RCOe /9. PRKER CLZONI Radial Piston otor Type RT, RTE, RTF
TBLE OF CONTENS - OTOR TYPE RT - RTE - RTF CONTENS PG. TBLE OF CONTENS GENERL CHRTERISTICS FUNCTIONL DESCRIPTION TECHINICL DT FLUID SELECTION 6 FLUSHING PROCEDURE 7 OPERTING DIGR OTOR TYPE RT 7 RTF 8 RTE 8 8 OPERTING DIGR OTOR TYPE RT 9 RTF 99 RTE 8 9 OPERTING DIGR OTOR TYPE RT RTF RTE 6 OPERTING DIGR OTOR TYPE RT 7 RTF 8 RT 9 OPERTING DIGR OTOR TYPE RTE RTF RTE OPERTING DIGR (RUNNING PRESSURE DIFFERENCE T NO LOD) - OPERTING DIGR (OTOR /PUP: BOOST PRESSURE) - OTOR DIENSIONS 6-9 COPONENTS FOR SPEED CONTROL - INSTLLTION NOTES ORDERING CODE LES ND SERVICE LOCTIONS WORLDWIDE RCOe /.
GENERL CHRTERISTICS - OTOR TYPE RT - RTE - RTF GENERL CHRCTERISTICS PISTONS OTOR VERSION PISTONS OTOR VERSION CONTRUCTION TYPE OUNTING CONNECTION OUNTING POSITION Fixed displacement radial piston motor RT, RTE, RTF Front flange mounting Connection flange ny (please note the installation notes on page ) DIRECTION OF ROTTION Clockwise, anti-clockwise -reversible FLUID HLP mineral oils to DIN part ; Fluid type HFB, HFC and Bio-fluids on enquiry. FP seals are required with phosphorous acid-ester (HFD) FLUID TEPERTURE RNGE t C a + 8 VISCOSITY RNGE ) ν mm /s 8 to : Recommended operating range to mm /s (see fliud selection on page 6) FLUID CLENLINESS aximum permissible degree of contamination of fluid NS 68 Class 9. We therefore recommend a filter with a minimum retention rate of ß > 7. To ensure a long life we recommend class 8 to NS 68. This can be achieved with a filter, with a minimum retention rate of ß >. ) For different valves of viscosity please contact PRKER Calzoni RCOe /.
FUNCTIONL DESCRIPTION - OTOR TYPE RT - RTE - RTF 7 6 8 FUNCTIONL DESCRIPTION TIING SYSTE EFFICIENCY The outstanding performance, which is already known in our R - RE series motors, is the result of an original and patented design. The principle is to transmit the effort from the stator to the rotating shaft () by means of a pressurized column of oil () instead of the more common connecting rods, pistons, pads and pins. This oil column is contained by a telescopic cylinder () with a mechanical connection at the lips at each end which seal against the spherical surfaces () of the cylinder-heads () and the spherical surface of the rotating shaft (). These lips retain their circular cross section when stressed by the pressure so there is no alteration in the sealing geometry. The particular selection of materials and optimisation of design has minimized both the friction and the leakage. nother advantage of this design stems from the elimination of any connecting rods, the cylinder can only expand and retract linearly so there are no transverse components of the thrust. This means no oval wear on the moving parts and no side forces on the cylinder joints. consequence of this novel design as a piston motor is the significant reduction in dimensions. Especially the diameter is limitated to a value of motors with half of its capacity. Performances reached by this motor type are improved with reference to other motors of same diplacement. nother advantage stems from the geometrical arrangement of the - pistons, that results in a static balance of the motor shaft and in a great reduction of the reaction forces on the bearings with consequent large extension of their life time. The timing system is realized by means of a rotary valve () driven by the rotary valve driving shaft (8) that it is connected to the rotating shaft. The rotary valve rotates between the rotary valve plate (6) and the reaction ring (7) which are fixed with the motor's housing. This timing system is also of a patented design being pressure balanced and self compensating for thermal expansion. The motor sizes from RTE 6 to RTE are available with large timing system option that allows higher motor power performances as well as the possibility to have a throughhollow shaft (see pages, 8-9). The advantages of this type of valve coupled with a revolutionary cylinder arrangement produce a motor with extremly high values of mechanical and volumetric efficiency. The torque output is smooth even at very low speed and the motor gives a high performance starting under load. RCOe /.
