OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 1 of 23
TECHNICAL AND DIMENSIONAL CATALOGUE EDITION N°1-04
Via Montalbano 28 Loc.Ponte Stella, Serravalle Pistoiese C.A.P.51034 Pistoia Tel.0573/929163 – Fax 0573/929190 E-mail: [email protected]
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 2 of 23
ORDERING CODES
Type Bore Rod Mounting Cushioning Stroke Spacer Seals Rod extremities
25 12 18 T Rear tapped holes SCD
32 14 18 22 X Front tapped holes MX5 Not
cushioned SJ 50 1000/1500 standard Male thread
standard
Standard 40 18 22 28 A Front flange ME5
I Inox 50 22 28 36 B Rear flange ME6 K Front +
Rear SJ 100 1500/2000 Y Low friction
SL= Male thread DIN 24554
M..
Magnetic 63 28 36 45 E Feet MS2
80 36 45 56 C Male clavis MP3 V Front only SJ 150 2000/3000 W Viton
SF= Female thread
Note: ..= n° magnetic
switch 100 45 56 70 D Ball jointed eye MP5
125 56 70 90 M Female clavis MP1 Z Rear only SJ 200 3000/4000 YP Low friction
only piston
FL= Female thread DIN 24554
160 70 90 110 H Intermediate trunnions
MT4 Code From/To SX= Special version
SCI
200 90 110 140 Fr
om 1
mm
to
4000
mm
Sta
ndar
d
Tie rods Front+Rear
Rod seals: ISO:5597
Piston Seals: ISO 7425/1
ST= Tenon NFE
Ordering codes: SCI / M2 50/28 AK 250 W 1.1: Ø SCI SERIES CYLINDER Ø 2 MAGNETIC SWITCH Ø BORE 50 Ø ROD 28 Ø FRONT FLANGE ME5 Ø FRONT AND REAR CUSHIONING Ø STROKE 250 Ø VITON SEALS Ø OIL PORT POSITION “see particular”
PORT LOCATION: • 1.1 STANDARD POSITION
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 3 of 23
TECHNICAL SPECIFICATION
q STANDARD CYLINDERS ISO 6020/2-91 DIN 24554 “Tie rods” q OPERATING PRESSURE 160 Bar Magnetic version – Stainless steel, 160 bar q PEAK PRESSURE 210 Bar q MAX PRESSURE 250 Bar Magnetic version – Stainless steel 180 bar q STROKE From 1 to 4000 mm Standard – up to 6000 mm on request Stroke tolerance 0 + 0.5 mm. q MAX SPEED Up to 5 m/sec. For higher speeds, please contact our engineering office. q FLUID Mineral hydraulic oil, viscosity from 30 cst at 40 °C up to 100 cst at 40 °C Fosforic esters with W gaskets q FLIUD TEMPERATURE Min. –20 °C max +70 °C with standard gaskets, up to 150 °C with W q SEALS Standard nitrile rubber (BUNA), nitrile rubber and PTFE (Y), Viton (W) q CUSHIONING Possible on all bores, without changing overall dimensions, adjustable. 25 boring excluded ( not adjustable ) q SERVOCYLINDERS Execution with position transducer installed inside the cylinder.
Thightening torque tie rods
Bore Value (N/mt) 40 19 50 70 63 70 80 160 100 160 125 460 160 810 200 1150
MATERIALI E COMPONENTI: Posizione Components Material “standard” Material “Inox”
1 Chromeplated rod CK 43 Aisi 316 2 Bushing Bronze B 12 Bronzo B 12 3 Front end cap Fe 360 Aisi 304 SPECIAL VERSION 4 Cylinder body Fe 52.2 Aisi 304 Cylinder body Stainless steel 5 Front / rear cushioning 18NiCr4 temp 6 Piston C 15 C 15
Rod Stainless steel, tempered and chromed steel, hard chrome-plating, chrome-plating type Nikrom 350,
7 Rear end cap Fe 420 Aisi 304 8 Brake centring ring CF35SMnPb10 9 Tie rod 35 CD 4 Aisi 304 / 316
Servocylinders With internal position transducer, potentiometric, magneto-sonic, magnetostrictive, start/stop, SSI. Only with anchoring: A, B, H.
