjustment range ode Pressure adjustment range MPa {kgf/cm } Pressure feedback method Without remote control system Solenoid operated method RP8 RP RP RP8 RP8 RP RP RP8. to 7 { to 7}. to 4 { to }. to { to } 9 : Motor output ode Output kw (Number of poles: 4P) 7.7 Insulation type Applicable model RP8 RP RP RP8.. Type 7.7. -6
ontact etails Specifications Theoretical discharge rate cm /rev Pump Maximum operating pressure MPa {kgf/cm } adjustment range 6 Hz L/min Output kw (Number of poles: 4P) V ( Hz) Motor Rated current A* V (6 Hz) V (6 Hz) RP8A -7-(R) 8. 4 {}* 4.8 to 4..7.8.4.4 RPA --(R) 4 {}. 6.8 6..8. to. RPA --(R) {}. 9.6 8.8 8.4 RP H(J)-- High quantity. 6.8 6..8 4.8 adjustment range RP H(J)--. to.* {} Low quantity adjustment range. 9.6 8.8 8.4. to. Mass kg 4 H: (J:) RPA --(R) 4 {}.. 9. 8.7 67. to 4. RPA -7-(R) {}.7. 4.7.4 7 4.4 RP H(J)-- A*.. 9. 8.7 H:7 (J:7) {} RP H(J)-7- *.7. 4.7.4 H:76 (J:78) RP8A -7-(R) 4 {}.7. 4.7.4 7. to 64. RP8A --(R) {}... 9.6 87 RP8 H(J)-7- High quantity.7. 4.7.4 H:76 (J:78) 7.7 adjustment range RP8 H(J)--. to 64.* {} Low quantity adjustment range... 9.6 H:9 (J:9).8 to. The unit is painted in white (Munsell code N8.). Note: * Some restrictions apply to the conditions of use when using the product at a pressure in the range 7 to 4 MPa {7 to kgf/cm }. JR-G(T) and JRP-G are recommended for the remote control system's relief valve. If the vent port is blocked, the pressure compensation structure does not work and the pump operates at a fixed pressure. In such a case, connect a relief valve at the discharge side of the pump. * The high quantity adjustment range may be restricted due to the setting for the low quantity range. See the graphs on Page -9 for details. A: RP- High quantity adjustment range:. to 4., Low quantity adjustment range:.7 to. : RP-7 High quantity adjustment range:. to 4., Low quantity adjustment range:.8 to. * Refer to Page - for the reference current values for selecting the thermistor capacity. Piping flanges are not provided with the pump. Order them separately as required by referring to Page S-4. -7
ontact etails Relationship between number of revolutions of the pressure adjusting screw and variation of discharge pressure (Kgf/cm ) Pressure change 4 Number of pressure revolutions Although the discharge pressure varies depending on the load conditions, the P pressure setting that serves as the upper limit for the discharge pressure can be set using the P valve's pressure adjusting function. Turning the clockwise (tightening direction) increases the P pressure setting. Turning the counterclockwise (loosening direction) decreases the P pressure setting. Excessive loosening of the pressure may cause oil to leak from the threaded section or parts to spring out. o not loosen the screw beyond the pressure adjustment range. The st to rd patterns correspond to the pressure adjustment range designation codes to. Relationship between the protruding length of the discharge rate adjusting screw and the discharge rate (pressure compensator control) The discharge rate can be set to the desired value by turning the discharge rate adjusting screw provided on the front cover. Turning the clockwise (tightening direction) decreases the discharge rate. Turning the counterclockwise (loosening direction) increases the discharge rate. The relationship between the discharge rage and the protruding length of the is shown below. Set the discharge rate to no lower than two-thirds of the maximum discharge rate, otherwise the suction capacity may be insufficient. Overtightening of the discharge rate may cause oil to leak from the threaded section. o not tighten the screw beyond the adjustment range. RP8A rd pattern nd pattern st pattern ischarge pressure: MPa { kgf/cm } (MPa) RPA ischarge pressure: MPa { kgf/cm } L Front cover RPA - ischarge pressure: MPa { kgf/cm } (L/min) 6 Hz Hz (L/min) 6 Hz Hz (L/min) 6 Hz Hz 4 6 L (mm) RPA -7 6 8 L (mm) RP8A L (mm) (L/min) ischarge pressure: MPa { kgf/cm } 6 Hz Hz (L/min) ischarge pressure: MPa { kgf/cm } 6 6 Hz Hz L (mm) L (mm) -8
