ISO/VDMA Cylinder Series C95 ø32, ø40, ø50, ø63, ø80, ø100 Conforming to ISO 6431/CETOP RP43P/VDMA 24562 Series Variations Series Action Double acting Type Single rod Double rod Non- lube Non- lube Basic Standard variations Built-in magnet Option Heat resistant Stainless steel rod Bore (mm) 32, 40 50, 63 80, 100 Page Double acting Single rod Double rod Non- lube Non- lube 32, 40 50, 63 80, 100 Double acting Non- lube 32, 40 50, 63 80, 100 Single rod Standard Series C95 Non-rotating Rod Series C95K With Lock Series C95N 6-12-2 6-12-12 6-12-19 (Standard) (Standard) (Standard) (Standard) 6-12-1 CJ1 CJP CJ2 CM2 CG1 MB MB1 CA2 CS1 C76 C85 C95 CP95 NCM NCA D- -X 20- Data
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ISO/VDMA Cylinder Series C95 - SMC Pneumatics · ISO/VDMA Cylinder Series C95 ø32, ø40, ø50, ø63, ø80, ø100 Conforming to ISO 6431/CETOP RP43P/VDMA 24562 Series Variations Series
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ISO/VDMA Cylinder
Series C95ø32, ø40, ø50, ø63, ø80, ø100
Conforming to ISO 6431/CETOP RP43P/VDMA 24562
Series Variations
Series Action
Doubleacting
Type
Single rod
Double rod
Non-lube
Non-lube
BasicStandard variationsBuilt-in magnet
Option
Heatresistant
Stainlesssteel rod
Bore(mm)
32, 4050, 6380, 100
Page
Doubleacting
Single rod
Double rod
Non-lube
Non-lube
32, 4050, 6380, 100
Doubleacting
Non-lube
32, 4050, 6380, 100
Single rod
Standard Series C95
Non-rotating Rod Series C95K
With LockSeries C95N
6-12-2
6-12-12
6-12-19
(Standard)
(Standard)
(Standard)
(Standard)
6-12-1
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
ISO/VDMA Cylinder: Standard TypeDouble Acting, Single/Double Rod
Series C95ø32, ø40, ø50, ø63, ø80, ø100
How to Order
C95SDBuilt-in magnet
Bore size
Stroke (mm)
3240506380
100
32 mm40 mm50 mm63 mm80 mm
100 mm
Mounting styleBLFGCDT
Basic/without bracket styleAxial foot style
Rod side flange styleHead side flange style
Single clevis styleDouble clevis style
Center trunnion style
B 32 100
Number ofauto switches
Auto switchNil Without auto switch
A53
C95S B 32 100
NilS3n
2 pcs.1 pc.3 pcs.
“n” pcs.
WSingle rodDouble rod
Rod
W
W
Nil
S
32
BMB2-032
40
BMB2-040
63
BMB1-063
50
BMB1-05080
BMB1-080
100
BMB1-100
Bore size (mm)
D-A3/A4/K3/G3
D-A5/A6/F5/J5
D-Z�/Y�D-P5DWL
BT-03
BMB4-032
BMB3T-040
BT-05
BMB4-050
BMB3T-050
BT-06
BMB4-063
BMB3T-080
Auto Switch Mounting Bracket Part No.
∗ For the applicable auto switch model, refer to the table below.
With auto switch
Without auto switch
Refer to “Standard Stroke” on page 6-12-4.
∗ Lead wire length symbols: 0.5 m ········· Nil (Example) A533 m ········· L (Example) A53L5 m ········· Z (Example) A53Z
�: Manufactured upon receipt of order.Refer to page 6-16-1 for details of applicable auto switches in addition to those listed above.
�
������———
�
�������——
�
�������——
Relay, PLC
IC
IC—
IC—
IC
—
4-wire (NPN)
3-wire (NPN)
2-wire
2-wire3-wire (PNP)3-wire (NPN)3-wire (PNP)
3-wire (NPN)2-wire
2-wire
5 V, 12 V—
5 V, 12 V12 V
5 V, 12 V
—
Terminalconduit
Diagnostic output (2-color)Strong magnetic field
resistant (2 color)
Water resistant (2-color)
—
—
Diagnostic indication(2-color)
F5NTL — � �
— � �
—
Yes
3-wire (NPN)5 V, 12 VGrommet
With timer
Applicable Auto Switch/Tie-rod MountingWiring
(Output)Tie-rod
mountingBand
mounting0.5(Nil)
3(L)
5(Z)
—
—
NoPLC
A56
A53A54A67A64
A59WZ76Z73Z80———
F59F5PJ51J59
F59WF5PWJ59W
F5BAL
�
��������———�������—
�
��������———��������
—
��————�————��������
—
————————
A33A34A44——————
——
Relay, PLC
Relay, PLC
Lead wire length (m)Auto switch model
DC
Load voltageApplicable load
Relay, PLC
Type Special function
Yes
Yes
No
Indi
cato
r lig
ht
Ree
d sw
itch
Relay, PLC
Yes
AC
—
—100 V, 200 V
—200 V or less
——
AC 100100 V or less
—
100 V, 200 V
—
100 V, 200 V
—
IC
IC
IC—IC
—
—
IC
—
IC
—
—
—
—
—
—
24 V
24 V
24 V
24 V
Sol
id s
tate
sw
itch
3-wire(Equiv. to NPN)
3-wire
3-wire (NPN)3-wire (PNP)
3-wire (NPN)3-wire (PNP)
2-wire
2-wire
2-wire
2-wire
5 V
5 V, 12 V12 V—5 V12 V
5 V, 12 V
—
—
12 V
5 V, 12 V
12 V
5 V, 12 V
12 V
12 V
DIN terminal
Electricalentry
Grommet
Terminalconduit
Diagnostic indication (2-color)
Water resistant (2-color)
—
—
—
Diagnostic indication(2-color)
F59F
P5DW
Y59AY59BY7P
Y7NWY7PWY7BWY7BAL
——
—
—
———————
G39K39
6-12-2
Mounting Accessory, Cylinder
Mounting Accessory, Rod
Boresize
(mm)
32
40
50
63
80
100
Boresize
(mm)
32
40
50
63
80
100
Boresize
(mm)
32
40
50
63
80
100
With lockWithout lock
MNB-F03
MNB-F04
MNB-F05
MNB-F06
F5080
F5100
F5032
F5040
F5050
F5063
F5080
F5100
See page 6-12-8 and 24 for dimensions.
D5032
D5040
D5050
D5063
D5080
D5100
See pages 6-12-8, 9 and 24 for dimensions
Plain With ball joint
C5032 CR5032
C5040 CR5040
C5050 CR5050
C5063 CR6063
C5080 CR5080
C5100 CR5100
See pages 6-12-8, 9 and 24 for dimensions.Note) See page 6-12-9 for male head side clevis with swivel CR50.
L5032
L5040
L5050
L5063
L5080
L5100
See page 6-12-8 and 24 for dimensions.
E5032
E5040
E5050
E5063
E5080
E5100
See page 6-12-9 for dimensions.
DS5032
DS5040
DS5050
DS5063
DS5080
DS5100
See page 6-12-10 for dimensions.
ES5032
ES5040
ES5050
ES5063
ES5080
ES5100
See page 6-12-10 for dimensions.
GKM10-20
GKM12-24
GKM16-32
GKM16-32
GKM20-40
GKM20-40
See page 6-12-11 for dimensions.
KJ10D
KJ12D
KJ16D
KJ16D
KJ20D
KJ20D
See page 6-12-11 for dimensions.
JA30-10-125
JA40-12-125
JA50-16-150
JA50-16-150
JAH50-20-150
JAH50-20-150
See page 6-12-11 for dimensions.
