1.1 LINEAR ACTUATORS: AIR CYLINDERS SERIES NCJ2 SERIES NCJ2 BORE SIZES Ø6•10•16 Double Acting Single Rod / Double Rod Single Spring Return / Extend Compact and Lightweight Auto Switch Sensing Optional M A D E I N USA Non Rotating Piston Rod Optional High _ H 1.10 1.10 1.10 GB H LC LH LT LX LY LZ NB X Y Bore Size A B C D F GA MM NN NA T S Z 1.10 0.13 0.43 0.06 0.74 0.71 1.10 0.28 0.14 0.26 6 (1/4) 0.60 0.47 0.55 0.125 0.31 0.57 No5-40UNC 1/4-28UNF 0.63 0.12 1.93 3.03 0.196 1.10 0.17 0.55 0.06 0.87 0.83 1.26 0.37 0.21 0.38 10 (3/8) 0.60 0.47 0.55 0.157 0.31 0.31 No6-40UNF 5/16-24UNF 0.49 1.81 2.91 0.196 1.10 0.20 0.55 0.09 1.18 0.94 1.38 0.37
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0.5 1 5 10 20 50 0.5 1 5 10 20 50 Load (kN) Load (kN) Bore size 80 B rod C rod 2000 6 4 8 3 7 5 1 5 2 4 8 3 7 6 1 2 1000 Stroke (mm) 500 100 50 1 5 10 20 50 1 5 10 20 50 Load (kN) Load (kN) Bore size 100 B rod C rod 4 8 8 3 3 7 7 5 4 5 2000 6 6 1 2 1 2 1000 Stroke (mm) 500 100 50 1 5 10 20 50 100 1 5 10 20 50 100 Load (kN) Load (kN) 28 Series CH2E/CH2F/CH2G/CH2H Technical Data 3 Relationship
5.5 10 22 19.5 13 10.5 11 45 12 17 26 Note) For 32, a trunnion pivot bracket NA (42.5) is used as standard. 40 M14 x 1.5 8 56.2 7 12 24 21 16 13.5 12.5 50 14 22 32 Bore (mm) N NA NN P Z ZZ S TD TT TX TY TZ 20 30 M20 x 1.5 192 202 146 8 1/8 10 32 32 52 20 25 34.5 M26 x 1.5 196 206 146 9 1/8 10 40 40 60 20 32 42.5 M26 x 1.5 209 219 159 9 1/8 10 40 40 60 22 40 51 M32 x 2 236.5 247 181 10 1/
5.5 10 22 19.5 13 10.5 11 45 12 17 26 Note) For 32, a trunnion pivot bracket NA (42.5) is used as standard. 40 M14 x 1.5 8 56.2 7 12 24 21 16 13.5 12.5 50 14 22 32 Bore (mm) N NA NN P Z ZZ S TD TT TX TY TZ 20 30 M20 x 1.5 192 202 146 8 1/8 10 32 32 52 20 25 34.5 M26 x 1.5 196 206 146 9 1/8 10 40 40 60 20 32 42.5 M26 x 1.5 209 219 159 9 1/8 10 40 40 60 22 40 51 M32 x 2 236.5 247 181 10 1/
5.5 10 22 19.5 13 10.5 11 45 12 17 26 Note) For 32, a trunnion pivot bracket NA (42.5) is used as standard. 40 M14 x 1.5 8 56.2 7 12 24 21 16 13.5 12.5 50 14 22 32 Bore (mm) N NA NN P Z ZZ S TD TT TX TY TZ 20 30 M20 x 1.5 192 202 146 8 1/8 10 32 32 52 20 25 34.5 M26 x 1.5 196 206 146 9 1/8 10 40 40 60 20 32 42.5 M26 x 1.5 209 219 159 9 1/8 10 40 40 60 22 40 51 M32 x 2 236.5 247 181 10 1/
4-28UNF depth 0.47 5/16-24UNF depth 0.63 3/8-24UNF depth 0.63 1/4-28UNF 5/16UNF 7/16UNF 7/16UNF 1/2-20UNF 1/2-20UNF 20 25 32 40 50 63 Bore size (mm) TA NA P(NPT) S ZZ 0.94 1.14 1.40 1.73 2.17 2.72 0.43 0.43 0.43 0.47 0.51 0.51 1/8 1/8 1/8 1/8 1/4 1/4 3.03 3.03 3.11 3.38 3.85 3.85 5.03 5.27 6.37 6.64 7.99 7.99 20 25 32 40 50 63 30 Series NCGW/CG1W Air cylinder: Standard Type Double Acting,
R 1/4 R 3/8 R 1/2 R 3/8 R 1/2 R 1/8 R 1/4 R 3/8 R 1/8 R 1/4 R 3/8 R 1/8 R 1/4 R 3/8 R 1/2 R 1/4 R 3/8 R 1/2 R 3/8 R 1/2 6 6
Graph (2) Allowable Moment Coefficient: $/0 1 $/0 2 $/0&* $/0&1 $/0*' $/0*. 1 + &'(. &) &1(. &,(. &1 &-(. *)(. ,' ,+ &,(. &1 &-(. *)(. ,' ,+ 1 + &'(. &) &1(. &(' 9 '(+ '(. ; # 3 * ) . 1 ( Table (4) Maximum Allowable Moment: Mmax (Nm) '() 8!