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 4 of 23
VARIANT WITH SENSORS MAGNETIC CYLINDER Proximity switch 1 Proximity switch 2 Part: Sensor positioning Minimum stroke= 50 mm 3
Minimum stroke= 50mm
Switch specifications: Voltage: 10-30V DC
Max.current (a 25°C): 250 mA
Electric circuit: PNP
Mounting and regulation Pos.1 Pos.2 Pos.3 Pos.4 Pos.5
Protection class: IP 67 (DIN 40050)
Cable (mm²): Length (mm):
3x0.25 2500
Temperature range: -20° / +80°C
Indicating: LED
Circuit of PNP sensor, hall effect: + 1= Brown
4= Black Load exit -3= Blue
Part: magnetic cylinder Components:
A= Non magnetic tube B= Magnet C= Non magnetic tube
Note:Magnetic cylinder code SCI/M….. Specify switch numbers
1. Set the piston to bottom stroke position. 2. Shift the switch, after connecting it, as far as it
is turned on (LED comes on) and mark the front edge of the switch on the cylinder.
3. Shift the switch as far as it is turned off (LED goes off).
4. Move back the switch as far as the second switch-on point, then mark the front edge of the switch on the cylinder.
5. Fix the front edge of the switch between the two marks.
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 5 of 23
ROD EXTREMITIES
ROD A B CH M N O P KK KF BORE ROD A1 KK1 KF1 18 18 30 14 16 10 7 14 M14x1.5 M12x1.25 25 12 18 14 M10x1.25 M8x1
22 22 34 19 18 11 8 16 M16x1.5 M16x1.5 32 14 18 22 16 M12x1.25 M10x1.25 28 28 42 22 22 14 10 20 M20x1.5 M20x1.5 40 18 22 28 18 M14x1.5 M12x1.25
36 36 50 28 28 18 13 25 M27x2 M27x2 50 22 28 36 22 M16x1.5 M16x1.5 45 45 60 36 35 22 16 32 M33x2 M33x2 63 28 36 45 28 M20x1.5 M20x1.5 56 56 72 46 45 28 20 40 M42x2 M42x2 80 36 45 56 36 M27x2 M27x2
70 63 88 60 56 35 25 50 M48x2 M48x2 100 45 56 70 45 M33x2 M33x2 90 85 108 75 70 45 35 70 M64x3 M64x3 125 56 70 90 56 M42x2 M42x2
110 95 133 95 M80x3 M80x3 160 70 90 110 63 M48X2 M48X2 140 112 163 120 M100x3 M100x3
200 90 110 140 85 M64x3 M64x3
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 6 of 23
SIZING
Rod selection chart: Table “1” Table “2”
Choice of piston rod size:
To choose the correct size of a piston rod for use in definite thrust conditions, proceed as follows:
1. Determine the type of fixing and end of the piston
rod to be used. Then, by referring to the relative table ”1”, ascertain the stroke factor “FC” corresponding to the application requested.
2. Using the correct stroke factor as derived from table
“1”, find the “ideal length” according to equation: “ideal length = actual length x stroke factor” 3. Calcolate the load in thrust condition for the
application, by multiplying the total section of the cylinder by the working pressure existing in the plant.
4. Using the diagram shown on the side (table “2”),
trace the point of intersection between the values of “ideal length” and “thrust”, which have been found by using the previous points 2 and 3.
The correct section of the piston rod can be obtained from the curved line indicated as “piston rod” diameter, above the point of intersection.
Notes: Sizing valid for cylinders series SCI / SCD
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 7 of 23
SIZING
Piston Rod A1 (cm²)
A2 (cm²)
A3 (cm²)
SF (cm²)
LF (mm²)
12 3.8 1.1 25
18 4.9
2.4 2.5 1.8 12
14 6.5 1.5 18 5.5 2.5 32 22
8 4.2 3.8
3.5 14
18 10 2.5 22 8.8 3.8
40 28
12.6 6.4 6.2
5.5 23
22 15.8 3.8 28 13.5 6.2 50 36
19.6 9.6 10.2
8.3 21
28 25 6.2 36 21 10.2 63 45
31.2 15.3 15.9
13.8 21
36 40.1 10.2 45 34.4 15.9 80 56
50.3 25.6 24.6
23.8 28
45 62.6 15.9 56 53.9 24.6 100 70
78.5 40.1 38.5
37.8 28
55 98 25 70 84 38 125 90
123 59 64
56 26
70 163 38 90 137 64 160 110
201 106 95
99 30
90 251 64 110 219 95
Base formulas:
Piston rod motion speed during excursion: V1= 10xQ (m/sec) A1x60 Motion speed during retraction: V2= 10xQ (m/sec) A2x60 Force applied in thrust condition: F= (P1xA1-P2xA2)x100 (daN) Force applied in traction condition: F= (P2xA2-P1xA1)x100 (daN) Where: A1= 3.14x(DxD) (cm²) A2= 3.14x(DxD-dxd) (cm²) 4x100 4x100 Magnitudes: P= Pressure (bar) A= Section (cm²) D= Piston diameter (mm) d= Piston rod diameter (mm) Q= Flow rate (l/min) V=Speed (m/sec) F= Force (daN) * * Where force = force of inertia: Fi= m x a; Force of work= Fl; Force of friction = Fa.
