Nitrogen gas cylinders

Nitrogen gas cylinders

X 2/3 D CD FILES Z Y MoellerSpecial Springs offer a free 2D and 3D native CD files ON LINE for all software formats. Simply connect to www.specialsprings.com or www.moellerpunch.com and go straight to the MoellerSpecialsprings CD Library. 2

MOUNTING SPECIFICTIONS RECOMMENDTIONS PRINTING DTE 3 26 3H void any mechanical working on the body or the rod CUTION Before throwing out any gas spring assure that all residual pressure is completely exhausted CUTION In case of any damage of gas spring structure before handling exhaust all residual pressure 147

RECTNGULR WIRE DIE SPRINGS ISO 1243 COLORS & SIZES INCH ND METRIC SIZES JIS JPNESE INDUSTRIL STNDRD DIE SPRINGS METRIC ONLY OVL WIRE DIE SPRINGS ISO COLOR CODING INCH ND METRIC SIZES CORPORTE HEDQURTERS MOELLER MNUFCTURING COMPNY 43938 PLYMOUTH OKS BLVD. PLYMOUTH, MICHIGN 48172584 U.S.. LOCL ( 734 ) 416 TOLL FREE 185217613 FX ( 734 ) 41622 BRNCH OFFICE MOELLER MNUFCTURING COMPNY 7116 CROSSRODS BLVD. BRENTWOOD, TENNESSEE 3727 U.S.. LOCL ( 615 ) 3733431 TOLL FREE 18227719 FX ( 615 ) 371919 Visit us on the web @ www.moellerpunch.com NITROGEN CYLINDER CT NO 3 Rev. 3/26

The aim of this catalog is to offer the users knowledge of Moeller Special Springs gas cylinders. MoellerSpecial Springs gas cylinders are setting the new standard for all users. Futhermore, MoellerSpecial Springs offer, free of charge, the first calculation and selection software to come onto the market ensuring an easy and correct choice of cylinders. This configurator is available and ready to use at www.specialsprings.com. MoellerSpecial Springs gas cylinders are distributed through an international network of distributors and dealers, each ready to provide the best possible service avaiable. MoellerSpecial Springs strives to be a dynamic company, flexible and able to satisfy its customers by keeping in step with their developments and needs. MoellerSpecial Springs are working in compliance with ISO 9 quality system norms for continuous improvement of services. The goal is to be recognized as the leading operator in its field, with the ambition of supporting all the parties involved for mutual benefits. ll MoellerSpecial Springs gas cylinders are designed, manufactured and inspected in accordance with good engineering practice and fall within the PED (Pressure Equipment Directive) stipulated by the Council of the European Community. Specifically, rt. 3 of Directive 97/23/CE defines, when the fluid volume is > 1dm3 and PS x V is > 5 bar x dm3 or when PS > 1 bar, all gas cylinders must satisfy all requirements defined in nnex I to the European Directive and must be marked CE. 3

NITROGEN CYLYNDERS WHY? MORE SPRING FORCE IN LESS SPCE e.g: one K4725 compact cylinder dia. 2.95 (75 mm), stroke.98 (25 mm) against 14 springs, G5x35 extra heavy load, dia. 1.97 (5 mm) with.98 (25 mm) preload. BENEFITS Greater reduction of required surface area, 6.82 in 2 (44 cm 2 )for the cylinder compared to 42.48 in 2 (274 cm 2 ) for the springs. Greater reduction of height, only 5.31 (135 mm) for the cylinder compared to 11.2 (28 mm) for the springs. Greater reduction of volume required, only 36.38 in 3 (596 cm 3 )for the cylinder compared to 486 in 3 (7963cm 3 ) for the springs. Greater reduction in the number of retaining devices to preload, guide and seat. None for the cylinder compared to 14 for the springs. RESULT Significant cost savings. THE SME WORKING DEFLECTION IN LESS HEIGHT e.g: one HR38 cylinder dia. 1.26 (32 mm) working deflection 3.15 (8 mm), total height 7.48 (19 mm) and a final force of 1147 lbs (51 dan) against one B63x35 medium load spring, dia. 2.48 (63 mm), working deflection 3.15 (8 mm) as 25% of length for long life, total height of 12 (35 mm) and a final force of 1165 lbs (517,6 dan). 3.15 (8mm) 7.48 (19mm) 3.15 (8mm) 12 (35mm) BENEFITS RESULT Greater height reduction for the same working deflection and force. Compact tool construction. Significant cost savings. 4

NITROGEN CYLYNDERS WHY? LRGE FORCES ON CONTCT e.g: all nitrogen springs provide high and known initial forces on contact from 1 lbs (4.4 dan) for the NE16 22 psi (15 bar) with a body dia. of M16 up to 27 lbs (12 dan) for the K 12 with a body dia. of 4,72 (12 mm). ny mechanical wire compression spring requires a preload to obtain such initial forces. F 1 Ö 27 lbs (4.4 12 dan) F lbs ( dan) BENEFITS No preload required. Easier and quicker installation. RESULT Significant cost savings. BLNCED ND CONTROLLED FORCES e.g: Nitrogen cylinders interconnected by hoses will guarantee a balanced system ensuring equal force in each cylinder. This is not possible using wire springs since their working characteristics are never exactly the same. 5 BENEFITS Consistant force on each contact point. Forces may be located to exact position. System may be continually monitored for pressure. RESULTS Consistant production conditions of parts. Longer life for punches and tools. Significant cost savings.

NITROGEN CYLYNDERS WHY? FORCES MINTINED LMOST CONSTNT e.g: When cylinders are used in an interconnected system the forces may be held almost constant, regardless of deflection, by the use of suitable gas reservoirs or tanks. This is not possible using wire springs since any deflection gives a linear increase in force. F ~ 4725 lbs (2 1 dan) F1 ~ 5175 lbs (2 3 dan) ie.: n.3 H1 5 F ~ 1575 lbs (7 dan) P 145 psi (1 bar) PC1 (pag. 135) BENEFIT Maximum control of parts during forming and drawing operations. RESULTS Controlled production conditions on parts. Improved parts quality. Significant cost savings. DJUSTBLE FORCES e.g: The initial force of selfcontained (or singly used) cylinders can be adjusted by changing the gas pressure while for system operated cylinders, this can be done through a control console max pressure 2175 psi (15 bar). Wire springs cannot be adjusted in any way. DM DM N 2 N 2 BENEFITS Cylinders to provide the actual forces required. ssurance of defined forces. The same cylinder may be reused for different power application. RESULTS Flexible usage. Significant cost savings. Reduction of inventory 6

GENERL INFORMTION i LIFE Extended lifetime is guaranteed by the construction design and by using only the best materials and components available. Fundamental features include the treatments NITRIDING ND LPPING (introduced for the first time by Special Springs) on the work surfaces with hardness up to HV 12 and max. roughness Ra..5µ. further advantage of Special Springs SC and H series cylinders is the design with DOUBLE PERMNENT LUBRI CTION, as well as use of SELFLUBRICTING GUIDE ELEMENTS. The minimum lifetime of the cylinders, as shown in the relative graphs, is to be considered a guideline only and refer to the recommended operating conditions. Obviously cylinder performance can vary considerably according to the effective operating conditions and correct use. Do not machine or alter the body or piston rod. Do not apply any shock impact on the sliding surface of the rod. Prevent contaminating solids and aggressive liquids. Do not charge with gases other than nitrogen (N 2 ). Refrain from loading pressure values over specified maximum. lways ensure free return of rod after compression. Refrain from working stroke above rated value. Do not disassemble/maintenance with cylinders under pressure. Charge with pistonrod not completely retracted For optimal performance it is always reccommended to not exceed 9% of nominal stroke. lways secure the cylinders. lways ensure the rod is perpendicular to the contact surface. The rod head must always be in contact with the pressure surface. Preload the cylinders by at least.4 (1 mm) when possible. Maximum fluid temperature 176 F (8 C). Nonaggressive supplementary lubrication of the cylinder rod. FORCE The initial force (F) specified for each model refers to standard loading pressure and fluid temperature at approx. 176 F (8 C). The final force (F1) specified on the table refers to the average value. The specific graph also illustrates the approximate curve for each model. Different initial forces are easily set with loading pressures other than the standard value, and can be calculated as follows: F S x P1 F S P1 nominal initial force rod or piston section area charging pressure 7 MINTENNCE Possible on all Special Springs cylinders. For obvious reasons of cost, maintenance is recommended only for cylinders with diameters equal to or greater than 1.97 (5 mm). complete range of special tools and accessories is available for simple and optimal use, to ensure total efficiency while restoring cylinders to new conditions also when the working surfaces are relapped (procedure always recommended).