R 1/4 R 3/8 R 1/2 R 3/8 R 1/2 R 1/8 R 1/4 R 3/8 R 1/8 R 1/4 R 3/8 R 1/8 R 1/4 R 3/8 R 1/2 R 1/4 R 3/8 R 1/2 R 3/8 R 1/2 6 6
(Define 1 =0.) Find the load factor of the load weight 1. Wa = 1 x 1 x 4 = 4 K = 1 = 1 Wmax = 4 1 = 1/4 = 0.25 3-2 Load Factor of the Static Moment Rolling Yawing Examine Mr. Mr = 1 x 9.8 (30 + 10.5)/1000 = 0.39 A6 = 10.5 Mar = 36 Mrmax = 36 K = 1 = 1 '2 = 0.39/36 = 0.011 Examine My.
Stroke adjuster at extension end KA 25 K 25 12 6.5 NA x M6 x 1 thread depth 6.5 6.5 12 14 15 8 14 J I Max. 14.5 (With stroke adjuster at retraction end) 12 6.5 13 3 Operating port 2 x Rc 1/8 (NPT 1/8, G 1/8) 5H9 depth 5 +0.030 0 2 x M6 x 1 thread depth 6.5 5H9 depth 5 +0.030 0 HA GA NN x M6 x 1 thread depth 12 A B 6 30 5.1 11 11 9.5 B A 11.5 29 11.5 29 H G (NN 1) x H Section AA Section BB
/m3) Standard product 105 105 105 Standard product 104 104 104 12-CY1B Standard product 103 103 103 12-CXSL 102 102 102 10-CM2 11-CXSL 11-CM2 10 10 10 1 0.1 0.5 1 0.1 0.5 1 1 1 0.1 0.5 1 Particle diameter (m) Particle diameter (m) Particle diameter (m) Front matter 23 Comparison of Cleanliness Standards ISO 14644-1 ISO Cass 1 to 9 Intermediate classes available U descriptor: Particles smaller
Allowable moment Wmax: Table 2 1=W/Wa Calculate static moment Wa(N) Wa=1 x 1 x 40=40 K=1 =1 Wmax=40 1=10/40=0.25 Calculate load rate 1 of static moment. 3-2 Load rate of static moment Rolling Yawing Calculate static moment M(Nm).
This could cause an auto switch malfunction. 0.3 35.7 37 5.5 5.5 10 K 21 NA x M5 x 0.8 thread depth 6.5 5.5 10 KA 21 M 30 3 x M6 x 1 thread depth 10 5H9 ( ) depth 5 +0.030 0 14 2 N 1 x F 6.5 41 4 x M5 x 0.8 thread depth 7 12.5 (Extension end adjuster) F 3.5 49 1 24 14.5 24.5 24.5 28 29 58 6 Retraction end adjuster 5H9 ( ) depth 5 +0.030 0 11 5.5 N x M5 x 0.8 thread depth 6 Note 1) Note 2
GA GB H H1 I J K KA M MM NA P S ZZ MQQ M 20 Up to 350 18 15.5 13 7 M4 x 0.7 9 16.5 8 15 3 18 12 35 5 31 M4 x 0.7 depth 7 5 6 3 M8 x 1.25 29 1/8 83 118 25 Up to 400 22 19.5 17 8 M5 x 0.8 9.5 18.5 10 17 3 18 12 40 6 33 M5 x 0.8 depth 8 5.5 8 3.5 M10 x 1.25 29 1/8 83 123 RHC 32 Up to 450 22 19.5 17 8 M5 x 0.8 9.5 20 12 19 3 18 12 40 6 38 M5 x 0.8 depth 8 5.5 10 3.5 M10 x 1.25 35.5 1/8 85 125
1 and !2 above Note 1) In the case of the cylinder with auto switch, magnet is installed in the piston.
adjuster at extension end) (Insert) Stroke adjuster at extension end KA 25 12 25 6.5 K NA x M6 x 1 thread depth 6.5 12 6.5 6.5 Vacuum suction port Rc, G, NPT1/8 15 14 14 8 7.5 J 12 Maximum 14.5 (With stroke adjuster at retraction end) I 15 Operating port 2 x Rc, G, NPT1/8 13 3 5H9 ( ) depth 5 +0.030 0 2 x M6 x 1 thread depth 6.5 5H9 ( ) depth 5 +0.030 0 HA GA NN x M6 x 1 thread depth 12 6
Intermediate strokes (1 to 99 mm) are available in 1 mm increments.
Load rate Ea= K E max Ea=1 0.11=0.11 Work mounting coeficient K: Fig.3 Max. allowable kinetic energy Emax: Table 1 Kinetic energy (E)Allowable kinetic energy (Ea) Possible to use by E=0.0 3 3-1 Load rate of work Calculate static work Wa (N) Wa=1 X 1 X 4=4 K=1 b=1 Wmax=4 a1=1/4=0.25 Wa=K b Wmax Work mounting coeficient K: Fig.3 Allowable load coeficient b: Graph 1 Max.