www.atos.com Table B80-/E Hydraulic cylinders type CN - round heads with counterflanges to ISO 600- - nominal pressure 6 MPa (60 bar) - max MPa (0 bar) SWC Cylinders Designer Software for assisted selection of Atos cylinders & servocylinders codes, including cylinder s sizing, full technical information, D & 3D drawings in several CAD formats. Available for download at www.atos.com CN cylinders have engineered double acting construction, designed to suit the requirements of industrial applications: top reliability, high performances and long working life. Bore sizes from 0 to 00 mm rod diameters per bore s up to 000 mm Rods with rolled threads 9 standard mounting styles 3 seals options Rod guide rings for low wear Adjustable or fixed cushionings Optional built-in position transducer, see tab. B30 Attachments for rods and mounting styles, see tab. B00 For cylinder s choice and sizing criteria see tab. B0 MODEL CODE CN F - 0 / * 000 - S 3 0 8 A - - BE3XZ3 ** Series number Cylinder series CN to ISO 600 - Rod position transducer - = omit if not requested F = magnetosonic M = magnetosonic programmable N = magnetostrictive P = potentiometric V = inductive Transducer available on request, contact our technical office Bore size, see section from 0 to 00 mm Rod diameter, see sections 7 and 9 from to 0 mm Heads configuration (), see section Oil ports positions B = front head X = rear head Cushioning adjustments positions, to be entered only if adjustable cushionings are selected E3 = front head* Z3 = rear head* * = enter E and Z for mounting style E Options (): Oversized oil ports, see section D = front oversized oil port = rear oversized oil port Rod treatment, see section 9 K =nickel and chrome plating T =induction surface hardening and chrome plating Air bleeds, see section 3 A =front air bleed W =rear air bleed Flange oil ports, see section 3 M = front and rear SAE 6000 flange oil ports, see section up to 000 mm Sealing system, see section = (FKM + ) very low friction and high temperatures = (NBR + ) very low friction and high speeds 8 = (NBR + and POLURETHANE) low friction Mounting style, see sections and A = front round flange B = rear round flange D = fixed eye E = feet L = intermediate trunnion N = front square flange P = rear square flange S = fixed eye + spherical bearing X = basic execution REF. ISO MF3 MF MP3 MS MT () MF MF MP - Spacer, see section 6 0 = none = 0 mm = 00 mm 6 = 0 mm 8 = 00 mm Cushionings, see section 0 0 = none Slow adjustable Slow fixed = rear only 7 = rear only = front only 8 = front only 3 = front and rear 9 = front and rear () To be entered in alphabetical order () XV dimension must be indicated in the model code, see section B80
MOUNTING STLE - for dimensions see section VD WC FC UC A (ISO MF3) = front round flange mounting ZP + stroke FC UC B (ISO MF) = rear round flange mounting F R VD WC TF UF N (ISO MF) = front square flange mounting (not for bores 60-00) F R E X = basic mounting ZP + stroke TF UF P (ISO MF) = rear square flange mounting (not for bores 60-00)
TD UV XV TL TM UM TL L (ISO MT) = intermediate trunnion mounting TE LH EH XS S SS + stroke ZD + stroke S SB TS US E (ISO MS) = side feet mounting EX CX 3 3 EP LT MS XO + stroke S (ISO MP) = fixed eye with spherical bearing mounting EX CD EP LT MS XO + stroke D (ISO MP3) = fixed eye mounting 3 SAE 3000 FLANGE OIL PORTS - DIMENSIONS TO ISO 66- [mm] Ø Bore DN EC EA ±0, EB ±0, ED 6g FF 0 / -, 63 80 3 0 8 7. 38. M8x. 3 ED FF EC EB 00 9 7 89.3 7.6 M0x. 9 EA 60 00 3 37 6.. M0x. SAE 3000 flange not available for bores 0 and 0 B80