Index Index Series (lb.) Force (dan) 95 42 23 9 382 17 45 2 562.5 25 675 3 9 1125 4 5 1575 169 7 75 M NE Mini cylinders Gas ejectors Ø Cu (inch) (mm) (inch) (mm) M16x1,5.393.94 11.75 19.273.15 78 M24x1,5.393.94 11.98 25.394.92 1125 SC SCF ISO 1191 Standard Ø Cu (inch) (mm) (inch) (mm) 1.26 32.394.92 1125 1.5 38 M38x1,5.394.92 1125 1.77 45 M45x1,5.516.3 1316 1.97 5 M5x1,5.5111.81 133 H HF ISO Standard sizes High force Ø Cu (inch) (mm) (inch) (mm) 1.26 32.394.92 1125 1.5 38 M38x1,5.394.92 1125 1.77 45 M45x1,5.516.3 1316 HR HRF Shortest profile Higher force Ø Cu (inch) (mm) (inch) (mm).98 25.21.26 532 1.26 32.24.92 5125 1.5 38 M38x1,5.24.92 5125 1.77 45 M45x1,5.394.92 1125 LI Low pressure increase Ø Cu (inch) (mm) (inch) (mm) 1.77 45.513.94 131 K Maximum forces Piston sealed Ø Cu (inch) (mm) (inch) (mm).98 25.391.97 15 1.26 32.391.97 15 ML Maximum force Rod sealed Ø Cu (inch) (mm) (inch) (mm).98 25.393.15 18 1.26 32.393.15 18 LS Zero force on contact Ø Cu (inch) (mm) (inch) (mm) Non selfcontaining cylinders ccessories / Maintenance Mounting specifications / Recommendations 8

Index 9 225 225 9 1 315 3375 14 15 45 45 18 2 54 24 675 72 3 32 945 42 1575 1125 47 5 1485 66 16875 17325 75 77 225 1 2655 28575 118 127 41175 183 2.95 75.9811.81 253 3.74 95.9811.81 253 4.72 12.9811.81 253 5.9 15.9811.81 253 7.68 195.9811.81 253 1.97 5 M5x1,5.5111.81 133 2.95 75.9811.81 253 3.74 95.9811.81 253 4.72 12.9811.81 253 1.97 5 M5x1,5.394.92 1125 2.48 63.394.92 1125 2.95 75.394.92 1125 3.74 95.634.92 16125 4.72 12.634.92 16125 5.9 15.754.92 19125 2.48 63.984.92 25125 2.95 75.984.92 25125 3.74 95.984.92 25125 4.72 12.984.92 25125 1.5 38.241.97 65 1.97 5.241.97 65 2.95 75.391.97 15 3.74 95.391.97 15 4.72 12.391.97 15 5.9 15.391.97 15 1.5 38.393.15 18 1.97 5.593.15 158 2.95 75.593.15 158 3.74 95.593.15 158 4.72 12.593.15 158 2.95 75.9811.81 253 2.95 75.9811.81 253 3.74 95.9811.81 253 3.74 95.9811.81 253 I N D EX

M NE GENERL INFORMTION RNGE Body diameters: from M16 to 25 mm (.98 ) Forces: from 6.3 lbs. (2.8 dan) to 45 lbs. (2 dan) Strokes: from.275 (7 mm) to 4.92 (125 mm) BODY One piece construction for greater safety (except M) Black oxided ROD One piece construction for greater safety Nitrided surface with hardness ab. 12 HV for maximum durability, no wearing for optimum life of seal Lapped surface mirror like with roughness Ra,5µ for maximum performances, smoothest friction, lower over all temperature, longer lasting and less wear to the seal GUIDE & SEL Nonmetallic selflubricating guide elements for lower friction, longer lasting and minimize side loading Wiper rod to protect inside room from contaminants Polyurethane dynamic rod seal USE Self contained LODING PRESSURE Minimum allowed 145 psi (1 bar) Maximum allowed 261 psi (18 bar) SPEED The maximum recommended speed (cycles/minute) and the minimum estimated life are easily indicated by specific graphs for each model Series ØD Cu L F Page inch mm inch mm inch mm lb. dan M9 M2 NE 16 NE 24 Mounting specifications Recommendations.75.98 19 25 M16 M24.28 4.92.39 4.92.39 3.94.39 3.94 7 125 1 125 1 1 1 1 2.2 8.7 2.44 11.61 3.15 1.24 3.15 1.24 11.61 295 62 295 8 26 8 26 1123 3845 6.395 25383 59 172 2.842 1117 12 14 15 16 17 1

M 9/2 force rating color code rod wiper one piece rod rod seal M NE selflubricating guide element one way valve body ORing seal retaining ring end plug NE 16/24 one piece rod rod wiper selflubricating guide element retaining ring ORing seal rod seal one piece body one way valve 11 nut charging hole plug

M 9 Code Cu L Lmin Weight S P F Force ±5% F1 inch. mm inch. mm inch. mm ~lb. ~Kg in. 2 cm 2 psi bar lb. dan lb. dan M 9 7...28 M 9 1...39 M 9 15...59 M 9 25...98 7 1 15 25 2.2 2.44 2.83 3.62 56 62 72 92 1.93 2.5 2.24 2.64 49 52 57 67.16.16.18.2,7,7,8,9 OR PR GR BU.8,52 145 29 87 145 1 2 6 1 11 22 68 113 5 1 3 5 16 29 11 169 7 13 45 75 M 9 38.. 1.5 38 4.65 118 3.15 79,9.24,11 RD 23 14 158 7 236 15 M 9 5.. 1.97 5 5.59 142 3.62 92.27,12 YW 261 18 23 9 34 135 M 9 63.. 2.48 63 6.77 172 4.29 19.31,14 BK djustable 145 261 1 18 11 23 59 16 34 7135 M 9 8.. 3.15 8 8.7 25 4.92 125.33,15 M 9 1.. 3.94 1 9.65 245 5.71 145.38,17 S rod section area M 9 125.. 4.92 125 11.6 295 6.69 17.44,2 P nominal charging pressure ISO 11911 1 F nominal initial force F1 average final force 1,5 x Fo 1,4 x Fo Force (lbs. dan) 1,3 x Fo 1,2 x Fo 1,1 x Fo Fo.28.39.59.98 1.5 1.97 2.48 3.15 3.94 4.92 Force (lbs. dan) / stroke (inch) diagram 3.5 14 3 12 ÿ Cycles (in millions) 2.5 2 1.5 1 1 8 6 4 Cycles / min..5 2 cod. FC19 (VDI 33 ISO 11912) Ordering example: (1) M 9 5 YW ll dimensions are nominal unless tolerance is stated.28.39.59.98 1.5 1.97 2.48 3.15 3.94 4.92 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 12

M 9 TBM / TBI / TEM Code M 9 7.. T.. M 9 1.. T.. M 9 15.. T.. M 9 25.. T.. M 9 38.. T.. M 9 5.. T.. M 9 63.. T.. M 9 8.. T.. M 9 1.. T.. M 9 125.. T...28.39.59.98 1.5 1.97 2.48 3.15 3.94 4.92 Cu L Lmin inch. mm inch. mm inch. mm 7 1 15 25 38 5 63 8 1 125 TBM Metric Thread M24 x 1.5 2.2 2.44 2.83 3.62 4.65 5.59 6.77 8.7 9.65 11.6 56 62 72 92 118 142 172 25 245 295 1.93 2.5 2.24 2.64 3.15 3.62 4.29 4.92 5.71 6.69 49 52 57 67 79,9 92 19 125 145 17 CUTION Do not exceed 9% of nominal stroke TBI Inch Thread 1 x 8 Installation and Removal Tool (for TBM and TBI versions) cod. TBT (optional) TEM Metric Thread M24 x 1.5 M NE 1.64 42,47 12 1.69 43,54 14 1.64 42,47 12 1.42 36 M 24 x 1,5 1.5 38 1" 8 1.42 36 M 24 x 1,5 cod. TBMJN (optional) cod. TBIJN (optional) cod. TBMJN (optional) Ordering example: Ordering example: Ordering example: 13 (1) M 9 5 YW TBM (1) M 9 5 YW TBI (1) M 9 5 YW TEM ll dimensions are nominal unless tolerance is stated

M 2 Code Cu L Lmin Weight S P F Force ±5% F1 inch. mm inch. mm inch. mm ~ lb. ~ Kg in. 2 cm 2 psi bar lb. dan lb. dan M 2 1...39 1 2.44 62 2.5 52.29,13 OR 218 15 38 17 56 25 M 2 13...51 13 2.65 67,4 2.15 54,7.29,13 PR 362 25 63 28 9 4 M 2 15...59 M 2 25...98 15 25 2.83 3.62 72 92 2.24 2.64 57 67.31.36,14,16 GR BU 653.17 1,13 135 45 9 113 225 5 1 18 371 8 165 M 2 38.. 1.5 38 4.65 118,2 3.15 8,1.4,18 RD 1958 135 338 15 551 245 M 2 5.. 1.97 5 5.59 142 3.62 92.44,2 YW 261 18 45 2 731 325 M 2 63.. 2.48 63 6.77 172 4.27 18,5.51,23 BK djustable 145/261 1/18 25/45 11/2 56/732 25/325 M 2 8.. 3.15 8 8.7 25 4.92 125.58,26 M 2 1.. 3.94 1 9.65 245 5.71 145.67,3 S rod section area P nominal charging pressure M 2 125.. 4.92 125 11.61 295 6.69 17.78,35 F nominal initial force ISO 11911 F1 average final force 1,6 x Fo 1,5 x Fo Force (lbs. dan) 1,4 x Fo 1,3 x Fo 1,2 x Fo 1,1 x Fo Fo.39.59.98 1.5 1.97 2.48 3.15 3.94 4.92.51 Force (lbs. dan) / stroke (inch) diagram 3.5 14 3 12 Cycles (in millions) 2.5 2 1.5 1 1 8 6 4 Cycles / min..5 2 cod. FC25 (VDI 33 ISO 11912) Ordering example: (1) M 2 1 YW ll dimensions are nominal unless tolerance is stated.39.59.98 1.5 1.97 2.48 3.15 3.94 4.92.51 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 14