TECHINICL DT - OTOR TYPE RT - RTE - RTF STNDRD TIING TECHINICL DT Siz ize otor version Displace isplace- ment omen oment inertia of rotating parts Theore heore- tical specific torque in in. start. torque % Theoretical torque aximun Pressure e input c ont. int. p eak +B * Drain S peed rang e without flushing with aximu m output power flushing without with Weigh eight V J % p p p p p n n P P m cm kg m Nm/bar bar bar bar bar bar rpm rpm kw kw kg RT 7 7,,8, 9,-7,- 6 9 RTF 78 788,,8, 9,-7,- 9 8 9 RTE 8 87,,8, 6 9,-6,- 98 9 9 RT 9 9,,, 9,-7,- 7 9 RTF 99 99, 9, 7, 7 9,-6,- 9 RTE 8 8,, 7, 9,-6,- 9 RT RTF RTE 6 77 6 6 6 6,, 6, 9 9 9 ( bar with "F" shaft seal),-,-,-,-8,-7,-7 8 6 8 RT 7 679 6 66, 7 9,-,-7 8 7 RTF 8 8 6 86, 8 9,-,-6 RT 9 98 6, 9,-,-6 8 7 RTE 9788 6, 9 9,-,-6 6 RTF 7 6 8, 9,-,- 9 RTE 6 66, 6 9,-,- 6 SPECIL TIING TECHINICL DT (please contact PRKER Calzoni) Siz ize otor version Displace isplace- ment omen oment inertia of rotating parts Theore heore- tical specific torque in in. start. torque % Theoretical torque aximun Pressure e input c ont. int. p eak +B * Drain S peed rang e without flushing with aximu m output power flushing without with Weig eig- ht V J % p p p p p n n P P m cm kg m Nm/bar bar bar bar bar bar rpm rpm kw kw kg RTE 6 6 6 6, 9,-,-8 6 RT 7 679 6 66, 7 9,-,-8 8 RTF 8 RT 9 RTE 8 98 9788 6 6 6 86, 8,, 9 9 9 9 ( bar with "F" shaft seal),-,-,-,-8,-8,-7 8 6 7 9 9 RTF 7 6 8, 9,-,-7 8 RTE 6 66, 6 9,-,-7 8 6 (*) Please consult PRKER Calzoni RCOe /.
OIL SELECTION - OTOR TYPE RT - RTE - RTF EXPLE: t a certain ambient temperature, the operating temperature in the circuit is C. In the optimum operating viscosity range (v rec ; shaded section), this corresponds to viscosity grades VG 6 or VG 68; VG 68 should be selected. IPORTNT: The drain oil temperature is influenced by pressure and speed and is usually higher than the circuit temperature or the tank temperature. t no point in the system, however, may the temperature be higher than 8 C. If the optimum conditions cannot be met due to the extreme operating parameters or high ambient temperature, we always recommend flushing the motor case in order to operate within the viscosity limits. Should it be absolutely necessary to use a viscosity beyond the recommended range, you should first contact PRKER Calzoni for confirmation. viscosity ν (mm /s) Temperature t in C Oil temperature range ν REC GENERL NOTES OPERTING VISCOSITY RNGE LIITS OF VISCOSITY RNGE CHOOSING THE TYPE OF FLUID CCORDING TO THE OPERTING TEPERTURE FILTRTION CSE DRIN PRESSURE "FP" SELS ore detailed information regarding the choice of the fluid can be requested to PRKER Calzoni. Further notes on installation and commissioning can be found on page of this data sheet. When operating with HF pressure fluids or bio-degradable pressure fluids possible limitations of the technical data must be taken into consideration, please see information sheet TCS 8, or consult PRKER Calzoni. The viscosity, quality and cleanliness of operating fluids are decisive factors in determining the reliability, performance and life-time of an hydraulic component. The maximum life-time and performance are achieved within the recommended viscosity range. For applications that go beyond this range, we recommend to contact PRKER Calzoni. ν rec. = recommended operating viscosity... mm /s This viscosity refers to the temperature of the fluid entering the motor, and at the same time to the temperature inside the motor housing (case temperature). We recommend to select the viscosity of the