SMC Corporation of America
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Search Results "LEFG16-S-500"

Cushion adjustment (relief adjustment) man-hours are the same as the adjustment (cushion needle adjustment) for general purpose cylinders. 200 150 High power cylinder Quality of Cushioning (RHCF40-500, Load mass 5 kg, Supply pressure 0.5 MPa, Horizontal operation) Buffer capacity [J] 500 General purpose cylinder (50 mm/s) 100 3000 mm/s 2000 mm/s 1000 mm/s 400 500 mm/s Stroke [mm] 300 50 200

1000 1500 0.1 100 200 300 400 500 1000 1500 100 200 300 400 500 1000 1500 100 200 300 400 500 1000 1500 Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) ML2B/M1 (Pitch moment) ML2B/M2 (Roll moment) ML2B/M3 (Yaw moment) 30 40 20 20 5 4 3 10 10 5 4 3 ML2B40 ML2B40 2 5 4 3 Moment (Nm) Moment (Nm) Moment (Nm) 2 ML2B32 ML2B32 1 ML2B40 ML2B40 ML2B40 ML2B40 2 1 ML2B25

Maximum acceleration: 2000mm/s Positioning time (sec.) Positioning distance (mm) 1000 500 100 10 1 10 100.4 50.4 10.4 1.4 0.5 100 10.4 5.4 1.4 0.5 0.4 Speed (mm/s) 150 7.1 3.8 1.1 0.5 0.4 300 3.8 2.2 0.8 0.5 0.4 Values will vary slightly depending on the operating conditions.

(g) Stroke (mm) CQS Model 5 10 15 34 (44) 55 (65) 81 (111) 153 (193) 271 (330) 422 (500) 28 (33) 43 (48) 60 (85) 113 (147) 212 (266) 331 (404) 31 (41) 47 (57) 66 (90) 124 (164) 229 (288) 357 (435) S T S T S T S T S T S T C(D)UK6CQ2 C(D)UK10RQ C(D)UK16CQM C(D)UK20MU C(D)UK25C(D)UK32For the auto switch mass, refer to page 1263.

Since the stroke reading cylinder outputs one pulse for each 0.1 mm of movement, 5,000 pulses will be output for each 500 mm of movement. Therefore, a speed of 500 mm/s is equivalent to 5 kcps (kHz), but a counting speed 2 to 3 times greater is recommended for actual operation. ML2B Movement 0.2 0.1 0.3 C J G5-S A phase CV B phase Signal (2) MVGQ 1.

Since the stroke reading cylinder outputs one pulse for each 0.1 mm of movement, 5,000 pulses will be output for each 500 mm of movement. Therefore, a speed of 500 mm/s is equivalent to 5 kcps (kHz), but a counting speed 2 to 3 times greater is recommended for actual operation. ML2B Movement 0.2 0.1 0.3 C J G5-S A phase CV B phase Signal (2) MVGQ 1.

Since the stroke reading cylinder outputs one pulse for each 0.1 mm of movement, 5,000 pulses will be output for each 500 mm of movement. Therefore, a speed of 500 mm/s is equivalent to 5 kcps (kHz), but a counting speed 2 to 3 times greater is recommended for actual operation. ML2B Movement 0.2 0.1 0.3 C J G5-S A phase CV B phase Signal (2) MVGQ 1.

MY2C16 MY2H16 Horizontal impact: P = 0.5 MPa Horizontal impact: P = 0.5 MPa 2000 2000 1500 1500 H unit Impact speed mm/s Impact speed mm/s 1000 1000 L unit 500 400 500 L unit 400 300 300 Air cushion Air cushion 200 200 1000.5 1 2 3 4 5 100 10 30 20 0.5 1 2 3 4 5 10 20 30 m2 max. m1 max. m3 max. m1 max. m2, m3 max.

AS 0 0.1 0.15 0.2 0.25 0.3 Return stroke pressure (MPa) ASP ASN v v w w a a o o l l v v l l F F e e AQ ASV u u r r e e s s v v s s a a e e l l v v r r P P e e AK ASS ASR ASF Working stroke Working stroke Return stroke Return stroke Pressure valve Flow valve 15-16-1 2 Cuts air consumption by operating the return stroke at a reduced pressure.

AL SMC SMC SMC SMC SMC SMC 0.1 0.3 0.2 0.4 0.5 0.6 IS1000 MPa SMC SMC SMC K K K P P P C C C U U U O O O SMC SMC SMC SMC S S S L L L H H H MADE IN JAPAN K K K P P P C C C U U U O O O S S S L L L H H H Mixed manifold Mixed manifold Front handle/Bottom ported Front handle/Top ported Common exhaust type and individual exhaust type can be mounted on the same manifold base.