NE 16 Code NE 16 1 NE 16 2 NE 16 3 NE 16 4 NE 16 5 NE 16 6 NE 16 7 NE 16 8 NE 16 1 S rod section area P nominal charging pressure F nominal initial force F1 average final force Cu L Lmin S P F F1 ±5% inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan.39.79 1 2 3.15 3.94 8 1 2.75 3.15 7 8 1.18 3 4.72 12 3.54 9 145 1 6.3 2.8 13.5 6 1.57 4 5.51 14 3.94 1 min. min. min. min. min. min. 1.97 5 6.3 16 4.33 11.4,282 2.36 2.76 3.15 3.94 6 7 8 1 7.9 7.87 8.66 1.24 18 2 22 26 4.72 5.12 5.51 6.3 12 13 14 16 2175 max. 15 max. 95 max. 42 max. 137 max. 61 max. Weight ~ lb. ~ Kg.15,7.18,8.2,9.2,9.22,1.22,1.24,11.27,12.29,13 M NE 1.5 x Fo 1.4 x Fo Force (lbs. dan) 1.3 x Fo 1.2 x Fo 1.1 x Fo Fo.39.79 1.18 1.57 1.97 2.36 2.76 3.15 3.94 Force (lbs. dan) / stroke (inch) diagram 3.5 14 3 12 Cycles (in millions) 2.5 2 1.5 1 1 8 6 4 Cycles / min. cod. D M16 (optional) cod. C M16 (optional).5 2 15 Ordering example: (1) NE 16 5 ll dimensions are nominal unless tolerance is stated.79 1.18 1.57 1.97 2.36 2.76 3.15 3.94.39 Minimum estimated life (cycles x million) Maximum recommended speed (cycles / min.)

NE 24 Code NE 24 1 NE 24 2 NE 24 3 NE 24 4 NE 24 5 NE 24 6 NE 24 7 NE 24 8 NE 24 1 S rod section area P nominal charging pressure F nominal initial force F1 average final force Cu L Lmin S P F F1 ±5% inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan.39.79 1 2 3.15 3.94 8 1 2.75 3.15 7 8 1.18 3 4.72 12 3.54 9 145 1 25 11 16 47 1.57 4 5.51 14 3.94 1 min. min. min. min. min. min. 1.97 5 6.3 16 4.33 11.17 1,13 2.36 6 7.9 18 4.72 12 2175 15 383 17 776 345 2.76 3.15 3.94 7 8 1 7.87 8.66 1.24 2 22 26 5.12 5.51 6.3 13 14 16 max. max. max. max. max. max. Weight ~ lb. ~ Kg.4,18.44,2.49,22.55,25.6,27.64,29.69,31.71,32.82,37 2.2 x Fo 2. x Fo Force (lbs. dan) 1.8 x Fo 1.6 x Fo 1.4 x Fo 1.2 x Fo Fo.39.79 1.18 1.57 1.97 2.36 2.76 3.15 3.94 Force (lbs. dan) / stroke (inch) diagram 3.5 14 3 12 Cycles (in millions) 2.5 2 1.5 1 8 6 Cycles / min. 1 4 cod. D M24 (optional) cod. C M16 (optional).5 2 Ordering example: (1) NE 24 5.79 1.18 1.57 1.97 2.36 2.76 3.15 3.94.39 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) ll dimensions are nominal unless tolerance is stated 16

MOUNTING SPECIFICTIONS RECOMMENDTIONS M9/2 4 Nm max Cu max 9% Cu > 9% Cu 9 9 LOCTITE min 1,5 x M LOCTITE M M NE bar Do not release rod uncontrolled when returning P max 18 bar CUTION Do not exceed maximum recommended pressure of 261 psi (18 bar) when charging, unless otherwise stated 1% Cu < Cu F C 176 8 N 2 MX CUTION ssure the rod is 1% extracted when charging. When charging cylinders missing threaded hole at the rod end, initially fill with limited pressure of 75 psi (5 bar) to extract the rod completely; then charge to required pressure. CUTION lways wear safety glasses when exhausting a gas spring void any mechanical working on the body or the rod,5 1, mm CUTION Before throwing out any gas spring assure that all residual pressure is completely exhausted CUTION In case of any damage of gas spring structure before handling exhaust all residual pressure CUTION It is recommended a little preload for maximum performances. +1, D +,5 Lmin > L min / 2 X EE 17 D ±,2 8 max ll dimensions are nominal unless tolerance is stated

SC ISO 1191 GENERL INFORMTION BODY One piece construction for greater safety Internal surface burnished for maximum efficiency of static ORing Black oxided ROD One piece construction for greater safety Nitrided surface with hardness ab. 12 HV for maximum durability, no wearing for optimum life of seal Lapped surface mirror like with roughness Ra,5µ for maximum performances, smoothest friction, lower over all temperature, longer lasting and less wear to the seal BUSHING / GUIDE & SEL One piece construction Two nonmetallic selflubricating guide elements for lower friction, longer lasting and minimize side loading Wiper rod to protect inside room from contaminants Polyurethane dynamic rod seal Permanent selflubricating circular room for maximum lubricating and smoother working conditions of the rod seal for greater life Cstyle retaining ring ensures operator safety and prevents from opening a charged cylinder Designed and built for easy, rapid and inexpensive maintenance LUBRICTION Double permanent selflubrication to maximize working performances in any position and minimize over heating anytime USE Self contained Hose system: for this application the cylinders are easily converted by removing the protective screw, locking nut and one way valve LODING PRESSURE Minimum allowed 29 psi (2 bar) Maximum allowed 2175 psi (15 bar) For hose applications it is suggested to calculate the forces by charging at about 145 psi (1 bar). In this case the user can adjust the required force by increasing charging pressure up to the maximum allowed of 2175 psi (15 bar) anytime SPEED LIFETIME The maximum recommended speed (cycles/minute) and the minimum estimated life are easily indicated by specific graphs for each model 18

one piece rod permanent selflubrication chamber rod wiper retaining ring SC SCF selflubricating guide elements ORing seal bushing rod seal one piece body charging hole plug nut one way valve Series ØD Cu L F Page inch mm inch mm inch mm lb. dan 19 SC 15 SC 25 SC 5 SC 75 SC 15 SC 3 SC 5 SC 75 SC 1 1.26 1.5 1.77 1.97 2.95 3.74 4.72 5.91 7.68 32 38 45 5 75 95 12 15 195.39 4.92.39 4.92.51 6.3.51 11.81.98 11.81.98 11.81.98 11.81.98 11.81.98 11.81 1 125 1 125 13 16 13 3 25 3 25 3 25 3 25 3 25 3 2.76 11.81 2.76 11.81 4.35 15.94 4.74 27.36 6.3 27.95 6.69 28.35 7.48 29.13 8.7 29.72 8.27 29.92 7 3 7 3 11,4 45 12,4 695 16 71 17 72 19 74 25 755 21 76 383 585 158 1665 3375 675 1125 16875 2385 17 26 47 74 15 3 5 75 16 2 22 24 26 28 3 32 34 33

SC 15 ISO11911 Code Cu L Lmin S P F F1 Weight inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan ~ lb. ~ Kg SC 15 1 SC 15 13 SC 15 16 SC 15 25 SC 15 38 SC 15 5 SC 15 63 SC 15 8 SC 15 1 SC 15 125.39.51.63.98 1.5 1.97 2.48 3.15 3.94 4.92 1 13 16 25 38 5 63 8 1 125 2.76 2.97 3.23 3.94 4.96 5.91 6.97 8.27 9.84 7 75,4 82 1 126 15 177 21 25 11.81 3 2.36 6 2.47 62,7 2.6 66 2.95 75 3.46 88 3.94 1 4.47 113,5 5.12 13 5.91 15 6.89 175.18 1,13 2175 15 383 17 45 2 (±5%).62.64.65.73.79.87.96 1.8 1.21 1.42,28,29,3,33,36,4,44,49,55,64 ISO 11911 518 23 495 22 M8x6 CHRGING HOLE M6 Force (lbs. dan) 473 45 428 21 2 19.47 Ø 12 45 18 383 17.39.63.98 1.5 1.97 2.48 3.15 3.94 4.92 Cu.8 2.41 1,5.51 Force (lbs. dan) / stroke (inch) diagram ±.1 L ±,25 L min 1.18 Ø 3 R.4 1 4 3.5 3 16 14 12 1.26 ±.1 Ø 32,3 1.6 Ø 27.16 4.14 3,5 Cycles (in millions) 2.5 2 1.5 1 1 8 6 4 Cycles / min..5 2 Ordering example: (1) SC 15 5 ll dimensions are nominal unless tolerance is stated.39.63.98 1.5 1.97 2.48 3.15 3.94 4.92.51 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 2

