Environment How to Order S 2 B P H S4 200 LEY 63 A2 w y !0 i o e r t q u !1 !2 !3 !
L5 A1 A2 D1 D1 T T Metric Size L4 L5 A1 A2 M Max.
D1 D1 ASN A2 AQ T ASV T AK ASS Inch Size ASR L4 L5 A1 A2 M1 Max.
A1 D1 L5 D1 A2 T T Inch Size L4 L5 A1 A2 M1 Max.
A1 D1 L5 D1 A2 T T Inch size L4 L5 A1 A2 M1 Max.
L2 W L3 A3 Graph (1) Load Weight: W Mr Static moment Dynamic moment MXY6 W My W L3 A3 0.6 A2 L2 Rubber stopper screw MX Load weight W kg Mr 0.5 L1 A1 Metal stopper screw Mp 0.4 W MTS My W 0.3 W MY 0.2 Mey Mep 0.1 We CY We 0.0 A2 L3 A3 L2 Collision speed V mm/s 0 100 200 300 400 500 280 560 MG Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office
22 L For positive pressure ZSE60 A2 M F L 22 For compound pressure 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 Piping specifications Option A2 B2 URJ 1/4, Piping in the backward direction Nil None TSJ 1/4, Piping in the backward direction Bracket A URJ 1/4 and
B A1 A2 Extension stroke end Retraction stroke end Rubber Stopper Model A1 A2 B C D E F G H K L1 L2 M N Adjuster part no.
T1 Metric Size L4 (1) Mass (g) A1 (2) A2 (2) L1 M d T1 D1 L2 L3 D2 H2 H1 Max.
MXY6 MXY8 MXY12 Model A1 0.6 A2 A3 1 MXY6 MXY8 MXY12 2 580 16 15 MXY6 MXY8 MXY12 14 980 20 19 15.5 The above value represents the maximum value for each allowable load mass.
L : Stroke [mm] V : Speed [mm/s] a1: Acceleration [mm/s2] a2: Deceleration [mm/s2] T1 and T3 can be obtained by the following equation. T1 = V/a1 = 300/3000 = 0.1 [s], T1 = V/a1 [s] T3 = V/a2 [s] T3 = V/a2 = 300/3000 = 0.1 [s] The acceleration and deceleration values have upper limits depending on the workpiece mass and the duty ratio.
Position of rotational axis: Parallel to side b and through the center of gravity b a a r 3r2 + a2 )= m a2 )= m 12 12 3. Thin rectangular plate (Including rectangular parallelepiped) 8.
CRQ2X MSQX M1 M2 Body (B) MRQ N Body (A) 2 x R A port J E2 H E1 F S A port B port N 2 x R Y Y A1 M1 A2 P 6 x Q X A1 (mm) R () E1 (g6) E2 (h9) F (h9) Model A1 A2 B C D G H J K L M1 M2 N P Q S T U V W X Y Z CRB1BW 5026 18 14 M6 x 1 depth 9 0 0.043 0.006 0.017 0 0.052 R6 1/8 67 70 3 10 13 5 50 60 34 66 46 5.5 6.5 78 19.5 39.5 13.5 11 11.9 12 25 CRB1BW 50-E CRB1BW 6321 18 29 22 15 M8 x 1.25
Select R, U, S, or Z for the valve when the SI unit specification is A2 (positive common). Select R, U, NS, or NZ for the valve when the SI unit specification is A2N (negative common). * Only Nil is available for M5. t Back pressure check valve (Built-in valve type) Circular Connector EX500 Nil None H Built-in !
D1 D1 A2 T T Inch sizes L4 L5 A1 A2 M1 Max.
W W Mey Mep We We L3 A3 L2 A2 Note) Static moment : Moment by gravity Kinetic moment : Moment by stopper collision Max.allowable load:W max.
Thin rectangular plate Position of rotational axis: Parallel to side b through the center of gravity CRJ b a CRA1 a CRQ2 r MSQ 3r2 + a2 a2 12 = m 12 = m MSZ CRQ2X MSQX 3. Thin rectangular plate (Including rectangular parallelepiped) Position of rotational axis: Perpendicular to the plate through the center of gravity 8.
With Double Clevis and Double Knuckle Joint Symbol -XC26 Bore Size 32 to 63 Standard C(D)Q2D-XC26 A B C 2 x P (Rc, NPT, G) (Port size) Width across flat K Auto switch 4 x O Cap bolt C1 X L1 Q Minimum lead wire bending radius 10 F Width across flat B1 CT Z MM CD hole H10 Axis d9 J CD hole H10 Axis d9 W E M D H1 4 x O effective depth R +0.4 CX 0 +0.4 CX 0 (A + Stroke) (L) B + Stroke CW CU A2
D1 D1 AS-T A2 ASP T ASN T AQ ASV Inch Size AK L4 L5 (1) A1 (2) A2 (2) M1 Max.