Notes: Sizing valid for cylinders series SCI / SCD
Trends of pressure in the braking chamber for progressive release brakes compared with step brakes, now disused. End-of-stroke brakings are recommended at speeds over 0.1m/sec and for applications with vertical loads.
Base formulas:
Braking in thrust condition M1: gx(PFxSF-PxA1)xLFx2 1000x(VxV) Braking in traction condition M2: gx(PFxSF-PxA2)xLFx2 1000x(VxV) Magnitudes: M1/M2= Braking load (daN) PF= Braking pressure (max.250 bar) SF= Braking section (cm²) LF= Braking length (mm) P= Working pressure (bar) A1/A2= Working sections (cm²) g= 9.81 (m/sec²) V= Speed (m/sec)
This formula is fruit of the processing of experimental results. It does not have an absolute validity and deviations between practical results and theoretical conditions are always possible..
200 140
314 160 154
151 44
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 8 of 23
Front tapped holes: -X- ISO code: MX5
BORE E EE B WH+ VD GA JA KB TG RT AA Y ZJ +.. PJ+.. NOTE 25 40 G1/4” 15 6 32 32 7 28.3 M5 40 45(*) 114 49(*) 32 45 G1/4” 25 12 35.5 35.5 10 33.2 M6 47 58(*) 128 47(*)
Type SCD
40 60 G 3/8” 25 10 52 50 14 41.7 M8 59 60(*) 153 71(*) 50 75 G ½” 25 10 60 45 18 52.3 M12 74 67 159 66.7(*) 63 90 G ½” 32 13 60 45 18 64.3 M12 91 75(*) 168 91(*) 80 110 G ¾” 31 10 74 50 24 82.7 M16 117 82(*) 190 88(*)
100 130 G ¾” 35 10 77 55 24 96.9 M16 137 91(*) 203 78(*) 125 165 G 1” 35 10 78 57 31 125.9 M22 178 92(*) 232 104(*) 160 200 G1” 32 7 95 70 36 154.9 M27 219 97.5(*) 245 113.5(*) 200 245 G1”1/4
Look
rod
extr
emiti
es p
ag.5
32 7 118 88 38 190.2 M30 269 112.5(*) 299 152.5(*)
(+..) add stroke (*) don’t comply with ISO 6020/2
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 9 of 23
Rear tapped holes: -T- ISO code: MX6
BORE E EE B WH VD GA JA KB TG RT AA Y ZJ +.. PJ+.. NOTE 25 40 G1/4” 15 6 32 32 7 28.3 M5 40 45(*) 114 49(*) 32 45 G1/4” 25 12 35.5 35.5 10 33.2 M6 47 58(*) 128 47(*)
Type SCD
40 60 G 3/8” 25 10 52 50 14 41.7 M8 59 60(*) 153 71(*) 50 75 G ½” 25 10 60 45 18 52.3 M12 74 67 159 66.7(*) 63 90 G ½” 32 13 60 45 18 64.3 M12 91 75(*) 168 91(*) 80 110 G ¾” 31 10 74 50 24 82.7 M16 117 82(*) 190 88(*)
100 130 G ¾” 35 10 77 55 24 96.9 M16 137 91(*) 203 78(*) 125 165 G 1” 35 10 78 57 31 125.9 M22 178 92(*) 232 104(*) 160 200 G1” 32 7 95 70 36 154.9 M27 219 97.5(*) 245 113.5(*) 200 245 G1”1/4
Look
rod
extr
emiti
es p
ag.5
32 7 118 88 38 190.2 M30 269 112.5(*) 299 152.5(*)
(+..) add stroke (*) don’t comply with ISO 6020/2
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 10 of 23
Front flange: -A- ISO code: ME5
BORE G F B J WF VD FB KB E R RD f8 EE TO UO ZJ+.. PJ+.. NOTE 25 32 10 32 25 5.5 7 40 27 38 G1/4” 51 65 114 49(*) 32 35.5 10 35.5 35 6.6 10 45 33 42 G1/4” 58 70 128 47(*)
Type SCD