1.38 35 ISO1191 2 Fixing.27 7 1.97 5 FS2 32 1.12 Ø 28,5.16 4 1.28 Ø 32,5 1.97 5 1.38 35 1.38 35.2 5.26 Ø 6,6 (4x) FC 32 2.36 Ø 6.26 Ø 6,6 (4x) 1.28 Ø 32,5.35 9 1.33 Ø 34.8 Ø 2 1.38 35 SC SCF S rod section area P nominal charging pressure F nominal initial force F1 average final force 21

SC 25 ISO11911 Code Cu L Lmin S P F F1 Weight inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan ~ lb. ~ Kg SC 25 1 SC 25 13 SC 25 16 SC 25 25 SC 25 38 SC 25 5 SC 25 63 SC 25 8 SC 25 1 SC 25 125.39.51.63.98 1.5 1.97 2.48 3.15 3.94 4.92 1 13 16 25 38 5 63 8 1 125 2.76 2.97 3.23 3.94 4.96 5.91 6.97 8.27 9.84 7 75,4 82 1 126 15 177 21 25 11.81 3 2.36 6 2.47 62,7 2.6 66 2.95 75 3.46 88 3.94 1 4.47 113,5 5.12 13 5.91 15 6.89 175.27 1,77 2175 15 585 26 81 36 (±5%).88.9.95 1.6 1.19 1.32 1.45 1.63 1.8 2.18,4,41,43,48,54,6,66,74,81,98 ISO 11911 866.2 385 81 36 M8 x 6 Force (lbs. dan) 753.7 697.5 335 31 CHRGING HOLE M6.59 Ø 15 641.2 285 585 26.39.63.98 1.5 1.97 2.48 3.15 3.94 4.92 L ±.1 ±,25 L min Cu 1.42 Ø 36.8 2 R.4 1.41 1,5 4 3.5 3.51 Force (lbs. dan) / stroke (inch) diagram 16 14 12 1.5 ±.1 Ø 38 ±,3 1.3 Ø 33.16 4.14 3,5 Cycles (in millions) 2.5 2 1.5 1 1 8 6 4 Cycles / min..5 2 Ordering example: (1) SC 25 5 ll dimensions are nominal unless tolerance is stated.39.63.98 1.5 1.97 2.48 3.15 3.94 4.92.51 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 22

1.51 Ø 38,5 1.57 4 ISO1191 2 Fixing FS2 38 1.36 Ø 34,5.27 7.16 4 1.51 Ø 38,5 2.16 55 1.57 4 2.16 55 1.57 4.2 5.26 Ø 6,6 (4x) FC 38 2.68 Ø 68.26 Ø 6,6 (4x).35 9 1.57 Ø 4 Ê.8 Ø 2 1.57 4 SC SCF FCQ 38 1.57 Ø4.26 Ø6,6(4x).35 9 1.52 Ø 38,5 2.5 52 1.57 4.59 Ø 15 CHRGING HOLE M6.8 2 Cu M38 x 1,5 2.2 56 2.5 52 1.57 4 SCF 25 Threaded body cylinders.47 12 L ±,25.11 2,8.2 5 cod. GM 38 L min 1.97 5 M 6 1.14 29 23.16 4,1 1.41 Ø 35,7 M 38 x 1,5.11 2,8.31 8 The SCF are threaded body 25 springs with the same length and force as the SC 25 Ordering example: (1) SCF 25 5 M 38 x 1.5.55 Ø14(4x).35 Ø 9 (4x).31 8.47 12 2.95 Ø 75 1.98 5,3 cod. FC 38

SC 5 ISO11911 Code SC 5 13 SC 5 25 SC 5 38 SC 5 5 SC 5 63 SC 5 8 SC 5 1 SC 5 125 SC 5 16 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in. 3 cm 3.51.98 1.5 1.97 2.48 3.15 3.94 4.92 6.3 13 25 38 5 4.35 5.31 6.34 7.28 11,4 135 161 185 3.85 4.33 4.84 5.31 97,7 11 123 135 1.74 2.61 3.54 4.41 63 8.35 212 5.85 148,5.49 3,14 2175 15 158 47 1576 7 5.34 8 9.65 245 6.5 165 (±5%) 6.52 1 11.22 285 125 13.19 335 16 15.94 45 7.28 185 8.27 21 9.65 245 8.1 9.75 12.3 28 42 57 71 86 15 129 157 198 Weight ~ lb. ~ Kg 1.99,9 2.2 1, 2.43 1,1 2.65 1,2 2.87 1,3 3.9 1,4 3.53 1,6 3.97 1,8 4.63 2,1 ISO 11911 1733 77 CHRGING HOLE G1/8" 1621 72 2 x (M8 x 13) Ø.79 2 Force (lbs. dan) 158 1395 1283 67 62 57 Ø.79 2 M 8 117 52 158 47.51.98 1.5 1.97 2.48 3.15 3.94 4.92 6.3 Cu.8 2.57 14,5 Force (lbs. dan) / stroke (inch) diagram ±.1,25 L Ø 1.7 Ø 43 R.4 1 5 4 32 28 L min.41 1.5 Ø1.57 Ø 4 Ø 1.77 ±.1 Ø 45,3.16 4.14 3,5 Cycles (in millions) 3 2 1 24 2 16 12 8 Cycles / min. 4 Ordering example:.5.98 1.5 1.97 2.48 3.15 3.94 4.92 6.3 (1) SC 5 5 ll dimensions are nominal unless tolerance is stated Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 24

1.97 5 ISO1191 2 Fixing FB 45.59 Ø 15 (4x).59 Ø 15 (2x).55 14.47 12.79 2 2.76 7 1.97 5.35 Ø 9 2.76 7 1.97 5.43 Ø 11.35 Ø 9 (2x).79 Ø 2 FB 45.59 Ø 15 (2x).43 Ø 11 (4x).79 2.55 14.71 Ø 18(4x).35 Ø 9 (2x) 2.75 7 1.97 5 2.75 7 1.97 5.79 Ø 2.47 12 FS2 45 1.63 Ø 41,5.27 7.16 4 1.79 Ø 45,5 2.76 7 1.97 5 2.76 7 1.97 5.35.79 2 Ø 9 (4x) FS2 45 1.63 Ø 41,5.28 7.16 4 1.79 Ø 45,5 2.76 7 2.24 57 1.57 4 1.63 27.98 25.35 Ø 9 (4x) SC SCF.79 Ø 2.8 2 Cu M45 x 1,5 2.4 62 FC 45 3.39 Ø 86.35 Ø 9 (4x) 1.8 Ø 45,5.51 13 1.85 Ø 47.8 Ø 2 1.97 5 FCQ 45 1.85 Ø47.35 Ø9(4x).51 13 1.79 Ø45,5 2.52 64 1.97 5 2.52 64 1.97 5 SCF 5 Threaded body cylinders.48 12.3 L ±,25.11 2,8.2 5 cod. GM 45 L min 25.41 1.5.11 2,8.31 8.16 4,1 CHRGING HOLE G1/8" 1.68 42,7 M 45 x 1,5 The SCF are threaded body 5 springs with the same length and force as the SC 5 Ordering example: (1) SCF 5 5.55 Ø 14 (4x) M 45 x 1.5 M 6.35 Ø 9 (4x).31 8.63 16 3.54 Ø 9 2.36 6 2.36 6 1.34 34 cod. FC 45

SC 75 ISO11911 Code SC 75 13 SC 75 25 SC 75 38 SC 75 5 SC 75 63 SC 75 8 SC 75 1 SC 75 125 SC 75 16 SC 75 2 SC 75 25 SC 75 3 ISO 1191 1 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in. 3 cm 3.51 13 4.74 12,4 4.24 17,7 2.86 46.98 25 5.71 145 4.72 12 3.97 64 1.5 38 6.73 171 5.24 133 5.15 83 1.97 5 7.68 195 5.71 145 6.27 11 2.48 63 8.74 222 6.24 158,5 7.51 121 3.15 8 1.4 255 6.89 175 9. 145.75 4,9 2175 15 1665 74 27 114 3.94 1 11.61 295 7.68 195 1.87 175 (±5%) 4.92 125 13.58 345 8.66 22 13.17 212 6.3 16 16.34 415 1.4 255 16.4 264 7.87 2 19.49 495 11.61 295 2.6 323 9.84 25 23.43 595 13.58 345 24.72 398 11.81 3 27.36 695 15.55 395 29.31 472 315 134 Weight ~ lb. ~ Kg 2.76 1,25 3.64 1,38 3.38 1,53 3.64 1,65 3.97 1,8 4.33 1,96 4.61 2,9 5.14 2,33 5.91 2,68 6.84 3,1 7.95 3,6 9.5 4,1 CHRGING HOLE G1/8" 279 124 2 x (M8 x 13).79 Ø 2 Force (lbs. dan) 2565 234 2115 114 14 94.98 Ø 25 189 84 M 8 Cu 1665 74.51 1.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81.98 1.97 3.15.12 3.57 14,5 Force (lbs. dan) / stroke (inch) diagram 6 ±.1 ±,25 L O 1.81 Ø 46 R.8 2 5 24 2 L min Ê1.69 Ø 43.2 5 Cycles (in millions) 4 3 2 16 12 8 Cycles / min..41 1,5 1.97 ±.1 Ø 5 ±,3.31 8 1 4 Ordering example: (1) SC 75 5 ll dimensions are nominal unless tolerance is stated.5.981.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81 1.97 3.15 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 26