E INSTALLATION DIMENSIONS [mm] - see figures in section Ø Bore 0 0 63 80 00 60 00 Standard 36 6 70 90 0 Differential 36 6 70 90 0 0 B / f8/h8 0 60 70 8 06 3 60 00 CD / CX H9/H7 0 3 0 0 63 80 00 D () min 9 9 36 36 D () min 36 36 8 8 E () max 78 9 6 30 8 9 38 EE () G / G / G 3/ G 3/ G G G / G / EE () G 3/ G 3/ G G G / G / G / G / EH max 8 00 0 3 6 96 38 8 EP 8 7 3 0 66 8 EX h 0 3 0 0 63 80 00 F max 80 00 0 3 60 9 NA NA H3 9 3. 7. 6 FC js3 06 6 6 00 3 0 30 LH h0 3 6 70 8 00 9 LT min 3 0 0 63 7 90 MS max 3 0 0 63 7 90 MT [Nm] (3) 0 78 37 78 37 6 7 7 js3 6 0 3 3 3 36 0 PJ () 97 7 3 6 7 9 R js3 0.6 8.. 63. 76. 90. NA NA S js3 3 3 0 0 6 60 7 SB H3 8 6 33 33 39 SS () 83 99 36 93 3 36 7 TD f8 0 3 0 0 63 80 00 TE js3 78 9 6 30 8 9 38 TF js3 98 6. 3. 8.8 7. NA NA TL js3 6 0 3 0 0 63 80 TM h 90 0 0 3 60 9 0 9 TS js3 00 0 0 70 0 9 30 UC max 8 70 9 38 7 36 38 UF max 0 60 8 NA NA UM 70 99 0 9 366 US max 0 80 0 0 300 30 UV 90 08 0 80 9 0 333 VD 3 WC () 6 8 0 30 3 XO () 3 7 9 33 39 0 6 XS () 9. 9 3 3 3 36 39 minimum stroke for style L XV () 8 90 0 3 70 90 min 60 90 90 30 0 () max 00+stroke 0+stroke 0+stroke +stroke +stroke +stroke 70+stroke 30+stroke Ø Rod () ZD ZP () ZJ () 7 06 90 7 37 0 8 6 9 9 90 0 08 30 33 300 38 37 3 3 30 06 370 90 90 0 NOTES TO TABLE () D, EE - Oil ports are threaded according to GAS standard with counterbore dimension D according to ISO 79- (see figure below). When oversized oil ports are selected (D = front oversized oil ports, = rear oversized oil ports) dimensions D and EE are respectively modified into D and EE D EE ) E - If not otherwise specified in the figures in section, this value is the front and rear round heads dimension for all the mounting styles (see figure above) (3) MT - Screws tightening torque. Mounting screws must be to a minimum strength of ISO 898/ grade.9 () XV - For cylinders with mounting style L the stroke must always exceed the minimum values reported in the table. The requested XV value must be included between XV min and XV max and it must be always indicated, with dimension in millimeters, together with the cylinder code. See the following example: CN - 0 / * 000 - L308 - A - BE3XZ3 XV = 00 () The tolerance is according to the table below Mounting dimensions ZJ, ZP, XO, WF, WC, XV, SS, PJ XS, stroke < 0 ±, ± 0 > stroke < 30 ±3 ± stroke > 30 ± ±8 STROKE SELECTION has to be selected a few mm longer than the working stroke, to prevent to use the cylinder heads as mechanical stroke-end. Maximum stroke: 000 mm tolerances: 0 + mm for strokes up to 0 mm 0 + mm for strokes from 0 to 30 mm 0 +8 mm for strokes over 30 mm 6 SPACER For strokes longer than 000 mm, proper spacers have to be introduced in the cylinder s construction to increase the rod and piston guide and to protect them from overloads and premature wear. Spacers can be omitted for cylinders working in traction mode. The introduction of spacers increases the overall cylinder s dimensions: spacers lenght has to be added to all stroke dependent dimensions in section. Spacer RECOMMENDED SPACERS [mm] 00 0 00 0 00 000 00 000 Spacer code 6 8 Length 0 00 0 00 3 7 ROD END DIMENSIONS [mm] Ø Bore 0 0 63 80 00 60 00 VE max 9 9 36 37 37 WF 3 38 7 60 66 7 Ø Rod Standard 36 6 70 90 0 A WF VE A max 36 6 63 8 9 CH KK 6g 9 M6x, M0x, 30 M7x 39 M33x 8 Mx 6 M8x 80 M6x3 00 M80x3 B f8 MM KK Ø Rod Differential 36 6 70 90 0 0 CH A max 36 6 63 8 9 CH 30 39 8 6 80 00 KK 6g M0x, M7x M33x Mx M8x M6x3 M80x3 M00x3