ontact etails Relationship between the protruding length of the discharge rate adjusting screw and the discharge rate (combination control) (cm /rev) RP discharge rate adjustment graph 4 9 8 6 6 4 Low quantity scale ( ) 6 9 Low quantity scale ( ) 6 9 High quantity scale ( ) (cm /rev) RP- discharge rate adjustment graph Low quantity scale ( ) 8 6 4 4 6 8 Low quantity scale ( ) 4 6 8 4 6 8 High quantity scale ( ) RP-7 discharge rate adjustment graph RP8 discharge rate adjustment graph (cm /rev) Low quantity scale ( ) 8 6 4 (cm /rev) Low quantity scale ( ) 8 6 4 4 6 8 Low quantity scale ( ) 4 6 8 Low quantity scale ( ) 4 6 8 4 6 8 High quantity scale ( ) 4 6 8 4 6 8 High quantity scale ( ) Note: Refer to Page A- for the discharge rate setting procedure. The discharge rate s are provided with scales on the nameplates as shown below. Pump model Low quantity Scale ( ) High quantity RP to to RP, 8 to 8 4 to 8 (Scale graduation: ) adjusting section High quantity scale Scale set position (High quantity) Scale set position (Low quantity) Low quantity scale Factory settings The discharge rate for the high quantity range is factory adjusted to the maximum discharge rate and the discharge rate for the low quantity range is generally factory adjusted as follows. 9 6 Pump type Low quantity (QL) setting RP- Scale position: RP- Scale position: 4 RP- Scale position: RP-7 Scale position: RP8-7 Scale position: RP8- Scale position: Hexagonal nut Hexagonal flat nut: 7 High quantity (QH) Socket for hex key: Hexagonal nut Hexagonal flat nut: 6 Low quantity (QL) Width across flats: 6-9
ontact etails Pressure - Flow Rate characteristics V (6 Hz) RP8-7 RP- RP- % % % % % % % % % 7 4 RP- RP-7 RP8-7 6 % % % % % % % % % 7 RP8-6 % % % Note: The diagrams show the pressure - flow rate characteristics under the following conditions. %: Output at the rated current %: Output at % of the rated current (continuous operation possible) %: Output at % of the rated current (momentary operation possible) * Refer to the next page for the thermistor capacities of rotor pumps. V ( Hz) RP8-7 RP- RP- % % % % % % % % % 7 4 -
ontact etails Pressure - Flow Rate characteristics RP- RP-7 RP8-7 % % % % % % 6 % % % 6 RP8- % % % * The reference current values for selecting the thermistor capacity are given below for each of the rotor pump models and operation conditions. Model RP8-7 Input power V ( Hz) V (6 Hz) V (6 Hz) Input current = % (A).8.4.4 Input current = % (A).7.. Input current = % (A) 7.6 6.8 6.8 Note: When taking the power supply voltage fluctuation of % into account, it is recommended to use the thermistor current setting obtained by multiplying the current value at the % load in the tables to the left by.. Model RP- RP- Input power V ( Hz) V (6 Hz) V (6 Hz) V ( Hz) V (6 Hz) V (6 Hz) Input current = % (A) 6.8 6..8 9.6 8.8 8.4 Input current = % (A). 9. 8.7 4.4..6 Input current = % (A).6..6 9. 7.6 6.8 Model RP- RP-7 Input power V ( Hz) V (6 Hz) V (6 Hz) V ( Hz) V (6 Hz) V (6 Hz) Input current = % (A). 9. 8.7. 4.7.4 Input current = % (A)..8..7.. Input current = % (A). 8.4 7.4. 9.4 6.8 Model RP8-7 RP8- Input power V ( Hz) V (6 Hz) V (6 Hz) V ( Hz) V (6 Hz) V (6 Hz) Input current = % (A). 4.7.4.. 9.6 Input current = % (A).7....8 9.4 Input current = % (A). 9.4 6.8 44. 4.4 9. -