Ê1.99 Ø 5,5 ISO1191 2 Fixing FB 5.59 Ø 15.59 Ø 15.55 14.47 12.79 2 2.95 75 2.22 56,5.35 Ø 9 2.95 75 2.22 56,5.43 Ø 11.35 Ø 9 (2x).79 Ø 2 FB 5 2.95 75 2.22 56,5.79 Ø 2.98 Ø 25 Cu.8 2.59 Ø 15 (2x) M5 x 1,5 2.68 68.43 Ø 11 (4x).47 12.79 2.55 14.71 Ø 18 (4x).35 Ø 9 (2x) 2.95 75 2.22 56,5 FS2 5 1.75 Ø 44,5.47 12.31 8 1.99 Ø 5,5 2.95 75 2.22 56,5 2.95 75 2.22 56,5.94 24.35 Ø 9 (4x) FS2 5 1.75 Ø 44,5.47 12.31 8 1.99 Ø 5,5 2.95 75 2.44 62 1.77 45 1.26 32.98 25.35 Ø 9 (4x) SC SCF FC 5 3.74 Ø 95.35 Ø 9 (4x).51 13 2.12 Ø 54.16 Ø 4 2.22 56,5 2.22 56,5 FCQ 5 2.13 Ø54.35 Ø9(4x).51 13 1.99 Ø5,5 2.75 7 2.22 56,5 2.75 7 2.22 56,5 FS 5.35 Ø 9 (2x) 1.18 3 2.36 6 5.12 13 4.33 11.79 2 1.97 5 3.15 8 1.97 Ø 5 1.57 4 1.48 37,5 3.54 9 M8 SCF 75 Threaded body cylinders.51 12,9 L ±,25.11 2,8.2 5 cod. GM 5 L min 2.6 66 M 6 1.5 38 27.41 1.5.11 2,8.31 8.16 4,1 CHRGING HOLE G1/8" 1,88 47.7 M 5 x 1,5 The SCF are threaded body 75 springs with the same length and force as the SC 75 Ordering example: (1) SCF 75 5 M 5 x 1.5.55 Ø 14 (4x).35 Ø 9(4x).31 8.63 16 3.94 Ø 1 2.6 66 cod. FC 5

SC 15 ISO11911 Code SC 15 25 SC 15 38 SC 15 5 SC 15 63 SC 15 8 SC 15 1 SC 15 125 SC 15 16 SC 15 2 SC 15 25 SC 15 3 ISO 1191 1 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in. 3 cm3.98 25 6.3 16 5.31 135 9.38 151 1.5 38 7.32 186 5.83 148 12.5 194 1.97 5 8.27 21 6.3 16 14.47 233 2.48 63 9.33 237 6.83 173,5 17.27 278 3.15 8 1.63 27 7.48 19 2.68 333 3.94 1 12.2 31 8.27 21 1.58 1,17 2175 15 3375 15 4955 22 24.84 4 4.92 125 14.17 36 9.25 235 (±5%) 3. 483 6.3 16 16.93 43 1.63 27 37.2 599 7.87 2 2.8 51 12.2 31 45.4 731 9.84 25 24.2 61 14.17 36 55.71 897 11.81 3 27.95 71 16.14 41 66.2 163 Weight ~ lb. ~ Kg 8.3 3,64 8.63 3,91 9.16 4,15 9.87 4,47 1.62 4,81 11.52 5,22 12.69 5,75 13.97 6,33 16.2 7,34 18.76 8,5 21.19 9,6 5625 25 CHRGING HOLE G1/8" 562.5 225 4 x (M8 x 13) Ø 1.57 Ø 4 Force (lbs. dan) 45 2 Ø 1.42 Ø 36 3937.5 175 M 8 3375 15.98 1.97 3.15 3.94 4.92 6.3 7.87 9.84 11.81 Cu 1.5 2.48.12 3 Force (lbs. dan) / stroke (inch) diagram.71 18 3 ±.1,25 L Ø 2.75 Ø 7 R.1 2,5 2.5 12 1 L min Ø 2.64 Ø 67.2 5 Cycles (in millions) 2 1.5 1 8 6 4 Cycles / min..41 1.5 Ø 2.95 ±.1 Ø 75,3.31 8.5 2 Ordering example: (1) SC 15 5 ll dimensions are nominal unless tolerance is stated.98 1.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81 1.97 3.15 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 28

2.97 Ø 75,5 2.89 73,5 ISO1191 2 Fixing FB 75.71 Ø 18 (4x).59 Ø 15 (4x).47 12.55 14.79 2.43 Ø 11 (4x) 3.94 1 2.89 73,5 3.94 1 2.89 73,5.35 Ø 9 (4x) Ê1.57 Ø 4 FB 75.43 Ø 11 (4x).59 Ø 15 (4x).47 12.79 2.55 14.71 Ø 18 (4x).35 Ø 9 (4x) 3.94 1 2.89 73,5 3.94 1 2.89 73,5 1.57 Ø 4 SC SCF FS2 75 2.7 Ø 68,5.47 12.32 8 2.97 Ø 75,5 3.94 1 2.89 73,5 3.94 1 2.89 73,5.94 24.43 Ø 11 (4x) FS2 75 2.7 Ø 68,5.47 12.31 8 2.97 Ø 75,5 3.94 1 3.31 84 2.76 7 2.13 54 1.18 3.43 Ø 11 (4x) FC 75 4.8 Ø122.43 Ø11 (4x).63 16 3.15 Ø 8 Ê.2 Ø 5 2.89 73,5 FCQ 75 3.15 Ø8.43 Ø11(4x).63 16 2.97 Ø75,5 3.54 9 2.89 73,5 3.54 9 2.89 73,5 FS 75.43 Ø 11 (2x) 1.18 3 2.95 75 6.3 16 5.39 137.79 2 2.5 63,5 4.13 15 2.95 Ø 75 2.7 52,5 1.97 5 4.53 115 M1 29 S rod section area P nominal charging pressure F nominal initial force F1 average final force V volume of gas

SC 3 ISO11911 Code SC 3 25 SC 3 38 SC 3 5 SC 3 63 SC 3 8 SC 3 1 SC 3 125 SC 3 16 SC 3 2 SC 3 25 SC 3 3 ISO 1191 1 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in 3 cm 3.98 1.5 1.97 2.48 3.15 3.94 4.92 6.3 7.87 9.84 25 38 5 63 8 1 125 16 2 25 6.69 7.72 8.66 9.72 11.2 12.6 14.57 17.32 2.47 24.41 17 196 22 247 28 32 37 44 52 62 5.71 6.22 6.69 7.22 7.87 8.66 9.64 11.2 12.6 14.57 145 158 17 183,5 2 22 245 28 32 37 3.5 19,62 2175 15 675 3 145 464 (±5%) 17.2 21.61 25.65 3.31 35.96 42.92 51.49 63.6 77.51 94.66 274 346 413 488 579 691 829 124 1246 1524 11.81 3 28.35 72 16.54 42 111.86 181 Weight ~ lb. ~ Kg 13.95 6,36 14.9 6,75 16.22 7,35 17.37 7,87 18.63 8,44 19.93 9,3 22.29 1,1 24.94 11,3 28.26 12,8 32. 14,5 35.76 16,2 CHRGING HOLE G1/8" 12375 55 1125 5 4 x (M8 x 13) Ø 2.36 Ø 6 Force (lbs. dan) 1125 9 45 4 Ø 1,97 Ø 5 M 8 7875 35 Cu.12 3 675 3.98 1.97 3.15 3.94 4.92 6.3 7.87 9.84 11.81 1.5 2.48 Force (lbs. dan) / stroke (inch) diagram.83 21 3 9 ±.1,25 L L min Ø 3.54 Ø 9 Ø 3.43 Ø 87 R.1 2,5.2 5 Cycles (in millions) 2.5 2 1.5 1 8 7 6 5 4 3 Cycles / min..41 1.5 Ø 3.74 ±.1 Ø 95,3.31 8.5 2 1 Ordering example: (1) SC 3 5 ll dimensions are nominal unless tolerance is stated.98 1.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81 1.97 3.15 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 3

ISO1191 2 Fixing FB 95.79 Ø 2 (4x).59 Ø 15 (4x).55 14.51 13.79 2.53 Ø 13,5 (4x) 4.72 12 3.62 92 4.72 12 3.62 92.35 Ø 9 (4x) 2.36 Ø 6 FB 95.53 Ø 13,5 (4x).59 Ø 15 (4x).51 13.79 2.55 14.79 Ø 2 (4x).35 Ø 9 (4x) 4.72 12 3.62 92 4.72 12 3.62 92 2.36 Ø 6 FS2 95 3.48 Ø 88,5.47 12.31 8 3.76 Ø 95,5 4.72 12 3.62 92, 4.72 12 3.62 92, Ê.53 Ø 13,5 (4x).94 24 FS2 95 3.48 Ø 88,5.47 12.31 8 3.76 Ø 95,5 4.72 12 3.94 1 3.54 9 2.76 7 1.57 4.53 Ø 13,5 (4x) SC SCF FC 95 5.91 Ø15.51 Ø 13 (4x) 3.76 Ø 95,5.71 18 3.94 Ø 1 3.62 92 Ê.2 Ø 5 3.62 92 FCQ 95 3.94 Ø 1.51 Ø13(4x).71 18 3.76 Ø95,5 4.33 11 3.62 92 4.33 11 3.62 92 FS 95.53 Ø 13,5 (2x) 1.18 3 3.64 92,5 7.68 195 6.69 17.79 2 3.15 8 4.92 125 3.74 Ø 95 2.66 67,5 2.46 62,5 5.71 145 M12 31 S rod section area P nominal charging pressure F nominal initial force F1 average final force V volume of gas