fluid based on the maximum operating temperature, to remain within the recommended viscosity range. To reach the value of maximum continuous power the operating viscosity should be within the recommended viscosity range of - cst. For limit conditions the following is valid: ν min.abs. = mm /s in emergency, short term ν min. = 8 mm /s for continuous operation at reduced performances ν max. = mm /s short term upon cold start The operating temperature of the motor is defined as the greater temperature between that of the incoming fluid and that of the fluid inside the motor housing (case temperature).we recommend that you choose the viscosity of the fluid based on the maximum operating temperature, to remain within the recommended viscosity range (see diagram). We recommend that the higher viscosity grade must be selected in each case. The motor life also depends on the fluid filtration. t least it must correspond to one of the following cleanliness. class 9 according to NS 68 class 6 according to E, ST, I class 8/ according to ISO/DIS 6 In order to assure a longer life a cleanliness class 8 to NS 68 is recommended, achieved with a filter of β =. In case the above mentioned classes can not be achieved, please consult us. The lower the speed and the case drain pressure, the longer the life of the shaft seal. The maximum permissible housing pressure is p max = bar If the case drain pressure is higher than bar it is possible to use a special bar shaft seal (see page, Seals, Code"F"). In case of operating conditions with high oil temperature or high ambient temperature, we recommend to use "FP" seals (see page, Seals, Code "V"). These "FP" seals should be used with HFD fluids. 6 RCOe /.
FLUSHING PROCEDURE - OTOR TYPE RT - RTE - RTF "" Orifice B "" Temperature t FLUSHING CIRCUIT FLUSHING PROCEDURE In order to achieve the maximum continuous performance values the flushing of the housing is necessary (see diagrams pages 8 to ). Under special conditions, in order to achieve the recommended operating viscosity of - mm /s in the motor housing, the flushing of the motor may be necessary also in the "operating area without flushing" see page 6 and the "operating diagram" page 7 to. NOTE: The oil temperature inside the motor housing is obtainable by adding C to the motor housing surface temperature, measured between two cylinders (t, see figures). FUNCTION: The flushing valve takes the flushing flow always from the low pressure line of the motor. The diameter of the orifice has to be chosen in order to supply the recommended quantity of flushing flow of l/min. BCK PRESSURE ( b ar) O RIFICE DIETER (mm), 8 6, 9, 6,,, 9, 8 NOTE: The flushing valve is delivered with a "closed" orifice. Caution: Flushing does not work until the "closed" orifice is replaced by the proper one. 7 RCOe /.
OPERTING DIGR - OTOR TYPE RT - RTE - RTF OPERTING DIGR (average values) measured at ν = 6 mm /s; t = C; p outlet = bar Output power Intermittent operating area Continuous operating area with flushing Continuous operating area Inlet pressure ηt Total efficiency ηv Volumeter efficiency RT 7 8 Kw Kw 6 Kw Kw Kw 6 Kw Kw Kw bar bar bar bar bar L/min L/min 8 L/min L/min 66 L/min 8 L/min 9 L/min 7 RTF 78 6 Kw 9 Kw Kw Kw 8 Kw Kw 8 Kw 8 Kw bar 9% bar 8 9% 97% hv=98% ht=89,% 89% 88% 87% 8% 8% 8% bar bar L/min L/min 6 L/min 9 L/min 6 L/min 7 L/min 9 L/min RTE 8 7 9 6 Kw 9 Kw Kw Kw 8 Kw Kw Kw 9 Kw bar 8 9% 9% hv= 97% 98% h t 9% = 9% 89% 88% 86% 8% 8% bar bar bar L/min L/min 6 L/min 9 L/min 6 L/min 7 L/min 9 L/min 6 8 8 RCOe /.