40 46 10 50 35 10 11 14 60 41 62 G 3/8” 87 110 153 71(*) 50 45 15 45 41 10 14 18 75 52 74 G ½” 105 130 159 66.7(*) 63 45 15 45 48 13 14 18 90 65 88 G ½” 117 145 168 91(*) 80 54 20 50 51 10 18 24 110 83 105 G ¾” 149 180 190 88(*)
100 55 22 55 57 10 18 24 130 97 125 G ¾” 162 200 203 78(*) 125 56 22 57 57 10 22 31 165 126 150 G 1” 208 250 232 104(*) 160 70 25 70 57 7 27 36 200 155 170 G 1” 253 300 245 113.5(*) 200 93 25
Look
rod
extr
emiti
es p
ag.5
88 57 7 30 38 245 190 210 G 1 ¼” 300 360 299 152.5(*)
(+..) add stroke (*) don’t comply with ISO 6020/2
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 11 of 23
Rear flange: -B- ISO code: ME6
BORE FB JA E R EE TO UO GA KB VD WH Y ZJ+.. PJ+.. NOTE 25 5.5 32 40 27 G1/4” 51 65 32 7 15 45(*) 114 49(*) 32 6.6 35.5 45 33 G1/4” 58 70 35.5 10 25 58(*) 128 47(*)
Type SCD
40 11 50 60 41 G 3/8” 87 110 52 14 10 25 60(*) 153 71(*) 50 14 45 75 52 G ½” 105 130 60 18 10 25 67 159 66.7(*) 63 14 45 90 65 G ½” 117 145 60 18 13 32 75(*) 168 91(*) 80 18 50 110 83 G ¾” 149 180 74 24 10 31 82(*) 190 88(*)
100 18 55 130 97 G ¾” 162 200 77 24 10 35 91(*) 203 78(*) 125 22 57 165 126 G 1” 208 250 78 31 10 35 92(*) 232 104(*) 160 27 70 200 155 G 1” 253 300 95 36 7 32 97.5(*) 245 113.5(*) 200 30 88 245 190 G 1 ¼” 300 360 118 38 7 32 112.5(*) 299 152.5(*)
(+..) add stroke (*) don’t comply with ISO 6020/2
Look rod extremities pag.5
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 12 of 23
Fixed articulated joint: -C- ISO code: MP3 Look rod extremities pag.5
BORE L EW E MRX LX CD H8 MR KB GA JA WH VD XC+.. PJ+.. Y NOTE 40 19 20 60 34 36 14 17 14 52 50 25 10 172 71(*) 71(*) 50 32 30 75 58 61 20 29 18 60 45 25 10 191 66.7(*) 66.7(*) 63 32 30 90 58 61 20 29 18 60 45 32 13 200 91(*) 91(*) 80 39 40 110 68 73 28 34 24 74 50 31 10 229 88(*) 88(*)
100 54 50 130 120 115 36 50 24 77 55 35 10 257 78(*) 78(*) 125 160 200
(+..) add stroke (*) don’t comply with ISO 6020/2
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 13 of 23
Ball jointed eye: -D- ISO code: MP5
BORE EP EX LT CX MS KB E GA JA VD WH Y XO+.. PJ+.. NOTE 25 9 10 16 12 20 7 40 32 32 15 45(*) 130 49(*) 32 12 14 20 16 25 10 45 35.5 35.5 25 58(*) 148 47(*)
Type SCD
40 14 16 25 20 29 14 60 52 50 10 25 60(*) 178 71(*) 50 18 20 31 25 33 18 75 60 45 10 25 67 190 66.7(*) 63 20 22 38 30 40 18 90 60 45 13 32 75(*) 206 91(*) 80 24 28 48 40 50 24 110 74 50 10 31 82(*) 238 88(*)
100 30 35 58 50 57 24 130 77 55 10 35 91(*) 261 78(*) 125 40 44 72 60 78 31 165 78 57 10 35 92(*) 304 104(*) 160 50 55 92 80 98 36 200 95 70 7 32 97.5(*) 337 113.5(*) 200 65 70 116 100 135 38 245 118 88 7 32 112.5(*) 415 152.5(*)
(+..) add stroke (*) don’t comply with ISO 6020/2
Look rod extremities pag.5
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 14 of 23
Feet: -E- ISO code: MS2
BORE JA GA XS WH E SB LH ST EE TS KB VD US Y SS+.. ZJ+.. PJ+.. NOTE 25 32 32 33 15 40 6.6 19 8.5 G1/4” 54 7 72 45(*) 73 114 49(*) 32 35.5 35.5 45 25 45 6 22 12.5 G1/4” 63 10 84 58(*) 73 128 47(*)