F D C
L DS ES E
GKM KJ JA
Rod/Head side flange
Supplied with 4 screws
Female head side clevis(Corresponds to E accessories)
Supplied with bolt, safety deviceand 4 screws
Male head side clevis
Supplied with 4 screws
Foot
Supplied with two piecesSupplied with 4 screws
Female head side clevis(for ES accessory)
Angled head side cleviswith ball joint
Angled head side clevis
Rod clevisISO 8140
Piston rod ball jointISO 8139
Floating joint
Supplied with bolts and safety devices
Accessory
6-12-3
Series C95ISO/VDMA Cylinder: Standard TypeDouble Acting, Single/Double Rod
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Specifications
Action
Fluid
Proof pressure
Max. operating pressure
Min. operating pressure
Ambient and fluid temperature
Lubrication
Operating piston speed
Allowable stroke tolerance
Cushion
Thread tolerance
Port size
Mounting
Bore size (mm)
Double acting
Air
1.5 MPa
1.0 MPa
0.05 MPa
Without auto switch: –10 to 70°C (No freezing)With auto switch: –10 to 60°C (No freezing)
Example: Load limit at rod end when air cylinder ø63 is actuated with max. actuating speed 500 mm/s. See the intersection of lateral axis 500 mm/s and ø63 line, and extend the intersection to left. Thus the allowable load is 80 kg.
161
138
251
211
393
330
623
561
1005
907
1571
1429
241
207
377
317
589
495
935
841
1508
1361
2356
2144
322
276
503
422
785
660
1247
1121
2011
1814
3142
2859
402
346
629
528
982
825
1559
1402
2514
2268
3927
3574
482
415
754
634
1178
989
1870
1682
3016
2722
4712
4288
563
484
880
739
1374
1154
2182
1962
3519
3175
5498
5003
643
553
1006
845
1570
1319
2494
2242
4022
3629
6283
5718
724
622
1131
950
1767
1484
2805
2523
4524
4082
7068
6432
804
691
1257
1056
1963
1649
3117
2803
5027
4536
7854
7147
Additional weight per each 50 mm of stroke
• Mounting ·········· 0.32 (kg) (Double clevis)
6-12-5
Series C95ISO/VDMA Cylinder: Standard TypeDouble Acting, Single/Double Rod
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Construction
Component PartsNo.q
w
e
r
t
y
u
i
o
!0
!1
!2
!3
DescriptionAluminum die-castedAluminum die-casted
Aluminum alloyCarbon steel
Aluminum alloyBrass
Carbon steelSteelSteel
Steel wireLead-bronze casted
Steel for springUrethan rubber
Rod coverHead coverCylinder tubePiston rodPistonCushion ringTie-rodTie-rod nutRod end nutCushion valveBushingSnap ringCushion seal
∗ Seal kits consist of items !3 to !7 contained in one kit, and can be ordered using the order number for each respective tube bore size.
[First angle projection]
Series C95
6-12-6
Dimensions: Without Mounting Bracket
3240506380
100
Bore size(mm)
222432324040
AM
303540454555
øBe11
121620202530
øD
G 1/8G 1/4G 1/4G 3/8G 3/8G 1/2
EE
131415.516.51919
PL
M6 x 1M6 x 1
M8 x 1.25M8 x 1.25M10 x 1.5M10 x 1.5
RT
66.588
1010
L12
M10 x 1.25M12 x 1.25M16 x 1.5M16 x 1.5M20 x 1.5M20 x 1.5
KK
101316162121
SW
272731.531.53838
G
161616161616
BG(MIN)
94105106121128138
L8
446688
VD
444444
VA
4459
11.517
WA
6.59
10.5121415
WB
263037374651
WH
146163179194218233
ZZ
190213244259300320
ZY
4652657595
114
�E
32.53846.556.57289
�R
151724243032
L2
445555
L9
C95SB Bore size - Stroke
C95SB Bore size - Stroke W
[First angle projection]
6-12-7
Series C95ISO/VDMA Cylinder: Standard TypeDouble Acting, Single/Double Rod
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Dimensions: Cylinder Mounting Accessory
3240506380
100
Bore size(mm)
48556880
100120
E1
323645506375
R
162025253035
W
101012121616
MF
130145155170190205
ZF
7999
1214
øFB
101212161620
øCDH9
65758090
110140
EB
121515202025
L
142160170190210230
XD
4552607090
110
UBh14
262832405060
CBH14
9.51212161620
262832405060
EW -0.2-0.6 MR
323645506375
TR
101112121416
AO
4.54.55.55.56.56.5
AT
144163175190215230
XA
142161170185210220
SA
323645506371
AH
71010101214.5
øAB
172222283440
L1
7382.59097.5
110120
XV
95106.5122129.5150160
Z
121616202025
TL
121616202025
øTDe8
50637590
110132
TM
49587187
110136
UW
647290
100126150
TF
7990
110120153178
UF
50557080
100120
E2
Foot style (L)
Rear double clevis D
Center trunnion style (T)
Head side mounting (G)
Rod side mounting (F)
Flange style (F, G)
Head sidesingle clevis style (C)
Head sidedouble clevis style (D)
XV + 1/2 Stroke
[First angle projection]
Series C95
6-12-8
6-12-9
Series C95ISO/VDMA Cylinder: Standard TypeDouble Acting, Single/Double Rod
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Dimensions: Cylinder Mounting Accessory C, D, E and CR
Bore size(mm) �E1 EW �TG1 FL l1 L I2 ød1 CD MR d2 R1 �E2 UB CB
26 22 5 12 30 10 26
28 25 5 15 35 12 28
32 27 5 15 40 12 32
40 32 5 20 45 16 40
50 36 5 20 45 16 50
32
40
50
63
80
100
45
51
64
74
94
113 60
32.5
38
46.5
56.5
72
89 41 5 25
5.5
5.5
6.5
6.5
10
10 55 20
9.5
12
12
16
16
20
6.6
6.6
9
9
11
11
6.5
6.5
8.5
8.5
11
12
48
56
64
75
95
115
45
52
60
70
90
110 60
Bore size(mm) ød2 øCK øS5 K1 K2 l3 G1 l1 G2 EM G3 CA H6 R1
11 10 38 51 10 21 18 26 31 32 10
11 12 41 54 10 24 22 28 35 36 11
15 12 50 65 12 33 30 32 45 45 12
15 16 52 67 14 37 35 40 50 50 15
18 16 66 86 18 47 40 50 60 63 15
32
40
50
63
80
100 18 20
6.6
6.6
9
9
11
11 76 96 20 55
7
9
11
11
12.5
13.5 50 60 70 71
8
10
12
12
14
15 19
Mounting style (E)
Mounting style (C) Mounting style (D)
Mounting style (CR): Head side clevis with ball joint
A B C D EN ER F E L M N P HBoresize(mm) ±0.2 max ±0.2 H7 –0.1 max H11 H13 H13 ±0.5 ±0.5
22 10 14 15 30 5 —
25 12 16 18 35 5 —
27 16 21 20 40 5 51
32 16 21 23 45 5 —
36 20 25 27 45 5 —
32
40
50
63
80
100
32.5
38
46.5
56.5
72
89
10.5
12
15
15
18
18 41 20 25 30 55
6.6
6.6
9
9
11
11
45
55
65
75
95
115
10.5
11
15
15
18
18
5.5
5.5
6.5
6.5
10
10 5 —
[First angle projection]
Series C95
6-12-10
Dimensions: Cylinder Mounting Accessory DS and ES
Mounting style (DS)
Mounting style (ES)
Bore size(mm)
�E B1 B2 B3 �TG1 T I1(min)
I2 FL H ød1 ød2 ød3 CN
14 34 3.3 3 5 22 10 30 10
16 40 4.3 4 5 25 10 35 12
21 45 4.3 4 5 27 10 40 16
21 51 4.3 4 5 32 12 45 16
25 65 4.3 4 5 36 16 45 20
32
40
50
63
80
100
45
55
65
75
95
115 25 75 6.3
32.5
38
46.5
56.5
72
89 4 5
5.5
5.5
6.5
6.5
10
10 41 16 55
10.5
11
15
15
18
18
6.6
6.6
9
9
11
11 20
Bore size(mm) ød3 øCN øS5 K1 K2 I2 G1 G2 G3 EN EU CH H6 ER
32 11 10 38 51 21 18 31 14 32 10 15
40 11 12 41 54 24 22 35 16 36 10 18
50 15 16 50 65 33 30 45 21 45 12 20
63 15 16 52 67 37 35 50 21 50 12 23
80 18 20 66 86 47 40 60 25 63 14 27
100 18 20
6.6
6.6
9
9
11
11 76 96
11.5
8.5
8.5
10.5
10.5
12.5 55 50 70 25
10.5
12
15
15
18
18 71 15 30
[First angle projection]
SR(max)
11
13
18
18
22
22
R
17
20
22
25
30
32
6-12-11
Series C95ISO/VDMA Cylinder: Standard TypeDouble Acting, Single/Double Rod
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Dimensions: Piston Rod Mounting Accessory
Floating Joint JASteel
Bore size (mm)
Bore size (mm)
M Part no. A B C øD E F G H P U Load (kN) Weight (g) Angle
— 17
— 22 ± 5°— 27
32
40
50, 63
80, 100
M10 x 1.25
M12 x 1.25
M16 x 1.5
M20 x 1.5
JA30-10-125
JA40-12-125
JA50-16-150
JAH50-20-150
49.5
60
71.5
101
19.5
20
22
28 31
24
31
41
59.5 11.5
5
6
7.5
8
11
14
24
8
11
13.5
16 32
9
13
15
18
0.5
0.75
1.0
2.0
2.5
4.4
11
18
70
160
300
1080
Rod Clevis GKM (ISO 8140), Supplied with Bolt and Safety DeviceSteel
e Part no. b d øfh11 l1max.
cmin.
amin.
