AC T[s] = (V/10) X (T2 T1)/(Z) T(s) = (4.8/10) X (12 3.7) = 4 NO NO Increase number of booster regulators (Z) to decrease T.
CE1 CE2 Stroke Stroke Speed ML2B Space-saving has been realized by simple circuit Comparison to Shockless Transfer Systems C J G5-S Time Time Stroke CV P = 0.5 MPa, M = 100 N P = 0.3 MPa, M = 100 N M = 100 N M = 300 N V = 300 mm/s V = 100 mm/s Sine Cylinder Cushioning keep up with depth of orifice as sine function which change depend on stroke.
Lead wire length symbols: 0.5 m Nil (Example) A54 3 m L (Example) A54L 5 m Z (Example) A54Z Besides the above models, there are some other auto switches that are applicable.
This item is applicable U n i t N u m b e r M O D E < 0 only when multiple units are used. 2. Baud Rate B a u d R a t e M O D E < 1 2 0 0 b / s Setting range : 600, 1200, 2400, 4800, 9600, 19200b/s Indicated content : Baud rate (Ex. : 1200b/s) Function : Sets baud rate for communication. 3.
W W D E d M a MA Q C A K F NA NB B H S + Stroke M ZZ + Stroke With rod boot e 10 l f h + l ZZ + l + Stroke (mm) Bore size (mm) A a d B C F G GA GB K M MA NA NB R S Q V W T P J MM E D 0 0.018 0 0.021 0 0.021 0 0.021 0 0.025 0 0.025 0 0.025 0 0.062 0 0.062 0 0.074 0 0.074 0 0.074 0 0.074 0 0.087 40 17 45 23 10 60 17.5 M8 x 1.25 18 M14 x 1.5 7.5 8 44 18 9.5 13 11 25 20 1/4 14 30 22 37 106 5
Confirm that the value is within the operating range of the point of application L = 60 mm. 10 10 RZQ 5 5 MI W S CEP1 1 1 kg 1 CE1 CE2 0.25 kg ML2B 10 20 40 5 10 20 30 C J G5-S 32.5 m/min Transfer speed (m/min) Transfer speed (m/min) 12 m/min CV Procedure 3: Confirmation of allowable lateral load MVGQ MIW12 MIS12 1.
Confirm that the value is within the operating range of the point of application L = 60 mm. 10 10 RZQ 5 5 MI W S CEP1 1 1 kg 1 CE1 CE2 0.25 kg ML2B 10 20 40 5 10 20 30 C J G5-S 32.5 m/min Transfer speed (m/min) Transfer speed (m/min) 12 m/min CV Procedure 3: Confirmation of allowable lateral load MVGQ MIW12 MIS12 1.
S NB TY TY ZZ + Stroke S + Stroke TX M H TZ Stroke range Bore size (mm) V SS BB J K C P F NB A G M MM NA PJ B D E GA GB H MA TD TX TZ S Y Z ZZ 32 54 25 to 800 44 45 33.2 35 12 M6 x 1 7.5 M14 x 1.5 56 45 68 103 5.5 128 153.5 7 1/4 12 23 18 14 46 18 30 43 15 16 60 -0.016 -0.043 40 57 25 to 800 61 63 41.7 37 18 M8 x 1 10 M16 x 1.5 73 63 95 128 6.5 153 185 9 3/8 12 32 22 19 51 22 34 47 19 20
Free mount type MSU Without auto switch 20 90 S M SUA CRJ Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com CRA1 20 90 S D SUA L T79 M With auto switch CRQ2 Number of auto switches S Nil 1 pc. MSQ With auto switch unit 2 pcs.
Note 3) Mounting on S and T kits is not possible. Note 4) Combination with pressure switch (AP and MP type) is not possible. Note 5) The release valve and the pressure switch on S kit are connected to another power supply. Cable length is 0.6 m.