SC 5 ISO11911 Code SC 5 25 SC 5 38 SC 5 5 SC 5 63 SC 5 8 SC 5 1 SC 5 125 SC 5 16 SC 5 2 SC 5 25 SC 5 3 ISO 1191 1 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in. 3 cm 3.98 1.5 1.97 2.48 3.15 3.94 4.92 6.3 7.87 9.84 25 38 5 63 8 1 125 16 2 25 7.48 8.5 9.45 1.51 11.81 13.39 15.35 18.11 21.26 25.2 19 216 24 267 3 34 39 46 54 64 6.5 7.1 7.48 8.1 8.66 9.45 1.43 11.81 13.39 15.35 165 178 19 23,5 22 24 265 3 34 39 5.14 33,17 2175 15 1125 5 1775 788 (±5%) 27.7 34.72 41.18 48.45 57.39 68.14 81.61 1.5 122. 149. 11.81 3 29.13 74 17.32 44 176. 446 559 663 78 924 197 1314 1618 1965 2399 2833 Weight ~ lb. ~ Kg 26.93 12,2 28.48 12,9 3.24 13,7 32. 14,5 33.99 15,4 36.86 16,7 4.4 18,3 44.37 2,1 49.22 22,3 54.75 24,8 6.26 27,3 21375 95 CHRGING HOLE G1/8" 225 9 19125 85 4 x (M1 x 16) Ø 3.15 Ø 8 Force (lbs. dan) 18 16875 1575 14625 8 75 7 65 135 6 Ø 2.56 Ø 65 M 8 12375 55 1125 5.98 1.97 3.15 3.94 4.92 6.3 7.87 9.84 11.81 1.5 2.48 ±.1,25 Cu L L min.41 1,5 Ø 4.53 Ø 115 Ø 4.41 Ø 112 Ø 4.72 ±.1 Ø 12,3.31 8.12 3 R.1 2,5.89 22,5.2 5 Cycles (in millions) 3 2.5 2 1.5 1.5 Force (lbs. dan) / stroke (inch) diagram 9 8 7 6 5 4 3 2 1 Cycles / min. Ordering example: (1) SC 5 5 ll dimensions are nominal unless tolerance is stated.98 1.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81 1.97 3.15 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 32

4.74 Ø 12,5 ISO1191 2 Fixing FB 12.71 Ø 18 (4x).79 Ø 2 (4x).59 15.51 13.79 2.53 Ø 13,5 (4x) 5.51 14 4.31 19,5 5.51 14 4.31 19,5.43 Ø 11 (4x) 3.15 Ø 8 FB 12.53 Ø 13,5 (4x).71 Ø 18 (4x).51 13.79 2.59 15.79 Ø 2 (4x).43 Ø 11 (4x) 5.51 14 4.31 19,5 5.51 14 4.31 19,5 3.15 Ø 8 FS2 12 4.47 Ø 113,5.47 12.31 8 4.74 Ø 12,5 5.51 14 4.31 19,5 5.51 14 4.31 19,5.94 24 Ê.51 Ø 13 (4x) FS2 12 4.47 Ø 113,5.47 12.31 8 4.74 Ø 12,5 5.51 14 4.72 12 3.54 115 2.76 95 1.97 5.53 Ø 13,5 (4x) SC SCF FC 12 O 6.89 Ø 175.53 Ø 13,5 (4x).83 21 4.92 Ø 125 4.31 19,5.2 Ø 5 4.31 19,5 FCQ 12 4.92 Ø 125.53 Ø 13,5 (4x).83 21 4.74 Ø 12,5 5.12 13 4.31 19.5 5.12 13 4.31 19.5 FS 12.53 Ø 13,5 (2x) 1.18 3 4.13 15 8.66 22 7.68 195.79 2 3.64 92,5 5.83 148 4.72 Ø 12 3.5 77,5 2.91 74 6.49 165 M12 33 S rod section area P nominal charging pressure F nominal initial force F1 average final force V volume of gas

SC 75 ISO11911 Code SC 75 25 SC 75 38 SC 75 5 SC 75 63 SC 75 8 SC 75 1 SC 75 125 SC 75 16 SC 75 2 SC 75 25 SC 75 3 ISO 1191 1 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in. 3 cm 3.98 1.5 1.97 2.48 3.15 3.94 4.92 6.3 7.87 9.84 11.81 25 38 5 63 8 1 125 16 2 25 3 8.7 25 9.9 231 1.4 255 11.1 282 12.4 315 13.98 355 14.94 45 18.7 475 21.85 555 25.79 655 29.72 755 7.9 18 47.2 76 7.6 193 57.95 933 8.7 25 67.89 193 8.6 218,5 79.19 1275 9.25 235 92.73 1493 1.4 255 7.79 5,24 2175 15 16875 75 26257 1167 19.3 1759 11.2 28 12.4 315 13.98 355 15.94 45 17.91 455 (±5%) 129.9 158.8 191.9 233.2 274.6 291 2557 39 3755 4421 Weight ~ lb. ~ Kg 43.7 19,8 46.35 21, 48.12 21,8 49.89 22,6 53.86 24,4 57.61 26,1 61.81 28, 69.31 31,4 77.26 35, 84.99 38,5 93.6 42,4 32625 145 CHRGING HOLE G1/8" 3375 135 4 x (M1 x 16) Ø 3.94 Ø 1 Force (lbs. dan) 28125 25875 23625 21375 125 115 15 95 Ø 3.15 Ø 8 19125 85 M 8 16875 75.98 1.97 3.15 3.94 4.92 6.3 7.87 9.84 11.81 1.5 2.48 ±.1,25 Cu L L min.41 1.5 Ø 5.7 Ø 145 Ø 5.59 Ø 142 Ø 5.91±.1 Ø 15,3.31 8.12 3 R.1 2,5.96 24,5.28 7 Cycles (in millions) 2.5 2 1.5 1.5 Force (lbs. dan) / stroke (inch) diagram 9 8 7 6 5 4 3 2 1 Cycles / min. Ordering example:.98 1.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81 1.97 3.15 (1) SC 75 5 ll dimensions are nominal unless tolerance is stated Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 34

5.92 Ø 15,5 5.43 138 ISO1191 2 FB 15.71 Ø 18 1.2 Ø 26.59 15.67 17.98 25.69 Ø 17,5 (4x) 7.48 19 5.43 138 7.48 19 5.43 138.43 Ø 11 (4x) 3.94 Ø 1 FB 15.69 Ø 17,5 (4x).71 Ø 18 (4x).67 17.98 25.59 15 1.2 Ø 26 (4x).43 Ø 11 (4x) 7.48 19 5.43 138 7.48 19 5.43 138 3.94 Ø 1 FS2 15 5.65 Ø 143,5.47 12.31 8 5.92 Ø 15,5 7.48 19 5.43 138 7.48 19 5.43 138.69 Ø 17,5 (4x).94 24 FS2 15 5.65 Ø 143,5.47 12.31 8 5.93 Ø 15,5 7.48 19 6.5 165 5.71 145 4.72 12 2.36 6.69 Ø 17,5 (4x) SC SCF FC 15 8.66 Ø 22.69 Ø 17,5 (4x) 1.6 27 6.1 Ø 155.19 Ø 5 5.43 138 FCQ 15 6.1 Ø155.69 Ø 17,5 (4x) 1.6 27 5.93 Ø 15,5 6.38 162 5.43 138 6.38 162 5.43 138 FS 15.53 Ø 13,5 (2x) 1.18 3 4.92 125 1.24 26 9.5 23.79 2 4.33 11 7.87 2 5.9 Ø 15 3.74 95 3.6 91,5 7.87 2 M12 35 S rod section area P nominal charging pressure F nominal initial force F1 average final force V volume of gas