GKM10-20 40 10 20 20
GKM12-24 48 12 24 24
GKM16-32 64 16 32 32
32
40
50, 63
80, 100
M10 x 1.25
M12 x 1.25
M16 x 1.5
M20 x 1.5 GKM20-40
10 + 0.50+ 0.15
+ 0.50+ 0.15
+ 0.50+ 0.15
+ 0.60+ 0.15
12
16
20 80 20
52
62
83
105 40 40
Piston Rod Ball Joint KJ (ISO 8139)Steel
d3 Part no. ød1H9 h d6max.
KJ10D 10 43
KJ12D 12 50
KJ16D 16 64
32
40
50, 63
80, 100
M10 x 1.25
M12 x 1.25
M16 x 1.5
M20 x 1.5 KJ20D 20 77
28
32
42
50
b1h12 lmin. a l3
13° 14
13° 16
15° 26
14
16
21
25
20
22
28
33 15° 26
Bore size (mm)
[First angle projection]
Made to Order Common Specifications:-XB6: Heat Resistant Cylinder (–10 to 150°C)
Heat Resistant Cylinder (–10 to 150°C)Symbol
-XB62Air cylinder which changed the seal material and grease, so that it could be used even at higher temperature up to 150 from –10°C.
Applicable SeriesSeries
CJP
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
CU
CQS
CQ2
MK
MGP
MGQ
MGG
MGC
CY1
CJP
CJ2
CJ2W
CM2
CM2W
CM2K
CM2KW
CM2R
CM2RK
CBM2
CG1
CG1W
CG1R
MB
MBW
MB1
MB1W
CA2�N
CA2W�N
CBA2
CS1�N
CS1W�N
C76
C76W
C85
C85W
C95S
C95S��-�W
CP95S
C95S��-�W
CU
CUK
CQS
CQSW
CQ2
CQ2W
CQP2
MK
MGPM
MGQ
MGG
MGC
CY1B
Description
Compact guide cylinder
Compact cylinder
Compact cylinder
Guide cylinder
Magnetically coupled rodless cylinder
Axial piping type (Centralized piping type)
Rotary clamp
Cylinder with end lock
Free mount cylinder
Non-rotating rod type
Non-rotating rod type
Pin cylinder
CJ2 Air cylinder
Air cylinder
Air cylinder
Air cylinder
Air cylinder
Air cylinder
Air cylinder
Air cylinder
ISO cylinder
ISO cylinder
ISO cylinder
Direct mount type
Non-rotating rod, Direct mount type
Cylinder with end lock
Double rod type
Direct mount type
Model Action
Double acting, Single rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Single rod
Double acting, Single rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Single rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting, Double rod
Double acting, Single rod
Double acting
Double acting
Double acting
Double acting
Compact type
Basic type
Note
Except clevis and trunnion style
Except with air cushion
Except with air cushion
Except with rubber bumper
Except with rubber bumper
Except with rubber bumper
Except without air cushion
Except without air cushion
Except without air cushion
Except without air cushion
Applicable bore size (125 to 200mm)
Refer to page 6-10-46.
Refer to page 6-10-46.
Refer to page 6-11-47.
Refer to page 6-11-47.
Except with rubber bumper
Except with rubber bumper
Except with rubber bumper
Except with rubber bumper
Except with rubber bumper
Except with shock absorber, with rubber cushion
Except with rubber bumper
6
6
6
6
6
6
6
6
6
6
7
7
7
10
8
8
8
8
8
Vol. no. (for std model)
6
6-17-23
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Made to Order Common Specifications:-XB6: Heat Resistant Cylinder (–10 to 150°C)
Heat Resistant Cylinder (–10 to 150°C)Symbol
-XB62
XB6CY1B H
Heat resistant cylinder �
Bore size Stroke
How to Order
SpecificationsCY1B
6 to 63
50 to 150°C∗
0.5 MPa
50 to 400 mm/s∗
Applicable size
Bore size (mm)
Ambient and fluid temperature
Maximum operating pressure
Piston speed
6
14.4
17.2
10
40.0
47.9
15
90.1
107
20
160
192
25
250
299
32
410
490
40
641
766
50
1000
1190
63
1590
1900
Bore size (mm)
Operating Pressure Limit for Intermediate Stop and Vertical Operation
Temperature Range for Operating Cylinder and Piston Speed
<Reference>
Magnetic Holding Force
0.4 MPa∗Maximum operating pressure at the intermediate stop
Holding force
(at 150°C)
Holding force
(at 100°C)
(mm/s)
400
200
20 80 100 120 140 1606040
Standardproducts
Ambient temperature
Pis
ton
spee
d
(N)
qq
e
(°C)
XB6XB6XB6
1. When using with the operating temperature from 60 up to 100°C, and the piston speed of more than 200 mm/s, please consult with SMC separately.
2. When using with the operating temperature from 50 up to 100°C, and the piston speed of less than 200 mm/s, XB6 specifications can be used.
3. As for XB6, regarding the temperature range (over 50 to 60°C) which overlaps the one of standard products, consider the tendency of operating temperature (upper, lower limits), then choose a model.
∗ Use caution that the magnet coupling will be removed, if it is used to stop in an intermediate stroke by an external stopper with the operating pressure over 0.4 MPa.
∗ When using in less than 100°C range, since it could make a difference in the maintenance cycle, depending on the operating speed, use it at 200 mm/s or less.
XB6
Heat resistant cylinder(150°C) �
Standard model no. �Details on pages 6-12-2 and 6-13-4
How to Order
SpecificationsAir cylinder/Standard
C95/CP95
Double acting/Single rodDouble acting/Double rod
32, 40, 50, 63, 80, 100
Basic, Foot, Flange, Clevis, Trunnion
–10 to 150°C
Fluorine rubber
Heat resistant grease
Applicable cylinder
Series
Action
Bore size(mm)
Mounting
Ambient and fluid temperature
Packing material
Grease
C95CP95
Note 1) Operate without lubrication from a pneumatic system lubricator.Note 2) Please contact SMC for details on the maintenance intervals for
this cylinder, which differ from those of the standard cylinder.Note 3) In principle, it is impossible to make built-in magnet type and the
one with auto switch. But, as for the one with auto switch, and the heat resistant cylinder with heat resistant auto switch, since it will be differed depending on the series, please contact SMC.
Note 4) Piston speed is ranged from 50 to 500 mm/s. But, for MGQ�80, 100 and MGP�80, 100, it will be 50 to 400 mm/s. 50 to 200 mm/s for Series MK. Please contact SMC for operating speed of Series CY1B.
Note 5) Please contact SMC for Series CQ2 and MGQ with rubber bumper.
Note 6) As for the ambient temperature range of Series CY1B, since the magnetic holding force will be varied depending on the operating conditions, make sure that by referring to page 6-17-22.
XB6
Heat resistant cylinder �
Standard model no.
How to Order
Specifications–10 to 150°C (0 to 150°C for Series CS1)
Same as standard type
Heat resistant grease
Fluoro rubber
Ambient temperature range
Seals materials
Grease
Specifications other than above and external dimensions
PrecautionsWarning
Be aware that smoking cigarettes, etc. after your hands have come into contact with the grease used in this cylinder can create a gas that is hazardous to humans.