Type SCD
40 50 52 45 25 60 11 31 12.5 G 3/8” 83 14 10 110(*) 60(*) 98 153 71(*) 50 45 60 54 25 75 14 37 19 G ½” 102 18 10 130(*) 67 92 159 66.7(*) 63 45 60 65 32 90 18 44 26 G ½” 124 18 13 161 75(*) 86 168 91(*) 80 50 74 68 31 110 18 57 26 G ¾” 149 24 10 186 82(*) 105 190 88(*)
100 55 77 79 35 130 26 63 32 G ¾” 172 24 10 216 91(*) 102 203 78(*) 125 57 78 79 35 165 26 82 32 G 1” 210 31 10 250 92(*) 131 232 104(*) 160 70 95 86 32 200 33 101 38 G 1” 260 36 7 300 97.5(*) 130 245 113.5(*) 200 88 118 92 32 245 39 122 44 G 1 ¼” 311 38 7 360 112.5(*) 172 299 152.5(*)
(+..) add stroke (*) don’t comply with ISO 6020/2
Look rod extremities pag.5
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 15 of 23
Intermediate trunnions: -H- ISO code: MT4
BORE KB E TD f8
BD UM UW TM VD WH Y GA JA XVmin XVmax ZJ+.. PJ+.. NOTE
25 7 40 12 20 68 45 48 15 45(*) 32 32 67 72+.. 114 49(*) 32 10 45 16 25 79 50 55 25 58(*) 35.5 35.5 83 80+.. 128 47(*)
Type SCD
40 14 60 20 29 108 65 76 10 25 60(*) 52 50 96 92+.. 153 71(*) 50 18 75 25 38 129 80 89 10 25 67 60 45 106 94+.. 159 66.7(*) 63 18 90 32 48 150 100 100 13 32 75(*) 60 45 118 98+.. 168 91(*) 80 24 110 40 58 191 120 127 10 31 82(*) 74 50 133 108+.. 190 88(*)
100 24 130 50 68 220 130 140 10 35 91(*) 77 55 147 113+.. 203 78(*) 125 31 165 63 88 278 180 178 10 35 92(*) 78 57 166 123+.. 232 104(*) 160 36 200 80 108 341 215 215 7 32 97.5(*) 95 70 183.5 118.5+.. 245 113.5(*) 200 38 245 100 125 439 300 279 7 32 112.5(*) 118 88 215.5 145.5+.. 299 152.5(*)
(+..) add stroke (*) don’t comply with ISO 6020/2
Look rod extremities pag.5
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 16 of 23
Female clevis: -M- ISO code: MP1
BORE CB CF L CD MR GA JA KB VD WH Y XC+.. PJ+.. NOTE 25 16(*) 40 13 10 12 32 32 7 15 45(*) 127 49(*) 32 16 45 19 12 11 35.5 35.5 10 25 58(*) 147 47(*)
Type SCD
40 20 60 19 14 16 52 50 14 10 25 60(*) 172 71(*) 50 30 74 32 20 18 60 45 18 10 25 67 191 66.7(*) 63 30 90 32 20 18 60 45 18 13 32 75(*) 200 91(*) 80 40 110 39 28 31 74 50 24 10 31 82(*) 229 88(*)
100 50 130 54 36 46 77 55 24 10 35 91(*) 257 78(*) 125 64(*) 164 57 45 53 78 57 31 10 35 92(*) 289 104(*) 160 80(*) 200 63 56 57 95 70 36 7 32 97.5(*) 308 113.5(*) 200 80 245 84 70 76 118 88 38 7 32 112.5(*) 381 152.5(*)
(+..) add stroke (*) don’t comply with ISO 6020/2
Look rod extremities pag.5
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 17 of 23
Rod end eye with spherical bearing: -CS-
ISO code: 6982 – DIN: 24338
Type C CH EN EU CN LF AX KK N Kg CS 1415 40 44 16 13 16 20 19 M14x1.5 21 0.20 CS 1615 47 52 20 17 20 22 23 M16x1.5 25 0.35 CS 2015 58 65 25 22 25 27 29 M20x1.5 30 0.62 CS 272 71 80 32 28 32 32 37 M27x2 38 1.15 CS 332 90 97 40 33 40 41 46 M33x2 47 2.18 CS 422 109 120 50 41 50 50 57 M42x2 58 3.96 CS 482 136 140 63 53 63 62 64 M48x2 70 6.80 CS 643 170 180 80 67 80 78 86 M64x3 90 13.00 CS 803 211 210 100 85 100 98 96 M80x3 110 25.00 CS 1003 265 260 125 103 125 120 113 M100x3 135 46.00