8 CLINDER S HOUSING FEATURES The cylinder s housings are made in cold drawn and stressed steel with Rs = 0 N/mm ; the internal surfaces are lapped: diameter tolerance H8, roughness Ra 0, µm. 9 RODS FEATURES and options The rods materials have high strength, which provide safety coefficients higher than in static stress conditions, at maximum working pressure. The rod surface is chrome plated: diameter tolerances f7, roughness Ra 0, µm. Corrosion resistance of 00 h in neutral spray to ISO 97 NSS. ø Rod Material Rs min [N/mm ] 90 hardened and tempered alloy-steel 700 0 0 alloy steel 0 Rod diameters from to 70 mm have rolled threads; in rolling process the component material is stressed beyond its yield point, being deformed plastically. This offers many technical advantages: higher profile accuracy, improved fatigue working life and high wear resistance. See tab. B0 for the calculation of the expected rod fatigue life. Contact our technical office in case of heavy duty applications. Rod corrosion resistance and hardness can be improved selecting the options K and T (option K affects the strength of standard rod, see tab. B0 for the calculation of the expected rod fatigue life): K = Nickel and chrome-plating (for rods from to 0 mm) Corrosion resistance (rating 0 to ISO 09): 30 h in acetic acid salt spray to ISO 97 AASS 000 h in neutral spray to ISO 97 NSS T = Induction surface hardening and chrome plating 6-60 HRC (63-697 HV) hardness 0 CUSHIONINGS Chrome min thickness [mm] hardness [HV] 0,00 80-0 Cushionings are recommended for applications where: the piston makes a full stroke with speed over than 0,0 m/s; it is necessary to reduce undesirable noise and mechanical shocks; vertical application with heavy loads. The stroke-end cushionings are hydraulic dampers specifically designed to dissipate the energy of the mass connected to the cylinder rod, by progressively increasing the pressure in the cushioning chamber and thus reducing the rod speed before the cylinder s mechanical stroke-end (see the graphics at side). See the tab. B0 for the max damping energy. When fast adjustable versions are selected, the cylinder is provided with needle valve to optimize cushioning peformances in different applications. The regulating screws are supplied fully screwed in (max cushioning effect). In case of high masses and/or very high operating speeds it is recommended to back them off to optimize the cushioning effect. The adjustment screw has a special design to prevent unlocking and expulsion. The cushioning effect is highly ensured even in case of variation of the fluid viscosity. ROD-PISTON COUPLING The rod and piston are mechanically coupled by a threaded connection in which the thread on the rod is at least equal to the external thread KK, indicated in the table 7. The piston is screwed to the rod by a prefixed tightening torque in order to improve the fatigue resistance. The stop pin y avoids the piston unscrewing. Lf is the total cushioning lenght. When the stroke-end cushionings are used as safety devices, to mechanically preserve the cylinder and the system, it is advisable to select the cylinder s stroke longer than the operating one by an amount equal to the cushioning lenght Lf; in this way the cushioning effect does not influence the movement during the operating stroke. Lf Lf Ø Bore 0 0 63 80 00 60 00 Ø Rod 36 36 6 6 70 70 90 90 0 0 0 -end Cushioning Lf front 9 9 9 7 7 6 6 7 7 3 3 3 9 9 length [mm] Lf rear 30 30 3 3 3 6 6 Speed POSITION OF THE OIL PORTS AND CUSHIONING ADJUSTMENTS FRONT HEAD: B = oil port position; E* = cushioning adjustment position REAR HEAD: X = oil port position; Z* = cushioning adjustment position. The oil ports and cushioning adjustments positions are available, respectively, on sides and 3 for all styles except E (see the figure at side): the style E has the cushioning adjustments on side. Cushioning adjustment positions E*, Z* have to be entered only if adjustable cushionings are selected. 