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 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 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 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 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
Air Slide Table Series MXP Dimensions 2 x M2 x 3 (Countersunk head Phillips screw for precision equipment) 2 x M2 x 3 (Round head Phillips screw for precision equipment) 2 x M2 x 3 (Round head Phillips screw for precision equipment) 2 x M3 x 8 (Bolt with hex. hole) 2 x M2 x 5 (Bolt with hex. hole) 2 x M2.5 x 6 (Bolt with hex. hole) MXP10, 12, 16 MXP8 MXP6 Applicable size Note Switch rail part no.
L2 L1 xStatic moment Examine M2. Since M1 & M3 are not generated, investigation is unnecessary. M2 = W L1 = 10 0.05 = 0.5 [Nm] 2 = M2/M2 max = 0.5/16 = 0.031 W = 1 [kg] = 10 [N] W M Find the value M2 max when Va = 300 mm/s from Graph (3).
) (P1) (P1) (P1) 10(P2) 10(P2) 10(P2) 10(P2) 12(P1)10(P2) 15A 211 420-04 1/2 B(12.7) 20A 311 500-06 3/4 B(19.1) 25A 411 600-10 1 B(25.4) 2 32A 511 800-12 1 1/4 B(31.8) VNA01 VNA02 VNA03 VNA1 40A 611 900-14 1 1/2 B(38.1) (P1) () 12 50A 711 900-20 2 B(50.8) (P2) () 10 (),12(P1) 10(P2) EXH , 6 VN-OMP0002 1 2 3 () 4 P2 5 6 7 8 9 10 11 O O 12 13 14 7 VN-OMP0002 No. 1 2 3 4
) 12(P1) 12(P1) 12(P1) 10(P2) 10(P2) 10(P2) 10(P2) 12(P1)10(P2) VND0D VND02D 12(P1) 10(P2) 1mm 12(P1) 10(P2) 2(B) 1(A) 6 VN-OMT0001 No. 7 VN-OMT0001 : TT 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021 JAPAN Tel: + 81 3 5207 8249 Fax: +81 3 5298 5362 URL http://www.smcworld.com Note: Specifications are subject to change without prior notice and any obligation on the part of the manufacturer
When P1 is blinking, use UP & DOWN key to reconfirm each and individual preset value. When the input value is blinking, press READ once to shift the operation back to P1. UP DOWN P1 P2 P3 P4 P8 P5 P6 P7 40 9-2 Program Setting Input desired cylinder positions. 9-2-1 Input Method Turn the controller switching mode to PROGRAM. Note: Step 0 for every program is END.
Connect the communication cables with P1, P2 and P3 as appropriate.
Warning How to Find the Flow Rate (at air temperature of 20 ) Subsonic flow when (P2+0.100)/ (P1+0.100)>0.5 Q=240S P(P1+0.100) Sonic flow when (P2+0.100)/ (P1+0.100)0.5 Q=120S (P1+0.100) Q: Air flow ratedm 3 /min(ANR) S: Effective sectional area (mm 2 ) P: Differential pressure P1P2MPa P1: Upstream pressureMPa P2: Downstream pressureMPa Correction for different air temperatures Multiply
. /) ) ))($ (0 /,2 . , $ )/ $0 3,) /) (,2 ) / ,) . . ( SRH SRP SRF Supply Exhaust ARX20 // / VCHR ITV IC ,2 0 PVQ13 # 0 PVQ33 # ) /, PVQ31 $ # ) /, PVQ VEF VEP VER VEA VY2 # + 4 , VBA VBAT AP100 $3 ,)/, $3 0 4' )5 1 ,2 ))/ 6$% l , $ /, % )/ $0 )5
Series PVQ Model Selection P = (P1 P2) MPa P: Pressure differential P1: Inlet pressure P2: Outlet pressure
Clearance For Maintenance W E G A AC-B AA M J N F (2) P1 (Port Size) C B Q Q V IN OUT K P2 (Gauge Port Size) Bracket and Relief Valve (Optional) U Min.
Wiring & Light / Surge Voltage Suppressor How to calculate Flow (At an air temperature 20C) AC AND 100 VDC AC AND 100 VDC WITH LIGHT WITH LIGHT TERMINAL no.1 (+) TERMINAL no.1 (+) Subsonic flow: P1+0.1013<1.89(P2+0.1013) SINGLE SINGLE Q=226S P(P2+0.1013) Sonic flow: P1+0.1013>1.89(P2+0.1013) ZNR ZNR Q=113S(P1+0.1013) Q: Flow rate under standard conditions [l/min(ANR)] S: Effective area (mm2
Clearance For Maintenance W E G A AC-B AA M J N F (2) P1 (Port Size) C B Q Q V IN OUT K P2 (Gauge Port Size) Bracket and Relief Valve (Optional) U Min.
A A A B A B P1 B B Section A-A (ejector) Section B-B (solenoid valve) Replacement parts list Parts list No. 1 2 3 4 5 6 7 8 Description Material No. Description Part No.
Nil FKM 1349-80*1 N1 EPDM 2101-80*1 P1 Barrel Perfluoro 70W Q1 Kalrez 4079 R1 Chemraz SS592 R2 SS630 R3 SSE38 S1 VMQ 1232-70*1 T1 FKM for Plasma 3310-75*1 *1 Values at normal temperature, excluding gas permeation *2 Refer to Construction on page 5 for changed part. Number corresponds with the parts number on the construction drawing.
At this time, read vacuum pressure P1, obtain the suction flow rate from the flow rate characteristics graph for the ejector that is being used, and render this amount as the leakage of the workpiece.
Static moment M2 = m g (L1 + B) 103 m x g = 1 9.8 (50 + 48) 103 Review M2. Since M1 and 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 103m g U = 5 x 103 1 9.8 300 = 14.7 [N] Me3 = 1/3 We(L2 + A) 103 3.