ontact etails Noise characteristics (measuring position: m from pump front) 6 RP8-7 RP- RP- 6 6 Noise level (d/a) 4 48 Noise level (d/a) 6 At maximum discharge rate Noise level (d/a) 6 At maximum discharge rate 46 7 4 4 4 6 RP- 7 RP-7 7 RP8-7 Noise level (d/a) 6 Noise level (d/a) 6 6 At maximum discharge rate Noise level (d/a) 6 6 At maximum discharge rate 4 7 RP8- Noise level (d/a) 6 6 Solid line: V (6 Hz) ashed line: V ( Hz) -
ontact etails rainage volume characteristics. RP8-7 RP- RP- rainage rate (L/min).. rainage rate (L/min) rainage rate (L/min) 7 4 RP- RP-7 RP8-7 rainage rate (L/min) rainage rate (L/min) rainage rate (L/min) RP8- rainage rate (L/min) Solid line: V (6 Hz) ashed line: V ( Hz) -
ontact etails External dimension diagram RP8A -7- Rc½ 96 8 (4) 8 9 4-φ 9. 68. 4-M, effective thread depth Use SHA or SSA pipe flange (JIS 9) or equivalent at the suction side. etail of terminal box: Page -8 Rc⅜ rain port Rc⅜ 69. View M [Hexagonal flat nut: ] [Socket for hex key: ] (Hexagonal flat lock nut: 7) Pressure (clockwise: pressure increase) (Hexagonal flat lock nut: 7) RP8A-7-R Rc½ 96 8 (4) 8 9 4-φ 9.. 68. 4-M, effective thread depth Use SHA or SSA pipe flange (JIS 9) or equivalent at the suction side. etail of terminal box: Page -8 P remote control valve Vent port R¼ 9 Rc⅜ rain port Rc⅜ 69. View M [Hexagonal flat nut: ] [Socket for hex key: ] (Hexagonal flat lock nut: 7) 64 P differential pressure (Factory adjusted) RPA -- RPA -- Rc½ (8) 8 7 etail of terminal box: Page -8 6 78 M [Hexagonal flat nut: ] 4 4 4-φ 8 4-M, effective thread depth Use SHA or SSA pipe flange (JIS 9) or equivalent at the suction side. Rc⅜ rain port Rc⅜ View [Socket for hex key: ] (Hexagonal flat lock nut: 7) 7 Pressure (clockwise: pressure increase) (Hexagonal flat lock nut: 7) -4
ontact etails External dimension diagram RPA--R RPA--R Rc½ (8) 8 7 etail of terminal box: Page -8 P remote control valve Vent port R¼ Rc⅜ 6 78 M [Hexagonal flat nut: ] [Socket for hex key: ] (Hexagonal flat lock nut: 7) 4 4 4-φ 4 8 99 rain port Rc⅜ 87 7 4-M, effective thread depth Use SHA or SSA pipe flange (JIS 9) or equivalent at the suction side. View P differential pressure (Factory adjusted) RP H-- RP H-- High pressure (PH) (Hexagonal flat lock nut : 7) Low pressure (PL) (Hexagonal flat lock nut : 7) Rc½ 4 4 (8) 8 7 4-M, effective thread depth Use SHA or SSA pipe flange (JIS 9) or equivalent at the suction side. 4-φ 86 etail of terminal box: Page -8 Rc⅜ rain port Rc⅜ 78 6 78 View M [Hexagonal flat nut: ] 4 7 7 (High quantity) (Low quantity) RP J -- RP J -- Rc½ 4 4 (8) 8 7 etail of terminal box: Page -8 6. (A), 9. () 4-M, effective thread depth Use SHA or SSA pipe flange (JIS 9) or equivalent at the suction side. Magnetic valve (KSO-G- - -) 4-φ 86 Rc⅜ High pressure (PH) (Hexagonal flat lock nut : 7) rain port Rc⅜ 78 6 78 View Low pressure (PL) (Hexagonal flat lock nut : 7) M [Hexagonal flat nut: ] 4 7 7 (High quantity) (Low quantity) -