3 Example of model code: CN-0/ *000-S308 - A - BE3XZ3 Pressure With cushioning Without cushioning -end SEALING SSTEM FEATURES Sealing system Material FKM + NBR + Features very low friction and high temperatures very low friction and high speeds Max speed [m/s] Fluid temperature range -0 C to 0 C -0 C to 8 C Fluids compatibility Mineral oils HH, HL, HLP, HLP-D, HM, HV, MIL-H-606 fire resistance fluids HFA, H, HFC (water max %) HFD-U, HFD-R Mineral oils HH, HL, HLP, HLP-D, HM, HV, MIL-H-606 fire resistance fluids HFA, HFC (water max %), HFD-U ISO Standards for seals Piston Rod NBR + + 8 low friction -0 C to 8 C Mineral oils HH, HL, HLP, HLP-D, HM, HV, MIL-H-606 ISO 7/ ISO 7/ POLURETHANE The sealing system must be choosen according to the working conditions of the system: speed, operating frequencies, fluid type and temperature. Additional verifications about minimum in/out rod speed is warmly suggested, see tab. B0. Seals 8 Special sealing system for low temperature, high frequencies (up to 0 Hz), long working life and heavy duty are available, see tab. TB00. All the seals, static and dynamic, must be periodically replaced: proper spare kits are available, see section 7. Contact our technical office for the compatibility with other fluids not mentioned below and specify type and composition. Seals, See section for fluid requirements. operating pressure - bar Friction pressure - bar ISO 7/ ISO 7/ ISO 7/ ISO 7/ 3 AIR BLEEDS CODES: A = front air bleed; W = rear air bleed The air in the hydraulic circuit must be removed to avoid noise, vibrations and irregular cylinder s motion: air bleed valves are recommended to realize this operation easily and safely. Air bleeds are positioned on side 3 for all styles except E: the style E has the air bleeds on side, see section. For a proper use of the air-bleed (see figure on side) unlock the grub screw y with a wrench for hexagonal head screws, bleed-off the air and retighten as indicated in table at side. Ø Bore 0-00 Screwing M8 x 0 Tightening torque 0 Nm FLUID REQUIREMENTS Cylinders and servocylinders are suitable for operation with mineral oils with or without additives (HH, HL, HLP, HLP-D, HM, HV), fire resistant fluids (HFA oil in water emulsion - 90-9% water and -0% oil, H water in oil emulsion - 0% water, HFC water glycol - max % water) and synthetic fluids (HFD-U organic esters, HFD-R phosphate esters). The fluid must have a viscosity within and 00 mm /s, a temperature within 0 and 70 C and fluid contamination class ISO 9/6 according to ISO 06, achieved with in-line filters at µm. B80
CLINDERS MASSES [kg] (tolerance ± %) MASS FOR STLE X ADDITIONAL MASSES according to mounting styles and options Ø Bore [mm] Ø Rod [mm] 00 mm Each 00 mm more Styles A, B Style E Style L Styles N, P Styles D, S Front cushioning Rear cushioning Each 0 mm spacer 0 7,36 7,60,8,36,6,6,8 0,8 0,9 0,09 0,0 0,93 0 36,0,,86 3,80,87, 0,6 0,0 0,80,30 63 80 00 60 00 36 6 6 70 70 90 90 0 0 0 9,0 0,0 8,0 9,0 76,0 78,0 6,0 33,0 38,30,7,87 3,,6,73 7,6 9,3,7 3,93 8,3,9 3,,6 7,76 9,76,,66,80 9,0,7,68 38,6 63,36, 6,79 0,36 8, 3 8,88,70,30,96 8,08 NA NA,3,36,76 7,,6 3,0 0,30 0,0 0,80,0,70,0,0 3,97,78,3 6,93,3 7,7 Note: the masses related to the other options, not indicated in the table, don t have a relevant influence on the cylinder s mass 6 CLINDER SECTION 3 6 7 8 9 0 6 9 3 6 7 8 9 0 3 6 7 POS. DESCRIPTION MATERIAL POS. DESCRIPTION MATERIAL POS. DESCRIPTION MATERIAL 3 6 7 8 9 0 Rod Wiper Rod seal Screw Anti-extrusion ring Front cushioning piston Piston Piston seal Chrome plated steel NBR / FKM and NBR / FKM and class.9 NBR / FKM NBR / FKM NBR / FKM and 3 6 7 8 9 0 Piston guide rings Screw stop pin Rod guide rings Anti-extrusion ring Anti-extrusion ring Seeger Seal Front head Phenolic resin FKM FKM FKM / Cast iron 3 6 7 9 Counterflange Cushioning adjustment screw Cushioning adjustment plug Cylinder housing Rear cushioning sleeve Toroidal ring Rear head Screw Rear cushioning piston Bronze / Cast iron class.9 7 SPARE PARTS - SEE TABLE SP-B80 Example for seals spare parts code G 8 - C N - 0 / Sealing system Cylinder series Bore size [mm] Rod diameter [mm] 06/7