MHZ Flat Type Fingers [3] 3.5 2 7.5 7.5 +0.2 0 +1.2 0.8 2 When closed 1 3.5 When open 5 Note) To mount attachments, use M2 hexagon socket head cap screws with 3.3 top diameter, or JIS B 1101 type M2 round head screws. 7.2 4-M2 x 0.4 thread depth 3 Thread for mounting attachment 0 -0.05 4 Weight: 25 g Specifications and dimensions other than the above are the same as the basic type. 12-2-22 22
Flat Type Fingers [3] 3.5 2 7.5 7.5 +0.2 0 +1.2 0.8 2 When closed 1 3.5 When open 5 Note) To mount attachments, use M2 hexagon socket head cap screws with 3.3 top diameter, or JIS B 1101 type M2 round head screws. 7.2 4-M2 x 0.4 thread depth 3 Thread for mounting attachment 0 -0.05 4 Weight: 25 g Specifications and dimensions other than the above are the same as the basic type. 12-2-22 22
Load factor 1 = m3 / m3 max = 7.025 / 22.5 = 0.31 m3 M2: Moment Z M2 max (from 2 of graph MY2H / M2) = 19.5 (Nm) . M2 = m3 x g x Z = 7.025 x 9.8 x 37.8 x 103 = 2.60 (Nm) Load factor 2 = M2 / M2 max = 2.60 / 19.5 = 0.13 m3 M2 5 Series E-MY2 Selection Example cont. X M3: Moment M3 max (from 3 of graph MY2H / M3) = 19.5 (Nm) .
141.1 99.2 99.2 19 42.9 (Lead wire length) 19 42.9 Polarity indication 13.6 13.6 A B A B B A A COM B + A B A B A B A Manual override (Push and turn for locking type) 42 31.4 Manual override (Press and turn for the locking type) 42 31.4 84.9 B: Green A: Orange 2-4.2 84.9 B: Green A: Orange 2-4.2 2-One-touch fittings (Mounting holes for manifold) (A, B port) (A, B port) 2-One-touch fittings
Calculation of Load Factor for Static Load m3: Mass m3 max (from q of graph MY1H/m3) = 50 (kg) Load factor 1 = m3/m3 max = 6.525/50 = 0.13 m3 Z M2: Moment M2 max (from w of graph MY1H/M2) = 50 (Nm) M2 = m3 x g x Z = 6.525 x 9.8 x 37.4 x 103 = 2.39 (Nm) m3 Load factor 2 = M2/M2 max = 2.39/50 = 0.05 M2 1206 Model Selection MY1H Series X M3: Moment M3 max (from e of graph MY1H/M3) = 38.7 (Nm
Coordinates and Moments z M3: Yawing M1: Pitching y x M2: Rolling Static moment Ceiling mounting Horizontal mounting Wall mounting M1 M2 M2 M1 M2 M3 y X x Y y z X x Y X x Z m1 x g m2 x g m3 x g Vertical mounting Mounting orientation Horizontal Ceiling Wall Vertical m1 m2 m3 m4 Static load m M3 M1 m1 x g x X m2 x g x X m4 x g x Z Static moment M1 m1 x g x Y m2 x g x Y m3 x g x Z y z M2 z Y
Max. operating pressure differential (MPa) Flow characteristics Max. operating pressure differential (MPa) Flow characteristics Orifice Orifice Max. system Max. system Port size Port size (mm) Model (mm) Model size size pressure pressure Av x 10-6 m2 Av x 10-6 m2 Cv converted C[dm3/(sbar)] C[dm3/(sbar)] (MPa) (MPa) DC 2 3 4.5 2 Cv converted DC b Cv b 0.18 0.33 0.61 0.18 Cv VX2110-01 VX2220
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VACUUM EJECTOR, COMPACT, VACUUM SERIES, ZA COMPACT VACUUM EJECTOR, BG, ZA NOZZLE SIZE 0.5, .38580 lb
Vacuum ejector series ZA is compact and lightweight, making it ideal for pick and place operations, and suitable to all industries. Due to the compact design of the ZA, it is possible to install on moving parts. The shortened tube length to pad improves response time. The ZA is available as a single unit or manifold type, with or without pressure sensors and suction filters. Compact vacuum
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VACUUM EJECTOR, COMPACT, VACUUM SERIES, ZA COMPACT VACUUM EJECTOR, BG, ZA NOZZLE SIZE 0.5, 0.50502 lb
Vacuum ejector series ZA is compact and lightweight, making it ideal for pick and place operations, and suitable to all industries.? Due to the compact design of the ZA, it is possible to install on moving parts.? The shortened tube length to pad improves response time.? The ZA is available as a single unit or manifold type, with or without pressure sensors?and suction filters.? Compact
VACUUM EJECTOR, COMPACT, VACUUM SERIES, ZA COMPACT VACUUM EJECTOR, BG, ZA NOZZLE SIZE 0.5, .23100 lb
Static moment M2 = m x g x L1 = 0.5 x 9.8 x 0.05 = 0.245 [Nm] 2 = M2/M2 max = 0.245/3 = 0.082 Investigate M2. M1 and M3 are not required because they are not generated.
Static moment M2 = m x g x L1 = 0.5 x 9.8 x 0.05 = 0.245 [Nm] 2 = M2/M2 max = 0.245/3 = 0.082 Investigate M2. M1 and M3 are not required because they are not generated.
B 4 x Counterbore depth.
Static moment M2 = m x g x L1 = 0.5 x 9.8 x 0.05 = 0.245 [Nm] 2 = M2/M2 max = 0.245/3 = 0.082 Investigate M2. M1 and M3 are not required because they are not generated.
L E T U B E OD 6 A P P L I C A B L E T U B E OD 6 Courtesy of Steven Engineering, Inc. !
Static moment M2 = m g (L1 + B) 103 m x g = 1 9.8 (50 + 48) 103 Review M2. Since M1 & M3 are not generated, review is unnecessary. = 0.96 [Nm] 2 = M2/M2 max = 0.96/4 = 0.24 M Guide shaft mounting surface L1 B We = 5 x 103 m g U = 5 x 103 1 9.8 300 = 14.7 [N] Me3 = 1/3 We (L2 + A) 103 3.