ontact etails External dimension diagram RPA -- RPA -7- Rc½ 88 8 7. (4) 9 8.7 4-M, effective thread depth Size ¼ split flange boss (SAE J8) A etail of terminal box: Page -8 4-φ 7 rain port Rc½ View M [Hexagonal flat nut: ] [Socket for hex key: ] (Hexagonal flat lock nut: 7) 4 Pressure (clockwise: pressure increase) (Hexagonal flat lock nut: 7) imensions A RPA -- 67 97 67 RPA -7-77 7 7 87 RPA--R RPA-7-R (4) 9 etail of terminal box: Page -8 P remote control valve Vent port R¼ 7 E M [Hexagonal flat nut: ] 88 8 7. 8.7 4-M, effective thread depth Size ¼ split flange boss (SAE J8) 4-φ A 8 rain port: Rc½ [Socket for hex key: ] (Hexagonal flat lock nut: 7) 4 4 4 P differential pressure View (Factory adjusted) imensions A E RPA--R 67 7 97 67 RPA-7-R 77 9 7 7 87 RP H-- RP H-7-88 8 7. (4) 9 8.7 4-M, effective thread depth Size ¼ Split flange boss (SAE J8) A etail of terminal box: Page -8 4-φ High pressure (PH) (Hexagonal flat lock nut: 7) 7 rain port Rc½ E View Low pressure (PL) (Hexagonal flat lock nut: 7) M [Hexagonal flat nut: ] 4 (High quantity) (Low quantity) imensions A E RP H-- 67 44 97 67 9 RP H-7-77 44 7 87 9-6
ontact etails External dimension diagram RP J -- RP J -7-77. (A), 8. () 88 8 7. (4) 9 etail of terminal box: Page -8 Solenoid (KSO-G- - -) 7 High pressure (PH) (Hexagonal flat lock nut: 7) E Low pressure (PL) (Hexagonal flat lock nut: 7) M [Hexagonal flat nut: ] 4 8.7 4-M, effective thread depth Size ¼ sprit flange boss (SAE J8) A 4-φ rain port Rc½ (High quantity) View (Low quantity) imensions A E RP J -- 67 44 97 67 9 RP J -7-77 44 7 87 9 RP8A -7- RP8A -- (4) 9 etail of terminal box: Page -8 7 M [Hexagonal flat nut: ] [Socket for hex key: ] (Hexagonal flat lock nut: 7) 7 88 8. 4 8.7 4-M, effective thread depth Size ¼ split flange boss (SAE J8) A 4-φ rain port Rc½ View Pressure (clockwise: pressure increase) (Hexagonal flat lock nut: 7) imensions A RP8A -7-77 7 7 87 RP8A -- 96 4 RP8A-7-R RP8A--R (4) etail of terminal box: Page -8 9 P remote control valve Vent port R¼ 7 E M [Hexagonal flat nut: ] [Socket for hex key: ] (Hexagonal flat lock nut: 7) 88 8 7. 8.7 4-M, effective thread depth Size ¼ split flange boss (SAE J8) 4-φ A 8 rain port Rc½ 4 4 4 P differential pressure View (Factory adjusted) imensions A E RP8A-7-R 77 9 7 7 87 RP8A--R 96 4-7
ontact etails External dimension diagram RP8 H-7- RP8 H-- (4) 9 High pressure (PH) (Hexagonal flat lock nut: 7) 7 E Low pressure (PL) (Hexagonal flat lock nut: 7) M [Hexagonal flat nut: ] 88 8 7. 8.7 4-M, effective thread depth Size ¼ split flange boss (SAE J8) A 4-φ rain port Rc½ View 4 48 (High quantity) (Low quantity) imensions A E RP8 H-7-77 44 7 87 9 RP8 H-- 96 49 67 RP8 J -7- RP8 J -- 77. (A), 8. () 88 8 7. (4) 9 8.7 4-M, effective thread depth Size ¼ split flange boss (SAE J8) A 4-φ High pressure (PH) (Hexagonal flat lock nut: 7) Solenoid (KSO-G- - -) ombination control valve E 7 rain port Rc½ View Low pressure (PL) (Hexagonal flat lock nut: 7) M [Hexagonal flat nut: ] 4 48 (High quantity) (Low quantity) imensions A E RP8 J -7-77 44 7 87 9 RP8 J -- 96 49 67 etail of terminal box U-phase V-phase W-phase E (Ground) Terminal block wiring diagram (onnecting screw size, fastening torque: M 4 pcs., N m max.) φ Motor capacity:.7 kw maximum φ7 Motor capacity:. kw -8
ontact etails Sectional structural diagram 4 6 8 7 7 7 74 7 76 78 77 7 6 6 4 7 7 4 8 9 4 44 4 46 47 68 69 7 Section A-A 79 Section - 7 6 4 6 48 4 8 9 49 8 etail of terminals 6 A A 7 6 6 4 9 67 66 Fitting portion of housing (4) and front cover (9) Seal/bearing table Part No. Product name Quantity Part specifications RP8 RP RP, RP8 Material Sealing washer WF9 NR 8 O-ring AS68-6 (HS9) AS68-67 (HS9) AS68-7 (HS9) NR 9 O-ring JIS -P7 NR Needle bearing HK HMK7 F6 7 O-ring JIS -G4 NR 4 O-ring JIS A-P8 NR 48 O-ring AS68-94 (HS9) NR 6 Gasket 7698 (special part) 67 O-ring JIS -P4 NR -9