When using with the operating temperature fluctuated between 50°C or less and 100°C or more,the operating speed, etc. will be largely restricted by the durability. Prior to use, please contact SMC.
Maintenance cycle for XB6 could vary substantially, depending on the operating condition and the ambient temperature. Even if using in our recommended range, as a guide, conduct it in around 1/2 intervals, compared to the standard products.
6-17-24
Made to Order Common Specifications:-XC18: NPT Finish Piping Port
∗ With pre-wire connector is available for solid state auto switches. For details, refer to page 6-16-60. ∗ Normally closed (NC = b contact), solid state switch (D-Y7G/Y7H type) are also available. For details, refer to page 6-16-39.
Other than the applicable auto switches listed in “How to Order”, the following auto switches can be mounted. For detailed specifications, refer to page 6-16-1.
[First angle projection]
6-12-17
Series C95/C95K
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
6-12-18
Series C95/C95KSpecific Product PrecautionsBe sure to read before handing.
Adjustment
Warning Operating Precautions
Caution
Mounting & Piping
Widthacross flatsBore size (mm) Bolt
32, 40
50, 63
MB-32-48-C1247
MB-50-48-C1249
MB-80-48AC1251
MB-80-48BC1251
4
80,
100
Foot
Others
5
6
4.9
11
25
With Non-rotating Rod (Double Acting, Single Rod)
1. Do not open the cushion valve above the stopper.Cushion valves are provided with a crimp (ø32) or a retaining ring (ø40 to ø100) as a stopping mechanism, and the cushion valve should not be opened above that point.If air is supplied and operation started without confirming the above condition, the cushion valve may be ejected from the cover.
2. Be certain to activate the air cushion at the stroke end.When it is intended to use the cushion valve in the fully opened position, select a style with a damper. If this is not done, the tie-rods or piston rod assembley will be damaged.
3. When replacing brackets, use the hexagon wrenches shown below.
1. Do not apply more than the allowable rotating torque to the piston rod.If more than the allowable rotating torque is applied, the non-rotating guide will be deformed and there will be a significant loss of rotational accuracy. This may cause damage to the machinery.
1. Mounting of a workpiece at the rod endWhen screwing a fitting or nut, etc. onto the threads at the end of the piston rod, push the piston rod into its fully retracted position, and grasp the protruding section with a wrench.Furthermore, when tightening, take care that the torque is not applid to the non-rotating guide.
Caution
Tightening torque(N·m)
6-12-19
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
ISO/VDMA Cylinder: With Lock TypeDouble Acting, Single Rod
Series C95Nø32, ø40, ø50, ø63, ø80, ø100
How to Order
Built-in magnet
Bore size
Stroke (mm)Refer to “Standard Stroke”on page 6-12-20.
Lock direction3240506380
100
32 mm40 mm50 mm63 mm80 mm
100 mm
Mounting styleBLFGCD
Basic/without bracket styleAxial foot style
Rod side flange styleHead side flange style
Single clevis styleDouble clevis style
NilSn
2 pcs.1 pc.
“n” pcs.
Number ofauto switchesAuto switch
Nil Without auto switch
D Both direction
C95ND B 32 100 A53 SD
DC95N B 32 100
With auto switch
Without auto switch
∗ For the applicable auto switch model, refer to the table below.
32
BMB2-032
40
BMB2-040
63
BMB1-063
50
BMB1-05080
BMB1-080
100
BMB1-100
Bore size (mm)
D-A3/A4/K3/G3
D-A5/A6/F5/J5
D-Z�/Y�D-P5DWL
BT-03
BMB4-032
BMB3T-040
BT-05
BMB4-050
BMB3T-050
BT-06
BMB4-063
BMB3T-080
Auto Switch Mounting Bracket Part No.
∗ Lead wire length symbols: 0.5 m ········· Nil (Example) A533 m ········· L (Example) A53L5 m ········· Z (Example) A53Z
�: Manufactured upon receipt of order.Refer to page 6-16-1 for details of applicable auto switches in addition to those listed above.
�
������———
�
�������——
�
�������——
Relay, PLC
IC
IC—
IC—
IC
—
4-wire (NPN)
3-wire (NPN)
2-wire
2-wire3-wire (PNP)3-wire (NPN)3-wire (PNP)
3-wire (NPN)2-wire
2-wire
5 V, 12 V—
5 V, 12 V12 V
5 V, 12 V
—
Terminalconduit
Diagnostic output (2-color)Strong magnetic field
resistant (2 color)
Water resistant (2-color)
—
—
Diagnostic indication(2-color)
F5NTL — � �
— � �
—Yes
3-wire (NPN)5 V, 12 VGrommet
With timer
Applicable Auto Switch/Tie-rod MountingWiring
(Output)Tie-rod
mountingBand
mounting0.5(Nil)
3(L)
5(Z)
—
—
NoPLC
A56
A53A54A67A64
A59WZ76Z73Z80———
F59F5PJ51J59
F59WF5PWJ59W
F5BAL
�
��������———�������—
�
��������———��������
—
��————�————��������
—
————————
A33A34A44——————
——
Relay, PLC
Relay, PLC
Lead wire length (m)Auto switch model
DC
Load voltageApplicable load
Relay, PLC
Type Special function
Yes
Yes
No
Indi
cato
r lig
ht
Ree
d sw
itch
Relay, PLC
Yes
AC
—
—100 V, 200 V
—200 V or less
——
AC 100100 V or less
—
100 V, 200 V
—
100 V, 200 V
—
IC
IC
IC—IC
—
—
IC
—
IC
—
—
—
—
—
—
24 V
24 V
24 V
24 V
Sol
id s
tate
sw
itch
3-wire(Equiv. to NPN)
3-wire
3-wire (NPN)3-wire (PNP)
3-wire (NPN)3-wire (PNP)
2-wire
2-wire
2-wire
2-wire
5 V
5 V, 12 V12 V—5 V12 V
5 V, 12 V
—
—
12 V
5 V, 12 V
12 V
5 V, 12 V
12 V
12 V
DIN terminal
Electricalentry
Grommet
Terminalconduit
Diagnostic indication (2-color)
Water resistant (2-color)
—
—
—
Diagnostic indication(2-color)
F59F
P5DW
Y59AY59BY7P
Y7NWY7PWY7BWY7BAL
——
—
—
———————
G39K39
JIS SymbolCylinder with lock
Specifications
Lock actuation
Unlocking pressure
Locking pressure
Maximum operating pressure
Locking direction
Lock SpecificationsSpring lock (Exhaust lock)
0.25 MPa or more
0.20 MPa or less
1.0 MPa
Two-way
Standard Stroke
Locking system
Spring lock
Stopping AccuracyPiston speed (mm/s)
100
±0.3
300
±0.6
500
±1.0
1000
±2.0
Bore size (mm)
Holding power N
Spring Lock Holding Power (Maximum static load)
882
40
1370
50
2160
63
3430
80
5390
100
Conditions / Horizontal supply pressure P = 0.5 MPa Load weight··········Upper limit of allowable value Solenoid valve for locking mounted on the unlocking port Maximum value of stopping position dispersion from 100 measurements
(mm)
For cases with auto switches, refer to the table of minimum strokesfor mounting of auto switches on page 6-12-25.
552
32
Bore size (mm) 32, 40, 50, 63, 80, 100
Non-lube
Air
1.5 MPa
1.0 MPa
0.08 MPa
50 to 1000 mm/s Note)
Double side air cushion
Up to 250:+1.0 0 , 251 to 1000:+1.4
0
Without auto switch: –10°C to 70°C (No freezing)With auto switch: –10°C to 60°C (No freezing)
Basic style, Axial foot style, Rod side flange style, Head side flange style, Single clevis style,
Double clevis style
Model
Fluid
Proof pressure
Maximum operating pressure
Minimum operating pressure
Piston speed
Cushion
Stroke length tolerance
Mounting
Ambient and fluidtemperature
Bore size (mm)
32
40
50
63
80
100
Standard stroke (mm)
25, 50, 75, 100, 125, 150, 175, 200, 250,
300, 350, 400, 450, 500
25, 50, 75, 100, 125, 150, 175, 200, 250,
300, 350, 400, 450, 500
25, 50, 75, 100, 125, 150, 175, 200, 250,
300, 350, 400, 450, 500, 600
25, 50, 75, 100, 125, 150, 175, 200, 250,
300, 350, 400, 450, 500, 600
25, 50, 75, 100, 125, 150, 175, 200, 250,
300, 350, 400, 450, 500, 600, 700, 800
25, 50, 75, 100, 125, 150, 175, 200, 250,
300, 350, 400, 450, 500, 600, 700, 800
Note) Load limits exist depending upon piston speed when locked, mounting direction and operating pressure.