OPERTING DIGR - OTOR TYPE RT - RTE - RTF OPERTING DIGR (average values) measured at ν = 6 mm /s; t = C; p outlet = bar Output power Intermittent operating area Continuous operating area with flushing Continuous operating area Inlet pressure ηt Total efficiency ηv Volumeter efficiency RT 9 9 Kw Kw 9 Kw Kw 7 Kw Kw Kw 7 Kw bar bar 8 bar bar bar L/min 6 L/min L/min 8 L/min 7 L/min 9 L/min L/min RTF 99 7 9 6 Kw 96 Kw 8 Kw 6 Kw 9 Kw Kw 6 Kw Kw bar 8 9 96 97 hv = 98 h t = 9 88 87 8 8 8 78 bar bar bar L/min 6 L/min L/min 8 L/min 7 L/min 9 L/min L/min 6 8 RTE 8 Kw Kw 6 Kw 9 Kw Kw Kw 8 Kw Kw bar bar 8 bar bar L/min 6 L/min L/min 8 L/min 7 L/min 9 L/min L/min 6 8 9 9 RCOe /.
OPERTING DIGR - OTOR TYPE RT - RTE - RTF OPERTING DIGR (average values) measured at ν = 6 mm /s; t = C; p outlet = bar Output power Intermittent operating area Continuous operating area with flushing Continuous operating area Inlet pressure ηt Total efficiency ηv Volumeter efficiency RT 7 9 Kw Kw 9 Kw 8Kw 67 Kw 97 Kw 6 Kw Kw bar h v=9% 96% 98% h t=9% 9% 89% 87% bar bar bar bar 8% 8% l/min l/min 6 l/min 8 l/min 6 l/min 67 l/min 78 l/min 897 l/min 9 l/min RTF 7 8 kw kw 6 kw 6 7 kw 9 kw kw 8 kw kw 8 bar hv=96% 96% 98% ht=9% 9% 89% 87% bar bar bar 8% 8% l/min 9 l/min l/min 8 l/min 7 l/min 687 l/min 8 l/min 97 l/min l/min RTE 6 7 6 7 7 8 kw kw 6 kw 6 kw kw 7 kw 8 kw 8 kw bar hv=9% 96% 98% 9% ht=9% 89% 87% bar bar bar 8% 8% 6 l/min l/min 7 l/min 6 l/min 79 l/min 69/min 8 l/min 96 l/min l/min 6 7 RCOe /.
OPERTING DIGR - OTOR TYPE RT - RTE - RTF OPERTING DIGR (average values) measured at ν = 6 mm /s; t = C; p outlet = bar Output power Intermittent operating area Continuous operating area with flushing Continuous operating area Inlet pressure ηt Total efficiency ηv Volumeter efficiency RT 7 9 Kw 7 Kw Kw Kw 8 Kw Kw 6 Kw Kw Kw 7Kw 8 7 bar bar h hv=9% v=96% hv=98% ht=9% 9% 89% bar bar bar 87% 8% 8% 7 l/min l/min l/min 68 l/min 8 l/min l/min bar RTF 8 8 8 kw kw 67 kw 9 kw kw 6 kw 86 kw kw 6 7 7 bar hv=9% 96% ht=9% bar bar 98% 9% 89% 87% bar 8% 8% 7 l/min l/min l/min 69 l/min 86 l/min 7 l/min 8 l/min 97 l/min l/min RT 9 9 9 6 6 kw kw kw kw 79 kw kw kw 7 kw 8 7 bar h v=9% 96% 98% ht=9% 9% 89% bar bar bar bar 7 l/min l/min l/min 68 l/min 8 l/min 7 l/min 89 l/min 96 l/min l/min 87% 8% 8% 6 RCOe /.