SC 1 ISO11911 Code SC 1 25 SC 1 38 SC 1 5 SC 1 63 SC 1 8 SC 1 1 SC 1 125 SC 1 16 SC 1 2 SC 1 25 SC 1 3 ISO 1191 1 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in. 3 cm3.98 25 8.27 21 7.28 185 62.67 19 1.5 38 9.29 236 7.79 198 81.18 137 1.97 5 1.23 26 8.27 21 98.26 1582 2.48 63 11.3 287 8.8 223,5 116.8 1881 3.15 8 12.6 32 9.45 24 141. 227 3.94 1 14.17 36 1.24 26 1.9 7,8 2175 15 2385 16 32883 146 169.5 2729 4.92 125 16.14 41 11.22 285 (±5%) 25.1 332 6.3 16 18.9 48 12.6 32 255. 415 7.87 2 22.5 56 14.17 36 331.9 522 9.84 25 25.98 66 16.14 41 383.2 6169 11.81 3 29.92 76 18.11 46 413.5 6657 Weight ~ lb. ~ Kg 76.8 34,8 81. 36,7 85. 38,5 89.4 4,5 94.9 43, 11.5 46, 19.9 49,8 121.4 55, 134.6 61, 151.2 68,5 167.7 76, 396 176 CHRGING HOLE G1/8" 3735 166 4 x (M12 x 16) Ø 4.72 Ø 12 Force (lbs. dan) 354 3285 36 2835 156 146 136 126 Ø 3.74 Ø 95 M 8 261 2385 116 16.98 1.97 3.15 3.94 4.92 6.3 7.87 9.84 11.81 1.5 2.48 Cu.12 3 1.18 3 2.5 Force (lbs. dan) / stroke (inch) diagram 9 8 ±.1,25 L L min Ø 7.48 Ø 19 Ø 7.36 Ø 187 R.1 2,5.31 8 Cycles (in millions) 2 1.5 1 7 6 5 4 3 Cycles / min..5 2.41 1.5 Ø 7.68 ±.1 Ø 195.3.31 8 Ordering example:.98 1.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81 1.97 3.15 1 (1) SC 1 1 ll dimensions are nominal unless tolerance is stated Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 36

7.7 Ø 195,5 6.69 17 ISO1191 2 Fixing FB 195.79 Ø 2 1.2 Ø 26.51 13.67 17.98 25.69 Ø 17,5 (4x) 8.27 21 6.69 17 8.27 21 6.69 17.53 Ø 13,5 (4x) 4.72 Ø 12 FB 195.69 Ø 17,5 (4x).79 Ø 2 (4x).67 17.98 25.59 15 1.2 Ø 26 (4x).53 Ø 13,5 (4x) 8.27 21 6.7 17 8.27 21 6.7 17 4.72 Ø 12 FS2 195 7.4 Ø 188.51 13.31 8 7.7 Ø 195,5 8.27 21 6.69 17 8.27 21 6.69 17 Ê.69 Ø 17,5 (4x).94 24 FS2 195 7.4 Ø 188.51 13.31 8 7.7 Ø 195,5 8.27 21 7.28 185 7.48 19 6.5 165 3.15 8.69 Ø 17,5 (4x) SC SCF FC 195 11.42 Ø 29.69 Ø 17,5 (4x) 1.6 27 7.87 Ø 2 Ê.2 Ø 5 6.69 17 FCQ 195 7.87 Ø2.69 Ø 17,5 (4x) 1.6 27 7.7 Ø 195,5 8.27 21 6.7 17 8.27 21 6.7 17 S rod section area P nominal charging pressure F nominal initial force F1 average final force V volume of gas 37

H GENERL INFORMTION BODY One piece construction for greater safety Internal surface burnished for maximum efficiency of static ORing Black oxided ROD One piece construction for greater safety Nitrided surface with hardness ab. 12 HV for maximum durability, no wearing for optimum life of seal Lapped surface mirror like with roughness Ra,5µ for maximum performances, smoothest friction, lower over all temperature, longer lasting and less wear to the seal BUSHING / GUIDE & SEL One piece construction Two nonmetallic selflubricating guide elements for lower friction, longer lasting and minimize side loading Wiper rod to protect inside room from contaminants Polyurethane dynamic rod seal Permanent selflubricating circular room for maximum lubricating and smoother working conditions of the rod seal for greater life Cstyle retaining ring ensures operator safety and prevents from opening a charged cylinder Designed and built for easy, rapid and inexpensive maintenance LUBRICTION Double permanent selflubrication to maximize working performances in any position and minimize over heating anytime USE Self contained Hose system: for this application the cylinders are easily converted by removing the protective screw, locking nut and one way valve LODING PRESSURE Minimum allowed 29 psi (2 bar) Maximum allowed 2175 psi (15 bar) For hose applications it is suggested to calculate the forces by charging at about 145 psi (1 bar). In this case the user can adjust the required force by increasing charging pressure up to the maximum allowed of 2175 psi (15 bar) anytime SPEED LIFETIME The maximum recommended speed (cycles/minute) and the minimum estimated life are easily indicated by specific graphs for each model 38

one piece rod permanent selflubrication chamber rod wiper ORing seal retaining ring selflubricating guide elements rod seal H HF bushing one piece body charging hole plug nut one way valve Series ØD Cu L F Page inch mm inch mm inch mm lb. dan 39 H 3 H 5 H 7 H 1 H 24 H 42 H66 H 185 1.26 1.5 1.77 1.97 2.95 3.74 4.72 7.68 32 38 45 5 75 95 12 195.39 4.92.39 4.92.51 6.3.51 11.81.98 11.81.98 11.81.98 11.81.98 11.81 1 125 1 125 13 16 13 3 25 3 25 3 25 3 25 3 2.76 11.81 2.76 11.81 4.35 15.94 4.74 27.36 6.3 27.95 6.69 28.35 7.48 29.13 8.27 29.92 7 3 7 3 11,4 45 12,4 695 16 71 17 72 19 74 21 76 675 157 153 2385 5372 955 1492 4144 3 47 68 16 2385 424 663 184 4 42 44 46 48 5 52 54

H3 Code Cu L Lmin S P F F1 Weight H 3 1 H 3 13 H 3 16 H 3 25 H 3 38 H 3 5 H 3 63 H 3 8 H 3 1 H 3 125 inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan.39.51.63.98 1 13 16 25 2.76 2.97 3.23 3.94 7 75,4 82 1 2.36 2.47 2.6 2.95 6 62,7 66 75 1.5 38 4.96 126 3.46 88.31 2,1 2175 15 675 3 1215 54 1.97 5 5.91 15 3.94 1 (±5%) 2.48 63 6.97 177 4.47 113,5 3.15 3.94 8 1 8.27 9.84 21 25 5.12 5.91 13 15 4.92 125 11.81 3 6.89 175 ~ lb. ~ Kg.64,29.66,3.68,31.75,34.84,38.95,43 1.6,48 1.19,54 1.35,61 1.52,69 135 6 1238 55 M8 x 6 CHRGING HOLE M6 Force (lbs. dan) 1125 5 113 45 9 4.63 Ø 16 788 35 L ±.1 ±,25 L min Cu 1.26 ±.1 Ø 32 ±,3 1.18 Ø 3 1.6 Ø 27.8 2.16 4 R.4 1.14 3,5.41 1,5 Cycles (in millions) 675 3 4 3.5 3 2.5 2 1.5 1.39.63.98 1.5 1.97 2.48 3.15 3.94 4.92.51 Force (lbs. dan) / stroke (inch) diagram 16 14 12 1 8 6 4 Cycles / min..5 2 Ordering example:.39.63.98 1.5 1.97 2.48 3.15 3.94 4.92 (1) H 3 5 ll dimensions are nominal unless tolerance is stated.51 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 4

1.38 35 ISO1191 2 Fixing FS2 32 1.12 Ø 28,5.27 7.16 4 1.28 Ø 32,5 1.97 5 1.38 35 1.97 5 1.38 35.2 5.26 Ø 6,6 (4x) FC 32 2.36 Ø 6.26 Ø 6,6 (4x) 1.28 Ø 32,5.35 9 1.33 Ø 34.8 Ø 2 1.38 35 H HF S rod section area P nominal charging pressure F nominal initial force F1 average final force 41

H 5 Code Cu L Lmin S P F F1 Weight inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan ~ lb. ~ Kg H 5 1 H 5 13 H 5 16 H 5 25 H 5 38 H 5 5 H 5 63 H 5 8 H 5 1 H 5 125.39.51.63.98 1.5 1.97 2.48 3.15 3.94 4.92 1 13 16 25 38 5 63 8 1 125 2.76 2.97 3.23 3.94 4.96 5.9 6.97 8.27 9.84 7 75,4 82 1 126 15 177 21 25 11.81 3 2.36 6 2.47 62,7 2.6 66 2.95 75 3.46 88 3.94 1 4.47 113,5 5.12 13 5.91 15 6.89 175.49 3,14 2175 15 157 47 232 1 3 (±5%).93.95.99 1.1 1.24 1.39 1.55 1.74 1.96 2.4,42,43,45,5,56,63,7,79,89 1,8 2632 117 24 17 M8 x 6 Force (lbs. dan) 2182 1957 1732 97 87 77 CHRGING HOLE M6 157 67.79 Ø 2 1282 57 157 47.39.63.98 1.5 1.97 2.48 3.15 3.94 4.92.51 L ±.1,25 L min Cu 1.5 ±.1 Ø 38 ±,3 1.42 Ø 36 1.3 Ø 33.8 2.16 4 R.4 1.41 1,5.14 3,5 Cycles (in millions) 4 3.5 3 2.5 2 1.5 1 Force (lbs. dan) / stroke (inch) diagram 16 14 12 1 8 6 4 Cycles / min..5 2 Ordering example: (1) H 5 5 ll dimensions are nominal unless tolerance is stated.39.63.98 1.5 1.97 2.48 3.15 3.94 4.92.51 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 42