Spring lock (Exhaust lock)The spring force which acts upon the taper ring is magnified by a wedge effect, and is conveyed to all of the numeous steel balls which are arranged in two circles. These act on the brake shoe holder and brake, which locks the piston rod by tightening against it with a large force.Unlocking is accomplished when air pressure is supplied to the unlocking port. The brake piston and taper ring oppose the spring force, moving to the right side, and the ball retainer strikes the cover section A. The braking force is released as the steel balls are removed from the taper ring by the ball re-tainer.
Construction Principle
Manual override for unlockingIn case the air supply is cut off or discharged, unlocking can be performed with a commercially available tool. The fail safe mechanism locks again when manual override is released.
10.80
1.09
1.81
1.73
2.11
0.56
0.40
0.69
7.34
0.89
1.30
1.07
1.28
0.42
0.40
0.69
A
Basic style
Foot style
Flange style
Single clevis style
Double clevis style
Basic weight
Additional weight per
each 50 mm of stroke
Accessory
6-12-21
Series C95NISO/VDMA Cylinder: With Lock TypeDouble Acting, Single Rod
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Construction
Description Material Qty. Note
Component Parts
32, 80, 100
40, 50, 63
32, 80,100 only
32 to 50
63 to 100
Section B(Tie-rod for unit attachment)
Section A(Release piston bushing)
B
ø80, ø100
#1
A
ø100 ø80 ø63 ø50 ø40
!2 !2
!2
ø32
$2 #6 @9 $8 !3 !4 @3#2#7 t @7 $4 !5 @4 !8 @0 !7 !9 i @2 q r y #0 #9 $1 w
$0 #3@6#8@8$3#4#5$5!0u@5!6@1!1$5o$7e
Aluminum alloy
Aluminum die-casted
Aluminum alloy
Aluminum alloy
Carbon steel
Aluminum alloy
Carbon steel
Special resin
Carbon steel
Special steel
Carbon steel
Aluminum alloy
Steel + Special resin
Chrome molybdenum steel
Carbon steel
Stainless wire
Stainless wire
Stainless steel
Stainless steel
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
10
9
No.
q
w
e
r
t
y
u
i
o
!0
!1
!2
!3
!4
!5
!6
!7
!8
!9
Rod cover
Head cover
Cover
Cylinder tube
Piston rod
Piston
Taper ring
Ball retainer
Piston guide
Brake shoe holder
Brakerelease piston
Breake release piston bushing
Cam for lock release
Washer
Spring for retainer pre-load
Brake spring
Clip A
Clip B
Steel ball A Carbonsteel
Steel ball B
Tooth ring
Damper
Snap ring for release cam a
Snap ring for taper ring
Brake shoe
Tie-rod
Bushing
Cushion ring
Cushion valve
Wear ring
Tie-rod for unit attachment
BC element
Tie-rod nut
Cap screw
Spring washer
Snap ring
Rod end nut
Stainless steel
Polyurethane rubber
Carbon steel
Carbon steel
Special friction material
Carbon steel
Lead bronze casting
Brass
Steel wire
Resin
Carbon steel
Bronze + Brass
Chrome molybdenum steel
Steel wire
Steel for spring
Steel
40 to 100
No.
@0
@1
@2
@3
@4
@5
@6
@7
@8
@9
#0
#1
#2
#3
#4
#5
#6
#7
Description Material Qty.NBR
NBR
NBR
NBR
NBR
NBR
NBR
NBR
NBR
NBR
NBR
1
2
1
2
2
3
1
1
1
1
1
No.
#8
#9
$0
$1
$2
$3
$4
$5
$6
$7
$89
Piston seal
Tube gasket
Rod seal A
Cushion seal
Cushion seal valve
Piston gasket
Release piston seal
Road seal B
Gasket for release piston
Gasket for release guide
Gasket for release cam
Bore size (mm) Kit no. Contents
Kits include items
#0 and #8 to $1.
CS95-32
CS95-40
CS95-50
CS95-63
CS95-80
CS95-100
32
40
50
63
80
100
32 to 50
63 to 100Carbon
steel
32 to 63
80, 100
Carbon
steel
Description Material NoteQty.10
9
1
1
1
1
2
4
1
2
2
1
2
1
4
8
4
4
2
1
∗ Seal kits consist of items #0 and #8 to $1 contained in one kit, and can be ordered using the order number for each respective tube bore size.
Replacement Parts: Seal Kit
[First angle projection]
Series C95N
6-12-22
Basic style (B): C95NB
Dimensions
B
T16
AH S + Stroke
ZZ + Stroke
VA
MM
MB
BN
GD GC GB
GL
1
W
GA
NKF
øE
øD
Width across flats
G BP unlocking portUnlocked when pressurized
GPRod side cylinder port
Effective thread length
GL
GPHead side cylinder
port
GEG
R
RC 1/8BC element
Cushion valve
WG
R
4-J16
GF4-J
??B2
??C
VQ
32
40
50
63
80
100
19.5
21
29
29
37
37
10
13
16
16
21
21
A
22
24
32
32
40
40
B
54
63
75
90
102
116
B2
46
52
65
75
95
114
BN
97
104
120.5
134.5
169
189
BP
G 1/8
G 1/8
G 1/4
G 1/4
G 1/4
G 1/4
C
32.5
38
46.5
56.5
72
89
D
12
16
20
20
25
30
Ee11
30
35
40
45
45
55
F
13
13
14
14
20
20
GA
83
91
104.5
119.5
150
170
GB
13
14
15.5
16.5
19
19
GC
45.5
52.5
58.5
68
81
96
GD
13
16.5
19
23
33
37.5
GL
7.5
10
11.5
17.5
22
25
GL1
12
12
15
12
18
20
GR
4
4
5
9
11.5
17
GE
88.5
96.5
111.2
123.5
157
177
GF
18.3
19.5
22.4
20.7
26
26
J
M6 x 1
M6 x 1
M8 x 1.25
M8 x 1.25
M10 x 1.5
M10 x 1.5
MB
4
4
5
5
5
5
K
6
6.5
8
8
10
10
MM
M10 x 1.25
M12 x 1.25
M16 x 1.5
M16 x 1.5
M20 x 1.5
M20 x 1.5
N
27
27
31.5
31.5
38
38
P
G 1/8
G 1/4
G 1/4
G 3/8
G 3/8
G 1/2
Q
37
41.5
47.5
55
61
68
H
48
54
69
69
86
91
S
164
182
195
224
259
289
T
34
39.5
47
55.5
61.5
69.5
V
6.5
8
9
8.5
10.5
10.5
VA
13
16.5
20
23
33
37.5
W
6.5
9
10.5
12
14
15
ZZ
216
240
268
297
349
384
32
40
50
63
80
100
�C
Effective thread length (mm)
Width across flats
Bore size(mm)
Bore size (mm)
6-12-23
Series C95NISO/VDMA Cylinder: With Lock TypeDouble Acting, Single Rod
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Dimensions: Cylinder Mounting Accessory
32
40
50
63
80
100
Bore(mm)
48556780
100120
E1
384652626375
R
162025253035
W
101012121616
MF
200222244273321356
ZF
7999
1214
øFB
101212161620
øCDH9
65758090
110140
EB
121515202025
L
212237259293341381
XD
4552607090
110
UBh14
262832405060
CBH14
9.51212161620
MR
323645506375
TR
101112121416
AO
4.54.55.55.56.56.5
AT
214240264293346381
XA
212238259288341371
SA
323645506371
AH
71010101214.5
øAB
7283
100115126150
TF
87101120135153178
UF
56657792
100120
E2
Foot style (L)
Head side mounting (G)
Rod side mounting (F)
Flange style (F, G)
Head side single clevis style (C)
Head side double clevis style (D)
[First angle projection]
262832405060
EW-0.2-0.6
ZF+StrokeMF
AT
SA+Stroke
XA+Stroke
AO AOE1TR
AH
W MF
R E2
øF
B
TFUF
L MRXD+Stroke
øCD H9
øAB
–0.2–0.6EW
CB H14UB h14
Series C95N
6-12-24
6-12-25
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Series C95NAuto Switch Specifications
Refer to page 6-16-1 for details on auto switches.