0.2 0.2 0.5 ML2B25 ML2B25 ML2B25 ML2B25 ML2B25 ML2B25 0.1 0.1 0.1 100 200 300 400 500 1000 1500 100 200 300400500 10001500 100 200 300400500 10001500 RS Q G YES Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) YES This system cannot be used because its learning function will not operate properly and the stopping accuracy will be worsen.

ML2B40 ML2B40 ML2B32 ML2B32 ML2B32 ML2B25 ML2B25 ML2B25 0.2 0.2 0.5 ML2B25 ML2B25 ML2B25 ML2B25 ML2B25 ML2B25 0.1 0.1 0.1 100 200 300 400 500 1000 1500 100 200 300400500 10001500 100 200 300400500 10001500 RS Q G Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) RS H A RZQ ML2B/M1 (Pitch moment) ML2B/M2 (Roll moment) ML2B/M3 (Yaw moment) MI W S 40 20 30 20 5

0.2 0.2 0.5 ML2B25 ML2B25 ML2B25 ML2B25 ML2B25 ML2B25 0.1 0.1 0.1 100 200 300 400 500 1000 1500 100 200 300400500 10001500 100 200 300400500 10001500 RS Q G YES Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) YES This system cannot be used because its learning function will not operate properly and the stopping accuracy will be worsen.

Bore size Series CM Pressure 0.5 MPa Load factor 50% Stroke 300 mm Series MB Pressure 0.5 MPa Load factor 50% Stroke 500 mm Series CS1 Pressure 0.5 MPa Load factor 50% Cylinder stroke 1000 mm Average speed (mm/s) System 20 25 32 40 40 50 63 80 100 125 140 160 VK 800 700 600 500 400 300 200 100 Perpendicular, upward actuation Horizontal actuation VZ A VF 0 VFR 800 700 600 500 400 300 200 100

the min. operating pressure Less than 500 mm/s 100 mm/s or more y Follow-up speed Less than 100 mm/s Low adhesion Required w Required w Low adhesion Required w Low adhesion Not required (Except CJ2X and CUX10) Not required Not required q q qr 1 Consider using the smooth cylinder. 2 Consider using the low speed cylinder (new model). 3 Consider using the low speed cylinder (conventional model

The unit used is [S/m], incorporating [S] (Siemens), the opposite of [] (resistance). At 25C, the electrical conductivity of theoretically 100% deionized water is 0.055 [S/m].

Formula (2) Effective inside diameter of piping V: Fluid flow velocity (m/s) Q: Fluid volume (l/min) din: Effective inside diameter of piping (mm) Fluid flow velocity Formula (3) din x 10__ 4 V = Q 1 ___ 60 Rubber hose 5m/s Steel piping 4.5m/s 600 General range of rubber hose (max. 5m/s) Cylinder bore size 160 500 General range of steel pipe (max. 4.5m/s) 400 11/2"(38.1) rubber hose Cylinder

Load weight kg MY2HT25 Horizontal impact: P = 0.5MPa 2000 1500 H unit Impact speed mm/s 1000 L unit 500 400 300 Air cushion 200 100 1 2 3 4 5 10 20 50 40 30 m1 max. m1, m2, m3 max. Load weight kg MY2HT40 Horizontal impact: P = 0.5MPa 2000 1500 H unit Impact speed mm/s L unit 1000 500 400 300 Air cushion 200 1003 5 10 20 30 50 100 200 m1, m2, m3 max.

MY2C16 MY2HT16 Horizontal impact: P = 0.5 MPa Horizontal impact: P = 0.5 MPa 1500 2000 2000 1500 H unit Impact speed mm/s Impact speed mm/s 1000 1000 L unit 500 400 300 400 500 L unit 300 Air cushion Air cushion 200 200 1000.5 1 2 3 4 5 100 10 30 20 0.5 1 2 3 4 5 10 20 30 m2 max. m1 max. m3 max. m1 max. m2, m3 max.

Graph (1) 10 500 st 600 st 700 st 700 st 500 st 600 st 400 st 400 st 4 5 300 st 300 st 3 200 st 200 st Load movement time: t (S) 2 100 st [Example] Example) 1 0.4 0.5 0.3 V' 0.2 300 0.1 V W 100 200 1000 400 500 Maximum speed: V (mm/s) Cylinder stroke Movement distance of load Step (2) Find the bore size.