1.51 Ø 38,5 1.57 4 ISO1191 2 Fixing.27 7 2.16 55 FS2 38 1.36 Ø 34,5.16 4 1.51 Ø 38,5 2.16 55 1.57 4 1.57 4.2 5.26 Ø 6,6 (4x) FC 38 2.68 Ø 68.26 Ø 6,6 (4x).35 9 1.57 Ø 4 Ê.8 Ø 2 1.57 4 H HF FCQ 38 1.57 Ø4.26 Ø6,6(4x).35 9 1.52 Ø38,5 2.5 52 1.57 4 2.5 52.79 Ø 2.8 2 Cu M38 x 1,5 1.57 4 2.2 56 HF 5 Threaded body cylinders CHRGING HOLE M6 ±.1 ±,25.2 5.11 2,8.47 12 cod. GM 38 L L min 1.97 5 M 6 1.14 29 43.16 4,1 1.4 Ø35,7 M 38 x 1,5.11 2,8.31 8 The HF are threaded body 5 springs with the same length and force as the H 5 Ordering example: (1) HF 5 5 M 38 x 1.5.55 Ø14(4x).35 Ø 9 (4x).31 8.47 12 2.95 Ø 75 1.98 5,3 cod. FC 38

H 7 Code H 7 13 H 7 25 H 7 38 H 7 5 H 7 63 H 7 8 H 7 1 H 7 125 H 7 16 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in. 3 cm 3.51 13 4.35 11,4 3.85 97,7 1.92 31.98 1.5 1.97 25 38 5 5.31 6.34 7.28 135 161 185 4.33 4.84 5.31 11 123 135 2.86 3.85 4.72 46 62 76 2.48 63 8.35 212 5.85 148,5.7 4,52 2175 15 153 68 248 1 1 5.78 93 3.15 8 9.65 245 6.5 165 (±5%) 7.2 113 3.94 1 11.22 285 7.28 185 8.51 137 4.92 6.3 125 16 13.19 335 15.94 45 8.27 9.65 21 245 1.37 167 13.4 21 Weight ~ lb. ~ Kg 2.16,98 2.36 1,7 2.56 1,16 2.76 1,25 2.98 1,35 3.25 1,47 3.8 1,72 3.97 1,8 4.52 2,5 315 138 CHRGING HOLE G1/8" 288 128 2 x (M8 x 13).79 Ø 2 Force (lbs. dan) 2655 243 225 118 18 98 198 88.94 Ø 24 M 8 1755 78 153 68.51.98 1.5 1.97 2.48 3.15 3.94 4.92 6.3 ±.1 ±,25 L L min Cu 1.69 Ø 43 1.57 Ø 4.8 2 R.4 1.57 14,5.14 3,5 Cycles (in millions) 3.2 2.8 2.4 2. 1.6 1.2 Force (lbs. dan) / stroke (inch) diagram 32 28 24 2 16 12 Cycles / min..41 1,5 1.77 ±.1 Ø 45 ±,3.16 4.8 8.4 4 Ordering example: (1) H 7 5 ll dimensions are nominal unless tolerance is stated.51.98 1.5 1.97 2.48 3.15 3.94 4.92 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 44

1.97 5 ISO1191 2 Fixing FB 45.59 Ø 15 (2x).59 Ø 15 (4x).55 14.47 12.79 2 2.76 7 1.97 5.35 Ø 9 2.76 7 1.97 5.43 Ø 11.35 Ø 9 (2x).79 Ø 2 FB 45.59 Ø 15 (2x).43 Ø 11 (4x).79 2.55 14.71 Ø 18(4x).35 Ø 9 (2x) 2.75 7 1.97 5 2.75 7 1.97 5.79 Ø 2.47 12 FS2 45 1.63 Ø 41,5.27 7.16 4 1.79 Ø 45,5 2.76 7 1.97 5 2.76 7 1.97 5.35 Ø 9 (4x).79 2 FS2 45 1.63 Ø 41,5.28 7.16 4 1.79 Ø 45,5 2.76 7 2.24 57 1.57 4 1.63 27.98 25 HF 7.94 Ø 24 Cu.8 2 M45 x 1,5 2.4 62.2 5.11 2,8.48 12,3 L.35 Ø 9 (4x) H HF FC 45 3.39 Ø 86.35 Ø 9 (4x) 1.8 Ø 45,5.51 13 1.85 Ø 47.8 Ø 2 1.97 5 FCQ 45 1.85 Ø47.35 Ø9(4x).51 13 1.79 Ø45,5 2.52 64 1.97 5 2.52 64 1.97 5 Threaded body cylinders ±.1 ±,25 cod. GM 45 L min 45.41 1,5.11 2,8.31 8.16 4,1 CHRGING HOLE G1/8" 1.68 Ø 42,7 M 45 x 1,5 The HF are threaded body 7 springs with the same length and force as the H 7 Ordering example: (1) HF 7 5.55 Ø 14 (4x) M 45 x 1.5 M 6.35 Ø 9 (4x).31 8.63 16 3.54 Ø 9 2.36 6 2.36 6 1.34 34 FC 45

H 1 Code H 1 13 H 1 25 H 1 38 H 1 5 H 1 63 H 1 8 H 1 1 H 1 125 H 1 16 H 1 2 H 1 25 H 1 3 Cu L Lmin S P F F1 V inch mm inch mm inch mm in. 2 cm 2 psi bar lb. dan lb. dan in. 3 cm 3.51.98 1.5 1.97 2.48 13 25 38 5 63 4.74 5.71 6.73 7.68 8.74 12,4 145 171 195 222 4.24 4.72 5.24 5.71 6.24 17,7 12 133 145 158,5 3.23 4.47 5.78 7.2 8.35 3.15 8 1.4 255 6.89 175 1.6 1.9 7,7 2175 15 2385 1 6 3895 1 73 3.94 1 11.61 295 7.68 195 12.11 (±5%) 4.92 125 13.58 345 8.66 22 14.66 6.3 7.87 9.84 16 2 25 16.34 19.49 23.43 415 495 595 1.4 11.61 13.58 255 295 345 18.2 22.3 27.33 11.81 3 27.36 695 15.55 395 32.42 52 72 93 113 135 162 195 236 293 359 44 522 Weight ~ lb. ~ Kg 2.98 1,35 3.18 1,44 3.51 1,59 3.71 1,68 4.4 1,83 4.39 1,99 4.83 2,19 5.36 2,43 6.11 2,77 6.98 3,16 8.4 3,64 9.12 4,13 585 226 CHRGING HOLE G1/8" 4635 26 2 x (M8 x 13).79 Ø 2 Force (lbs. dan) 4185 3735 3285 186 166 146 1.18 Ø 3 2835 126 M 8 ±.1 ±,25 L L min Cu 1.81 Ø 46 1.69 Ø 43.12 3 R.8 2.57 14,5.2 5 Cycles (in millions) 2385 16 3 2.5 2 1.5 1.51 1.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81.98 1.97 3.15 Force (lbs. dan) / stroke (inch) diagram 24 2 16 12 8 Cycles / min..41 1,5 Ê1.97 ±.1 Ø 5 ±,3.31 8.5 4 Ordering example: (1) H 1 5 ll dimensions are nominal unless tolerance is stated.5.981.5 2.48 3.94 4.92 6.3 7.87 9.84 11.81 1.97 3.15 Minimum estimated life (cycles x millions) Maximum recommended speed (cycles / min.) 46

Ê1.99 Ø 5,5 ISO1191 2 Fixing FB 5.59 Ø 15.59 Ø 15.55 14.47 12.79 2 2.95 75 2.22 56,5.35 Ø 9 2.95 75 2.22 56,5.43 Ø 11.35 Ø 9 (2x).79 Ø 2 FB 5.59 Ø 15 (2x).43 Ø 11 (4x).47 12.79 2.55 14.71 Ø 18 (4x).35 Ø 9 (2x) 2.95 75 2.22 56,5 2.95 75 2.22 56,5.79 Ø 2 FS2 5 1.75 Ø 44,5.47 12.31 8 1.99 Ø 5,5 2.95 75 2.22 56,5 2.95 75 2.22 56,5.94 24.35 Ø 9 (4x) FS2 5 1.75 Ø 44,5.47 12.31 8 1.99 Ø 5,5 2.95 75 2.44 62 1.77 45 1.26 32.98 25.35 Ø 9 (4x) FC 5 3.74 Ø 95.35 Ø 9 (4x).51 13 2.12 Ø 54.16 Ø 4 2.22 56,5 2.22 56,5 FCQ 5 HF 1 1.18 Ø 3.2 5.11 2,8 L.8 2 Cu M5 x 1,5 2.68 68 2.13 Ø54.35 Ø9(4x).51 13 1.99 Ø5,5 2.75 7 2.22 56,5 2.75 7 2.22 56,5 H HF FS 5.35 Ø 9 (2x) 1.18 3 2.36 6 5.12 13 4.33 11.79 2 1.97 5 3.15 8 1.97 Ø 5 1.57 4 1.48 37,5 3.54 9 ±.1 ±,25 M8 Threaded body cylinders.51 12,9 cod. GM 5 L min 2.6 66 M 6 1.5 38 47.39 1.11 2,8.31 8.16 4,1 1.88 Ø 47,7 CHRGING HOLE G1/8" M 5 x 1,5 The SCF are threaded body 75 springs with the same length and force as the SC 75 Ordering example: (1) SCF 75 5 M 5 x 1.5.55 Ø 14 (4x).35 Ø 9(4x).31 8.63 16 3.94 Ø 1 2.6 66 cod. FC 5