∗ With pre-wire connector is available for solid state auto switches. For details, refer to page 6-16-60. ∗ Normally closed (NC = b contact), solid state switch (D-Y7G/Y7H type) are also available. For details, refer to page 6-16-39.
Other than the applicable auto switches listed in “How to Order”, the following auto switches can be mounted. For detailed specifications, refer to page 6-16-1.
[First angle projection]
≅Hs
≅Ht
A B
Series C95N
6-12-26
1. In order that the originally selected maximum speed is not exceeded, be certain to use a speed controller to adjust the total movement distance of the load so that movement takes place in no less than the applicable movement time.The movement time is the time that is necessary for the load to travel the total movement distance from the start without any intermediate stops.
2. In cases where the cylinder stroke and the movement distance of the load are different (double speed mechanism, etc.), use the movement distance of the load for selection purposes.
Find the Maximum Load Speed: V
Selection Example
Example)
• Load weight: m = 50 kg• Movement distance: st = 500 mm• Movement time: t = 2s• Load condition: Vertical downward = Load in direction of rod
extension • Operating pressure: P = 0.4 MPa
Step 1: From graph 1 find the maximum movement speed of the load
∴ Maximum speed V: approx. 350 mm/s
Step 2: Select Graph (6) based upon the load condition and operating pressure, and then from the intersection of the maximum speed V = 350 mm/s found in Step 1, and the load weight m = 50 kg
∴ ø63 → Select a MNB63 or larger bore size.
Find the maximum load speed: V (mm/s) from the load movement time: t (s) and the movement distance: st (mm).
Find the Cylinder Bore Size.Select a graph based upon the load condition and operating pressure, and then find the point of intersection for the maximum speed found in Step 1 and the load weight. Select the bore size on the line above the point of intersection.
Load Condition Operating pressure
From 0.4 MPa Graph (3)
From 0.3 MPa Graph (2)
From 0.5 MPa Graph (4)
From 0.4 MPa Graph (6)
From 0.3 MPa Graph (5)
From 0.5MPa Graph (7)
Graph (1)
Step 2
Step 1
V'
V
Cylinder stroke
W
Movement distance of load
mF
mF
m
F
300 st
[Example]100 st
200 st
500 st
700 st10
54
3
2
1
0.50.4
0.3
0.2
0.1
Load
mov
emen
t tim
e: t
(S)
100 200 300 400 500 1000
Maximum speed: V (mm/s)
600 st
400 st
Precautions on Model Selection
Direction of load at right angle to rod(∗ Being held by a guide)
Load in direction of rod extensionLoad in direction of rod retraction
Series C95NModel Selection
Caution
6-12-27
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Graph (5)Graph (2)
Graph (6)Graph (3)
Graph (7)Graph (4)
1000
500400300
200
100
504030
20
10
543
2
1100 300 400 500 1000
Maximum speed: V (mm/s)
Load
wei
ght:
m (
kg)
1000
500400300
200
100
504030
20
10
543
2
1100 300 400 500 1000
1000
500400300
200
100
504030
20
10
543
2
1100 200 300 400 500 1000
1000
500400300
200
100
504030
20
10
543
2
1100 200 300 400 500 1000
1000
500400300
200
100
504030
20
10
543
2
1100 200 300 400 500 1000
[Example]
1000
500400300
200
100
504030
20
10
543
2
1100 300 400 500 1000
6363
5050
100100
Ø32
Ø100Ø80
Ø63
Ø50Ø40
Ø32
Ø100Ø80
Ø63
Ø50Ø40
Ø32
Ø100Ø80
Ø63
Ø50Ø40
Ø32
Ø100Ø80
Ø63
Ø50Ø40
Ø32
Ø100Ø80
Ø63
Ø50Ø40
Ø32
Ø100Ø80
Ø63
Ø50Ø40
Maximum speed: V (mm/s)
Load
wei
ght:
m (
kg)
Maximum speed: V (mm/s)
Load
wei
ght:
m (
kg)
Maximum speed: V (mm/s)Lo
ad w
eigh
t: m
(kg
)
Maximum speed: V (mm/s)
Load
wei
ght:
m (
kg)
Maximum speed: V (mm/s)
Load
wei
ght:
m (
kg)
Selection Graph
200
200
200
0.3 MPa ≤ P < 0.4 MPa
0.4 MPa ≤ P < 0.5 MPa
0.5 MPa ≤ P
0.3 MPa ≤ P < 0.4 MPa
0.4 MPa ≤ P < 0.5 MPa
0.5 MPa ≤ P
Series C95N
6-12-28
Series C95NSpecific Product Precautions 1Be sure to read before handing.
1. Construct so that the human body will not come into direct contact with driven objects or the moving parts of the cylinders with lock.Devise a safe structure by attaching protective covers that prevent direct contact with the human body, or in cases where there is a danger of contact, provide sensors or other devices to perform an emergency stop, etc. before contact occurs.
2. Use a balance circuit, taking cylinder lurching into consideration.In cases such as an intermediate stop, where a lock is operated at a desired position within the stroke and air pressure is applied from only one side of the cylinder, the piston will lurch at high speed when the lock is released. In such situations, there is a danger of causing human injury by having hands or feet, etc. caught, and also a danger of causing damage to the equipment. In order to prevent this lurching, a balance circuit such as the recommended pneumatic circuits (6-12-30 to 31) should be used.
Warning
Amount ofoverrun
Stop signal
3. In order to further improve stopping accuracy, the time from the stop signal to the operation of the lock should be shortened as much as possible.To accomplish this, use a device such as a highly responsive electric control circuit or solenoid valve driven by direct current, and place the solenoid valve as close as possible to the cylinder.
4. Note that stopping accuracy will be influenced by changes in piston speed.When piston speed changes during the course of the cylinder stroke due to variations in the load or disturbances, etc., the dispersion of stopping positions will increase. Therefore, consideration should be given to establishing a standard speed for the piston just before it reaches the stopping position.Moreover, the dispersion of stopping positions will increase during the cushioned portion of the stroke and during the accelerating portion of the stroke after the start of operation, due to the large changes in piston speed.
Mounting
1. Be certain to connect the rod end to the load with the lock released.
• If connected when in the locked condition, a load greater than the turning force or holding force, etc. may operate on the piston rod and cause damage to the lock mechanism. The C95N series is equipped with an emergency unlocking mechanism, however, when connecting the rod end to the load this should be done with the lock released. This can be accomplished by simply connecting an air line to the unlocking port and supplying air pressure of 0.25 MPa or more.
Selection
Selection
1. When in a locked condition, do not apply a load accompanied by an impact shock, strong vibration or turning force, etc.Use caution, because an external action such as an impacting load, strong vibration or turning force, may damage the locking mechanism or reduce its life.
Design of Equipment & Machinery
2. Consider stopping accuracy and the amount of overrun when an intermediate stop is performed.Due to the nature of a mechanical lock, there is a momentary lag with respect to the stop signal, and a time delay occurs before stopping. The cylinder stroke resulting from this delay is the overrun amount. The difference between the maximum and minimum overrun amounts is the stopping accuracy.• Place a limit switch before the
desired stopping position, at a distance equal to the overrun amount.
• The limit switch must have a detection length (dog length) of the overrun amount + a.
• SMC’s auto switches have operating ranges from 8 to 14 mm (depending on the switch model).When the overrun amount exceeds this range, self-holding of the contact should be performed at the switch load side.
∗ Refer to page 6-12-20 regarding stopping accuracy.
Selection
Warning
Warning Warning
Warning
6-12-29
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Series C95NSpecific Product Precautions 2Be sure to read before handing.