OPERTING DIGR - OTOR TYPE RT - RTE - RTF OPERTING DIGR (average values) measured at ν = 6 mm /s; t = C; p outlet = bar Output power Intermittent operating area Continuous operating area with flushing Continuous operating area Inlet pressure ηt Total efficiency ηv Volumeter efficiency RTE 8 8 kw 7 kw 7 kw kw 8 kw 6 kw 9 kw 6 kw 7 bar hv=9% 96% 98% ht=9% 9% 89% 87% bar bar bar 8% 8% 6 l/min l/min 7 l/min 6 l/min 79 l/min 69/min 8 l/min 96 l/min l/min RTF 9 6 8 kw kw 67 kw 9 kw kw 6 kw 8 kw kw 8 7 bar hv=9% 96% 98% ht=9% 9% 89% 7 l/min l/min l/min 68 l/min 8 l/min 7 l/min 89 l/min 96 l/min l/min 87% bar bar bar 8% 8% RTE 9 8 8 kw kw 6 kw kw kw 6 kw 8 kw 6 kw 7 bar hv=9% 96% 98% 9% ht=9% 89% 87% bar bar bar 8% 8% l/min l/min 6 l/min 6 l/min 76 l/min 69/min 86 l/min 9 l/min 7 l/min RCOe /.
OPERTING DIGR - OTOR TYPE RT - RTE - RTF OPERTING DIGR in. required pressure difference p with idling speed (shaft unloaded) (average values) measured at ν = 6 mm /s; t = C; p outlet = bar RT - RTE - RTF 7-8 pressure drop in bar RTE 8 RTF 78 RT 7 RT - RTE - RTF 9-8 pressure drop in bar 7 9 RTE 8 RTF 99 RT 9 7 9 RT - RTE - RTF - 6 pressure drop in bar 6 RTE 6 RTF RT 6 7 8 RT - RTE - RTF 7 - pressure drop in bar 6 RTE RTF 8 RT 7 6 7 RCOe /.
OPERTING DIGR - OTOR TYPE RT - RTE - RTF OPERTING DIGR in. required pressure difference p with idling speed (shaft unloaded) (average values) measured at ν = 6 mm /s; t = C; p outlet = bar RT - RTE - RTF 9 - pressure drop in bar 6 RTF RTF RT 9 6 inimum boost pressure during pump operation RT - RTE - RTF 7-8 in. boost pressure in bar RTE 8 RTF 78 RT 7 7 9 RT - RTE - RTF 9-8 in. boost pressure in bar RTE 8 RTF 99 RT 9 7 9 RCOe /.
OPERTING DIGR - OTOR TYPE RT - RTE - RTF OPERTING DIGR inimum boost pressure during pump operation (average values) measured at ν = 6 mm /s; t = C; p outlet = bar RT - RTE - RTF - 6 in. boost pressure in bar 7 6 RTE 6 RTF RT 6 7 8 RT - RTE - RTF 7 - in. boost pressure in bar 7 6 RTE RTF 8 RT 7 6 7 RT - RTE - RTF 9 - in. boost pressure in bar 7 6 RTE RTF RT 9 6 RCOe /.
OTOR DIENSIONS - OTOR TYPE RT - RTE - RTF a *) "" "" T T "B" *) On request port flange can be rotated by 7 *) These E ports are present only in the RT 9P, RTF 99P, RTE 8P, RT Q, TRFQ, RTE6, RT 7Q, RTF 8Q, RT 9Q, RTE Q, RTF Q e RTE Q T T Case drain port BSP threads to ISO 8/ See dimensions at page 7 Port / BSP threads to ISO 8/ for pressure reading. Dir. of Rotation (Viewed on shaft end) clockwise anti-clockwise clockwise anti-clockwise Port B B inlet ordering code (see page) "N" "S" L b D6/T L8 L9 D L L L L L7 L6 L9 L D6/T D B B B L B B B B "B" L B L D6/T L L9 L L9 D8 N HOLES B xd7 xd7 b b 6 Dh7 D D D D9 x E " L7 L L6 L 6 RCOe /.