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 18 of 23
Rod end eye with spherical bearing: -TS- ISO code: 8133 – DIN: 24555
Type AX C CH CN EN EU LF KK N Kg
TS 1415 19 55 58 20 13 16 28 M14x1.5 25 0.43 TS 1615 23 65 68 25 17 20 31 M16x1.5 30 0.67 TS 2015 29 80 85 30 19 22 35 M20x1.5 36 1.25 TS 272 37 100 105 40 23 28 45 M27x2 45 2.16 TS 332 46 120 130 50 30 35 58 M33x2 55 3.90 TS 422 57 160 150 60 38 44 68 M42x2 68 7.15 TS 482 64 205 185 80 47 55 82 M48x2 90 15.00 TS 643 86 240 240 100 55 70 116 M64x3 110 27.30
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 19 of 23
Rod end clevis with pin: -CF- ISO code: 8133
Type CE CK CL CM ER LE Kg KK NOTE
CF 1415 38 14 40 20 17 19 0.23 M14x1.5 CF 1615 54 20 60 30 29 32 0.90 M16x1.5 CF 2015 60 20 60 30 29 32 0.91 M20x1.5 CF 272 75 28 80 40 34 39 1.92 M27x2 CF 332 99 36 100 50 50 54 4.92 M33x2 CF 422 113 45 120 60 53 57 6.53 M42x2 CF 482 136 56 140 70 59 63 10.11 M48x2 CF 643 168 70 160 80 78 83 19.20 M64x3 CF 803 168 70 160 80 78 83 18.42 M80x3
The pivot and seeger circlip ring are included in the yoke. .
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 20 of 23
Bearing type: -IS…- ISO code: 8132
Type H H1 H2 G(H7) E E1 N N1 B4 (N9) T Peso Kg IS 20 45 38 69 20 90 21 60 10 16 4.3 1.21 IS 25 55 45 80 25 110 26 80 12 25 5.4 2.15 IS 32 65 52 100 32 150 33 110 15 25 5.4 4.63 IS 40 76 60 120 40 170 41 125 16 36 8.4 7.78 IS 50 95 75 140 50 210 51 160 20 36 8.4 14.3 IS 63 112 85 177 63 265 61 200 25 50 11.4 23.4
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 21 of 23
Bearing type: -DK…- DIN code: 24-556
Type CP CG FM CF (K7) LJ LG LO SR UJ UK GL TA RE FO CO KC HB Peso Kg DK 20 50 16 55 20 40 39 80 20 120 90 64 58 85 20 16 4.3 13.5 1.72 DK 25 60 20 65 25 49 48 98 25 140 110 78 70 100 22 25 5.4 15.5 2.72 DK 30 70 22 85 30 63 62 120 30 160 135 97 90 115 24 25 5.4 17.5 5.15 DK 40 80 28 100 40 73 72 148 40 190 170 123 120 135 24 36 8.4 22 9.3 DK 50 100 35 125 50 92 90 190 50 240 215 155 145 170 35 36 8.4 30 18.3 DK 60 120 44 150 60 110 108 225 60 270 260 187 185 200 35 50 11.4 39 35
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 22 of 23
Ref. COMPONENTS 1 Rod 2 Bushing 3 Brake regulation “Optional” 4 Front end cap 5 Front cushioning “Guide” 6 Front cushioning 7 Piston 8 Counter piston 9 Rear cushioning 10 Cylinder body 11 Tie rods 12 Seeger 13 Rear cushioning “Ring” 14 Rear end cap 15 Self locking nuts
OLEODINAMICA SABATINI s.r.l. CYLINDER ISO 6020/2-91
CAT-2004-I.doc Cylinder type: SCI Page 23 of 23
Cod. DESCRIPTION G1 Rod seal G2 Wiper G3 Piston seal
G4A O-ring seal G4B Anti extrusion seal G5 O-ring seal G6 O-ring seal G7 Low friction seal
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