1. Use the hexagon wrenches shown below when replacing brackets.
1. Be certain to use an air pressure circuit which will apply balancing pressure to both sides of the piston when in a locked stop.In order to prevent cylinder lurching after a locked stop, when restarting or when manually unlocking, a circuit should be used which will apply balancing pressure to both sides of the piston, thereby canceling the force generated by the load in the direction of piston movement.
2. Use a solenoid valve for unlocking which has a large effective sectional area, as a rule 50% or more of the effective sectional area of the cylinder drive solenoid valve.The larger the effective sectional area is, the shorter the locking time will be (the overrun amount will be shorter), and stopping accuracy will be improved.
3. Place the solenoid valve for unlocking close to the cylinder, and no farther than the cylinder drive solenoid valve.The less distance there is from the cylinder (the shorter the piping), the shorter the overrun amount will be, and stopping accuracy will be improved.
4. Allow at least 0.5 second from a locked stop (intermediate stop of the cylinder) until release of the lock.When the locked stop time is too short, the piston rod (and load) may lurch at a speed greater than the control speed of the speed controller.
5. When restarting, control the switching signal for the unlocking solenoid valve so that it acts before or at the same time as the cylinder drive solenoid valve.If the signal is delayed, the piston rod (and load) may lurch at a speed greater than the control speed of the speed controller.
1. Adjust the cylinder’s air balance.Balance the load by adjusting the air pressure in the front and rear sides of the cylinder with the load connected to the cylinder and the lock released. Lurching of the cylinder when unlocked can be prevented by carefully adjusting this air balance.
2. Adjust the mounting positions of the detectors on auto switches, etc.When intermediate stops are to be performed, adjust the mounting positions of detectors on auto switches, etc., taking into consideration the overrun amount with respect to the desired stopping positions.
Bore size(mm)
80, 100
MB-32-48-C1247
50, 63
32, 40 4
BoltWidthacrossflats
Torque(N⋅m)
6.9
11
25
5
6
MB-50-48-C1249
MB-80-48-AC1251
MB-80-48-BC1251
Foot
Other
1. Do not open the cushion valve beyond the stopper.As a retaining mechanism for the cushion valve, a crimped section (ø32 head cover) or retaining ring is installed (ø40 to ø100), and the cushion valve should not be opened beyond that point.If not operated in accordance with the above precautions, the cushion valve may be ejected from the cover when air pressure is supplied.
2. Be certain to use an air cushion at the end of the cylinder stroke.If this is not done, the tie-rod or piston assembly will be damaged.
2. Do not apply an offset load to the piston rod.Particular care should be taken to match the load’s center of gravity with the center of the cylinder shaft. When there is a large discrepancy, the piston rod may be subjected to uneven wear or damage due to the inertial moment during locking stops.
X Load center of gravity and cylinder shaft center are not matched.
� Load center of gravity and cylinder shaft center are matched.
Adjustment Pneumatic CircuitMounting
Note) Can be used if all of the generated moment is absorbed by an effective guide.
Warning Warning Warning
Caution
Caution
6-12-30
Series C95NSpecific Product Precautions 3Be sure to read before handing.
1. The unlocking cam provided on the C95N series is an emergency unlocking mechanism only.During an emergency when the air supply is cut off, it is used to alleviate a problem by forcibly pushing the release piston back to release the lock. However, take note that the sliding resistance of the piston rod will be high compared to unlocking with air pressure.
2. When installing into equipment or machinery, etc., in cases where it will be necessary to hold an unlocked condition for an extended time, air pressure of 0.25 MPa or more should be applied to the unlocking port.
3. Do not turn the unlocking cam (the arrow ¨� on the unlocking cam head) past the FREE position. If it is turned too far there is a danger of damaging the unlocking cam.
Locked condition Manually unlocked condition
1. A 3 position pressure center solenoid valve and regulator with check valve can be replaced with two 3 port normally open valves and a regulator with relief function.
[Principle]If the unlocking cam is turned counter clockwise with a tool such as an adjustable angle wrench, the release piston is pushed back and the lock is released. Since the lever will return to its original position when released and become locked again, it should be held in this position for as long as unlocking is needed.
Warning
6-12-31
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Old
Series C95NSpecific Product Precautions 4Be sure to read before handing.
1. The lock units for the C95N series are replaceable.To order replacement lock units for the C95N series use the order numbers given in the table below.
Maintenance
Caution
Bore size (mm)
3240506380
100
Lock unit part no.
2. Replacement of lock units.1) Loosen the tie-rod nuts (4 pcs.) on the cylinder head cover
using a hexagon wrench. Refer to the table below for the applicable hexagon wrench.
Bore size(mm)
32, 40
50, 63
80, 100
6
Tie-rod nut socketwidth across flats (mm)
8
10
2) Remove the tie-rods, head cover and cylinder tube.
Cylinder tube
Tie-rod nuts
Tie-rods
Head cover assembly
P≥0.3MPa
P ≥ 0.3 MPa
New
Temporary axis
Piston rod assembly
C95N32D-UA
C95N40D-UA
C95N50D-UA
C95N63D-UA
C95N80D-UA
C95N100D-UA
3) Apply 0.3 MPa or more of compressed air to the unlocking port, and pull out the piston rod assembly.
4) Similarly, apply 0.3 MPa or more of compressed air to the unlocking port of the new lock unit, and replace the symposium with the previously mentioned piston rod assembly.
5) Reassemble in reverse order from steps 2) and 1).
Caution
6-12-32
ISO/VDMA Cylinder: Large Bore Size Type
Series C95 ø125, ø160, ø200, ø250
Conforming to ISO 6431/CETOP RP43P/VDMA 24562
Series Variations
Series Action
Doubleacting
Type BasicStandard variationsBuilt-in magnet
Option
Heatresistant
Stainlesssteel rod
Bore(mm) Page
Large Bore Size Series C95
6-12-34Single
rodNon-lube
125160200250
6-12-33
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
ISO/VDMA Cylinder: Large Bore Size TypeDouble Acting, Single Rod
Series C95ø125, ø160, ø200, ø250
How to Order
C95SDBuilt-in magnet
Bore sizeStroke (mm)
125160200250
125 mm160 mm200 mm250 mm
Mounting styleBLFGCDT
Basic/without bracket styleAxial foot style
Rod side flange styleHead side flange style
Single clevis styleDouble clevis style
Center trunnion style
B 100 Number ofauto switches
Auto switchNil Without auto switch
A53
C95S B 125
125
100
NilS3n
2 pcs.1 pc.3 pcs.
“n” pcs.
S
Refer to “Standard Stroke” on page 6-12-35.
∗ For the applicable auto switch model, refer to the table below.
Mounting Bracket Part No.
Foot (1)
FlangeSingle clevisDouble clevis
125L5125F5125C5125D5125
160L5160F5160C5160D5160
200L5200F5200C5200D5200
250L5250F5250C5250D5250
Auto Switch Mounting Bracket Part No.
D-A3/A4/K3/G3D-A5/A6/F5/J5D-Z�/Y�
125BS1-125
BT-08BA4-080
160BS1-160
BT-16BS4-160
200BS1-200
BT-16BS4-160
250—
BT-20—
Bore size (mm) Bore size (mm)
With auto switch
Without auto switch
Note 1) Two foot brackets and mounting bolts (4 pieces) are included in this no. (ø125 to ø250)
Note 2) Accessories for mounting brackets are as followsFoot, Flange, Single clevis: Mounting boltsDouble clevis : Clevis pin, Retaining rings, Mounting bolts
∗ Lead wire length symbols: 0.5 m ········· Nil (Example) A533 m ········· L (Example) A53L5 m ········· Z (Example) A53Z
�: Manufactured upon receipt of order.Note) Switch can not be mounted on ø250 Refer to page 6-16-1 for details of applicable auto switches in addition to those listed above.