OTOR DIENSIONS - OTOR TYPE RT - RTE - RTF OTOR TYPE L L L L L6 L7 L8 L9 L L L L L L L 6 L 7 L 9 B B B B B RT 7 RTF 78 RTE 8 RT 9 RTF 99 RTE 8 688, 68, 68, 8, 77,7 7 96, 8 7 8,,,8 8, OTOR TYPE D D D D 7 h D h7 D6 T D7 D8 D9 D a b b RT 7 RTF 78 RTE 8 RT 9 RTF 99 RTE 8 766 6 67 6 6 6 8 G " (x) 9 6 8 Code F - DIN 8 Code D - DIN 8 OTOR TYPE L L L F D D DIN 8 L L L D DIN 8 D T RT 7 RTF 78 RTE 8 76 xx - 9 H N - - -- -- -- -- - - RT 9 RTF 99 RTE 8 9 86 xx8-9 H N 6 7 xx6-8 f W NOTE: the threaded holes (D/T) for the shaft versions ""D"" must be considered as service holes. In case the holes dimensions required by the application are different from the ones listed here above, plese contact PRKER Calzoni. 7 RCOe /.
OTOR DIENSIONS - OTOR TYPE RT - RTE - RTF b L8 L a L9 *) *) SPECIL TIING On request port flange can be rotated by 7 *) These E ports are present only in the RT Q, TRFQ, RTE6, RT 7Q, RTF 8Q, RT 9Q, RTE Q, RTF Q e RTE Q Case drain port BSP threads to ISO 8/ See dimensions at page 9 Port / BSP threads to ISO 8/ for pressure reading. Dir. of Rotation (Viewed on shaft end) clockwise anti-clockwise clockwise anti-clockwise Port B B inlet ordering code (see page) "N" "S" D B B D6/T B D8 N 7 HOLES D D Dh8 D B "" L8 L9 D x E " "B" L L L L L L7 L6 L L L7 L6 L xd7 b T T T6 L L B xd7 B D9 "" B D6/T B B B D6/T L9 D L8 L x E " L L D B B D B B B D6/T L L9 "B" B B T T - T T T - T6 T T T L L9 8 RCOe /.
OTOR DIENSIONS - OTOR TYPE RT - RTE - RTF L9 B OTOR TYPE L L L L L L6 L7 L8 L L L L L L 6 L 7 L 8 L 9 B B B B a b b RT RTF RTE 6 RT 7 RTF 8 RT 9 RTE RTF RTE, 8, 6, 78 8 8 9, 8 77,7 7 96, 8 8 7 988, 6 9 8 9 7,8 8, 7 9 ' OTO OTOR TYPE D D D D 7 h D h7 D6 T D7 D8 D9 D Code F - DIN 8 L L L F D DIN 8 RT RTF RTE 6 RT 7 RTF 8 RT 9 RTE RTF RTE 8 6 9, 6 6 8 G " (x7) 666,6 8 N xx6-9 H SPECIL TIING DIENSIONS (please contact DENISON Calzoni) Tipo e OTOR TYPE L L L L8 L L9 L L B B B B D6 T D7 D9 D D Code F - DIN 8 L L L F F D DIN 8 RTE 6 RT 7 RTF 8 RT 9 RTE RTF RTE 77 7 7 8 77,7 7 96 8 7 96, 8,8 8, 6 8 G " 666, 6 8 8 N xx6 9 H - 9 RCOe /.
COPONENTS FOR SPEED CONTROL - OTOR TYPE RT - RTE - RTF ECHNICL TCHOETER DRIVE TCHOGENERTOR DRIVE ENCODER DRIVE Code "C" Code "T" Code "Q" x 8 x x 8 x x 8 x Timing standard 6,,,,, INCREENTL ENCODER DIENSIONS protection encoder drive flange encoder α (see page 6-9) Female connector included in the supply α = Timing standard RCOe /.
COPONENTS FOR SPEED CONTROL - OTOR TYPE RT - RTE - RTF INCREENTL ENCODER CONNECTION DIGRS onodirectional Bidirectional ale connector Female connector Female connector ale connector Color wires and function n B row n Power Supply (8 to Vdc) W hit e Output B phase (X m - Vcc) B lu e Power Supply ( Vdc) B lac k Output phase (X m - Vcc) INCREENTL ENCODER TECHNICL DT Encoder type: ELCIS mod. 78 Supply voltage: 8 to Vcc Current consumption: m max Current output: m max Output signal: phase- ONODIRECTIONL and B phase BIDIRECTIONL Response frequency: KHz max Number of pulses: (others on request - max ) Slew speed: lways compatible with maximum motor speed Operating temperature range: from to 7 C Storage temperature range: from - to +8 C Ball bearing life:.x 9 rpm Weigth: gr Protection degree: IP 67 (with protection and connector assembled) Connectors: ONODIRECTIONL RSF/. (Lumberg) male RKT-6/m (Lumberg) female BIDIRECTIONL RSF/. (Lumberg) male RKT-7/m (Lumberg) female Note: Female connectors cable length equal to m. RCOe /.