Find the value of m max at 300 mm/s in Graph (7) for m4. M1 = m x g x L1 = 3 x 9.8 x 0.05 = 1.47 [Nm] 2. Static moment Investigate M1. Find the value of M1 max at 300 mm/s in Graph (1). 2a =M1/M1 max =1.47/14 =0.105 M1 L1 M3 = m x g x L2 = 3 x 9.8 x 0.04 = 1.176 [Nm] m x g Investigate M3. M3 Find the value of M3 max at 300 mm/s in Graph (3). 2b = M3/M3 max = 1.176/14 = 0.084 L2 m x g 3.
Inch Size [mm] Model d T (R, NPT) H D1 D3 L1 L2 L3 L4 Note 1) A Note 2) M W1 W2 X Y Weight [g] Unlocked Locked Unlocked Locked AS221FS-01-01 (S) 1/8" 7.2 12 19.1 26.2 19.1 43.9 42.4 40.8 39.3 13.3 20 21.5 6.5 15 13 (13) AS221FS-01-03 (S) 5/32" 8.2 AS221FS-01-07 (S) 1/4" 11.2 20.8 27.9 14 (13) AS221FS-01-09 (S) 5/16" 13.2 22.4 29.5 14.2 15 (14) AS221FS-02-01 (S) 1/8" 1/8 13 (12.7) 7.2 20.9
Inch Size [mm] Model d T (R, NPT) H D1 D3 L1 L2 L3 L4 Note 1) A Note 2) M W1 W2 X Y Weight [g] Unlocked Locked Unlocked Locked AS221FSG-01-01 (S) 1/8" 7.2 12 19.1 26.2 19.1 43.9 42.4 40.8 39.3 13.3 20 21.5 6.5 15 13 (13) AS221FSG-01-03 (S) 5/32" 8.2 AS221FSG-01-07 (S) 1/4" 11.2 20.8 27.9 14 (13) AS221FSG-01-09 (S) 5/16" 13.2 22.4 29.5 14.2 15 (14) AS221FSG-02-01 (S) 1/8" 1/8 13 (12.7) 7.2
200 100 100 500 400 300 200 100 Maximum speed: V(mm/s) Maximum speed: V(mm/s) Graph 6 Graph 3 0.4MPaP<0.5MPa 0.4MPaP<0.5MPa 3000 3000 2000 2000 160 140 1000 1000 700 800 900 700 800 900 125 Load weight: m(kg) Load weight: m(kg) 600 600 160 500 500 400 400 140 320 125 300 300 200 200 280 100 100 100 500 400 300 200 100 500 400 300 200 Maximum speed: V(mm/s) Maximum speed: V(mm/s) Graph 7
Load mass 1 = m/mmax = 3/12 = 0.25 Investigate m. Find the value of m max. at 300 mm/s in Graph (7) for m3. m M1 = m x g x L1 = 3 x 9.8 x 0.05 = 1.47 [Nm] 2. Static moment Investigate M1. Find the value of M2 max. at 300 mm/s in Graph (1). 2a =M1/M1 max =1.47/14 =0.105 M1 L1 M3 = m x g x L2 = 3 x 9.8 x 0.04 = 1.176 [Nm] m x g Investigate M3.
Find the value of M2 max. at 300 mm/s in Graph (1). 2a =M1/M1 max =1.47/14 =0.105 M1 L1 M3 = m x g x L2 = 3 x 9.8 x 0.04 = 1.176 [Nm] m x g Investigate M3. M3 Find the value of M3 max. at 300 mm/s in Graph (3). 2b = M3/M3 max = 1.176/14 = 0.084 L2 m x g 3.
Inch Size [mm] Model d T H D1 D3 L1 L2 L3 L4 Note 1) A Note 2) M Weight [g] Unlocked Locked Unlocked Locked AS22l1FG-01-01(S)A 1/8" 7.2 12 19.1 26.2 19.1 30.6 29.2 27.5 26.1 13.3 9 (9) AS22l1FG-01-03(S)A 5/32" 8.2 AS22l1FG-01-07(S)A 1/4" 11.2 20.8 27.9 10 (9) AS22l1FG-01-09(S)A 5/16" 13.2 22.4 29.5 14.2 11 (10) AS22l1FG-02-01(S)A 1/8" 1/8 13 (12.7) 7.2 22.6 36.6 35 31.1 29.5 13.3 17 (18)
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