Applicable Auto Switch/Tie-rod MountingWiring
(Output)Tie-rod
mountingBand
mounting0.5(Nil)
3(L)
5(Z)
—
—
NoPLC
A56
A53A54A67A64
A59WZ76Z73Z80———
F59F5PJ51J59
F59WF5PWJ59W
F5BAL
F59FY59AY59BY7P
Y7NWY7PWY7BWY7BAL
——
�
��������———�������—
�������———
�
��������———��������
��������——
—
��————�————��������
��������——
—
————————
A33A34A44——————
——
F5NTL — � �—————————
G39K39
Relay, PLCNote)
Note)
Note)
Note)
Note)
Relay, PLC
Relay, PLC
Yes
Lead wire length (m)Auto switch model
DC
Load voltageApplicable load
Relay, PLC
Type Special function
Yes
Yes
No
Indi
cato
r lig
ht
Ree
d sw
itch
Relay, PLC
Yes
AC
—
—100 V, 200 V
—200 V or less
——
AC 100100 V or less
—
100 V, 200 V
—
100 V, 200 V
—
IC
IC
IC—IC
—
IC
—
IC
—
—
—
IC
IC—
IC—
IC
—
—
—
—
24 V
24 V
24 V
24 V
Sol
id s
tate
sw
itch
3-wire(Equiv. to NPN)
3-wire
3-wire (NPN)3-wire (PNP)
3-wire (NPN)3-wire (PNP)
4-wire (NPN)3-wire (NPN)
3-wire (NPN)2-wire
3-wire (PNP)3-wire (NPN)3-wire (PNP)
3-wire (NPN)2-wire
2-wire
2-wire
2-wire
2-wire
2-wire
5 V
5 V, 12 V12 V—5 V12 V
5 V, 12 V
—12 V
5 V, 12 V
5 V, 12 V12 V
5 V, 12 V12 V
5 V, 12 V
12 V
5 V, 12 V
5 V, 12 V
12 V
12 V
12 V
DIN terminal
Grommet
Electricalentry
Grommet
Terminalconduit
Terminalconduit
Diagnostic indication (2-color)
Water resistant (2-color)With timer
Diagnostic output (2-color)
Water resistant (2-color)
—
—
—
—
Diagnostic indication(2-color)
—
Diagnostic indication(2-color)
6-12-34
Specifications
Action
Fluid
Proof pressure
Max. operating pressure
Min. operating pressure
Ambient and fluid temperature
Lubrication
Operating piston speed
Allowable stroke tolerance
Cushion
Thread tolerance
Port size
Mounting
125
G 1/2
200 250
G 1
160
Double acting
Air
1.5 MPa
1.0 MPa
0.05 MPa
Without auto switch: –10 to 70°C (No freezing)With auto switch: –10 to 60°C (No freezing)
Not required (Non-lube)
50 to 700 mm/sec 50 to 500 mm/sec
Up to 250:+1.0 0 , 251 to 1000:+1.4
0 , 1001 to 1500:+1.8 0
Both ends (Air cushion)
JIS Class 2
G 3/4
Standard Stroke
125
160
200
250
Bore size(mm)
Max.stroke
1600
1600
2000
2400
Intermediate strokes are available.∗ Please consult with SMC for longer strokes.
JIS SymbolDouble acting
Minimum Stroke forAuto Switch Mounting
∗
Bore size (mm)
Refer to page 6-12-40 for “Minimum Stroke for Auto Switch Mounting”.
Basic style, Axial foot style, Rod side flange style, Head side flange style, Single clevis style, Double clevis style, Center trunnion style
Theoretical OutputBore size
(mm)
125
160
200
250
32
40
40
50
OUT
IN
OUT
IN
OUT
IN
OUT
IN
12272
11468
20106
18850
31416
30159
49087
47124
0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0Rod diameter
(mm)Operatingdirection
Piston area(mm2)
Operating pressure (MPa)
(N) OUT IN
Note) Theoretical force (N) = Pressure (MPa) x Piston area (mm2)
Allowable Kinetic Energy
1 1000100
10000
1000
100
10
1
Max. acting speed (mm/s)
Load
wei
ght (
kg)
Example: Load limit at rod end when air cylinder ø63 is actuated with max. actuating speed 500 mm/s. See the intersection of lateral axis 500 mm/s and ø63 line, and extend the intersection to left. Thus the allowable load is 80 kg.
Other than the applicable auto switches listed in “How to Order”, the following auto switches can be mounted. For detailed specifications, refer to page 6-16-1.
∗ With pre-wire connector is available for solid state auto switches. For details, refer to page 6-16-60. ∗ Normally closed (NC = b contact), solid state switch (D-Y7G/Y7H type) are also available. For details, refer to
page 6-16-39.
Solid state switch
Type ModelD-F5NTLD-Y69A/Y69B/Y7PVD-Y7NWV/Y7PWV/Y7BWV
Series C95ISO/VDMA Cylinder: Large Bore Size TypeDouble Acting, Single Rod
CJ1
CJP
CJ2
CM2
CG1
MB
MB1
CA2
CS1
C76
C85
C95
CP95
NCM
NCA
D-
-X
20-
Data
Series C95Specific Product PrecautionsBe sure to read before handling.
Adjustment
Warning
Bore size (mm) Cushion valve Widthacross flats
Widthacross flats
Socket wrench
125, 160,200, 250
MB-A2-10-EA064 4 JIS 4648Hex spanner wrench 4
Bore size (mm) BoltTightening torque
(Nm)
125
160, 200
M12 x 1.75 x 25l
M16 x 2 x 30l
M20 x 2.5 x 35l
M20 x 2.5 x 30l
10
14
17
17
30.1
99
193.5250Foot
Others
1. Do not open the cushion valve above the stopper.Cushion valves are provided with a retaining ring (ø125 to ø250) as a stopping mechanism, and the cushion valve should not be opened above that point.If air is supplied and operation started without confirming the above condition, the cushion valve may be ejected from the cover.
2. Be certain to activate the air cushion at the stroke end.When it is intended to use the cushion valve in the fully opened position, select a style with a damper. If this is not done, the tie-rods or piston rod assembley will be damaged.
3. When replaceing brackets, use the hexagon wrench shown below.
6-12-42
C95QD
How to Order
Standard
Built-in magnet
Bore size
Stroke (mm)Refer to standard stroke tableon p.1.11-16 maximum 1000mm
—RK
Hard chrome as standardStainless steel piston rodStainless steel and acid-proof piston rod
Basic, Foot, Front flange, Rear flange, Single clevis, Double clevis, Centre trunnion, spherical bearing
Series C95Q
1.11-16
1.11-17
CJ1
CJP
CJ2
CM2
C85
C76
CG1
MB
MB1
CP95
C95
C92
CA1
CS1
Selection Guide for the Low Friction Sideq When used as a balancer etc., follow the example of the application
mentioned earlier applying pressure at one port while leaving the otherport open to atmosphere.
With pressure at rod cover port ·········· Low friction side CB (Example of application q) With pressure at head cover port ·········· Low friction side CA (Example of application w)
In both cases, as long as the outside pressure moves the piston rod, lowfriction can result in the direction of extension and retraction.When used applying pressure to both ports the same time, follow theabove mentioned guide and as in the following.
With relatively higher pressure on rod cover port ··········Use Low friction side CB With relatively higher pressure on head cover port
··········Use Low friction side CA
w
Application ExampleLow friction cylinder used in combination with precision regulator (Series IR)
q w
Drivingroller
Winding roller
Precision regulator
Precision regulator
(Moving body)
f
For Dimensions, Weight, Accessories see C95S, page xxxx
Series C95Q
1.11-18
Series C95Q
Construction
No.q
w
e
r
t
y
Description
Rod coverHead coverCylinder tubePiston rodPistonBushingCushion valveSnap ringTie rodTie rod nutWear rodRod end nutBack up O ringRod sealPiston sealCushion valve sealCylinder tube gasketPiston gasket
u
i
o
!0
!1
!2
!3
!4
!5
!6
!7
!8
Aluminum die-castAluminum die-cast
Aluminum alloyCarbon steel
Aluminum alloyLead bronze cast
Steel wireSteel for springCarbon steelCarbon steel
ResinCarbon steel
NBRNBRNBRNBRNBRNBR
Material Note
Component Parts
Replacement Parts: Seal Kits
CQ95-323240506380
100
Kit No.
!2r!4 iyq !3t!8!1!7w !6uie!5
Metallic paintedMetallic paintedHard anodized
Hard chrome platedChromated
Nickel platedø40 to ø100
Uni-chromatedNickel plated
Nickel plated
Bore (mm) Contents
Set of theNo. !3, !4, !5, and !7.
∗∗
∗
∗
∗ The seal kit includes 1 rod seal, 1 piston seal, and 2 tube gaskets.