INSTLLTION NOTES - OTOR TYPE RT - RTE - RTF ounting ny mounting position - Note the position of the case drain port (see below) Install the motor properly - ounting surface must be flat and resistant to bending in. tensile strength of mounting screws to DIN 67 Part class.9 - Note the prescribed fastening torque Pipes, pipe connections Use suitable screws! - Depending on type of motor use either threaded or flange connection Choose pipes and hoses suitable for the installation - Please note manufacturing data! Before operation fill with hydraulic fluid - Use the prescribed filter! Coupling ounting with screws Use thread bore in the drive shaft Take apart with extractor Curved tooth coupling hub Screw to remove the coupling hub Note:Two of the mounting screws must be precisely located/fitted if operation is started and stopped frequently or if high reversible frequencies exist. Low pressure case drain returns to tank DRIN ND FLUSHING LINK INSTLLTION EXPLES Note: Install leakage line in such a way that T = Seal motor cannot run empty. Y = otor housing feeding point = Bleed Note: Install leakage line in such a way that motor cannot run empty. Bleed point Cooling circuits for heavy duty continuous operation *) N Bleed screws for bleeding (on request) (release for bleeding) alternative case drain ports in the first cilinder row at one from another Overhead tank Bleed point Flushing p = bar max with standard shaft seal *) Bleed screw (on enquiry) Choose drain port in order to allow the complete filling of the housing with hydraulic fluid. *) Special designs for applications, where the equipment needs to be filled with oil.(e.g. in a salty atmosphere) RCOe /.
ORDERING CODE - OTOR TYPE RT - RTE - RTF CODE Example: RT 7P - D F S N **. RT 7P - D F S N ** SERIES RT RTF - RTE standard bar max. continuou s expanded bar max. continuou s. RT 7P - D F S N ** SIZE & DISPLCEENT P Q code RT 7 P RTF 78 P RTE 8 Cm 7, 788, 8 87, code RT 9 P RTF 99 P RTE 8 Cm 9, 99, 9 8, code RT Q RTF Q RTE 6 Cm 77 6 code RT 7 Q RTF 8 Q RT 9 Cm 679 8 98 code RTE Q RTF Q RTE Cm 9788 7 P P Q Q Q. RT 7P - D F S N ** SHFT D spline DIN 8 (see page 7) F female spline DIN 8 (see page 7-9). RT 7P - D F S N ** SPEED SENSOR OPTION N none Q encoder drive (see page ) C mechanical tachometer drive (see page ) T tachogenerator drive (see page ) incremental Elcis encoder Uni-directional B ( pulse/rev) (see page ) Bi-directional. RT 7P - D F S N ** SELS N NBR mineral oil F NBR, bar shaft seal V FP seals U no shaft seal (for brake) 6. RT 7P - D F S N ** CONNECTION FLNGE S E metric (see page 6-9) G standard E metric (see page 6-9) E metric special timing (see page 8-9) 7. RT - 7P - D F S N ** ROTTION N standard rotation (CW: inlet in, CCW: inlet in B) S reversed rotation (CW: inlet in B, CCW: inlet in ) 8. RT 7P - D F S N ** SPECIL ** space reserved to PRKER Calzoni RCOe /.
LES ND SERVICE LOCTIONS WORLDWIDE - OTOR TYPE RT - RTE - RTF FOR INFORTION BOUT LES ND SERVICE LOCTIONS PLESE CONTCT: Parker Calzoni S.r.l. Via caduti di sabbiuno /7 nzola dell Emilia Bologna Italy Tel. +9..66 Fax. +9..76 e-mail: infocalzoni@parker.com www.parker.com YOUR LOCL PRKER CLZONI REPRESENTTIVE RCOe /.