The ZK2 has a 50% increase in suction flow compared to other single stage SMC ejectors. With its compact size and lightweight, it is easier to maintain.
The ZK2 has a 50% increase in suction flow compared to other single stage SMC ejectors. With its compact size and lightweight, it is easier to maintain.
The ZK2 has a 50% increase in suction flow compared to other single stage SMC ejectors. With its compact size and lightweight, it is easier to maintain.
The ZK2 has a 50% increase in suction flow compared to other single stage SMC ejectors. With its compact size and lightweight, it is easier to maintain.
BODY GASKET B, VACUUM EJECTOR
Accessory: Joint and A, B Type Mounting Brackets ; Applicable Series: CLQ ; Applicable Bore Sizes: 20mm, 25mm, 32mm, 40mm, 50mm, 63mm, 80mm, 100mm
155 26 52 4.5 44.5 25 26.3 115 79.9 VCC 1/2 63 49.6 29 14.5 103.3 111.3 155.8 26 26 52 4.5 44.5 25 26.3 115 79.9 3/4 80 59 35 17.5 112 120.5 165 35 31 62 5.5 48 30 31 124.2 85.8 1 90 74 44 22 135.9 144.5 189 40 36 72 6.5 60 35 39.5 148.2 96.8 383 Series SGC How to Fix an Auto Switch Auto Switch Proper Mounting Position (mm) D-M9l Model A B A B A B A B A B A B A B A B A B 5 SGC(A)2lll-05l10, 15
x PD + b (2) Conversion formula from the display value to the process data: PD = (Disp b) / a Disp: Product display value and set value PD: Process data measurement value a: Inclination b: Intercept [Inclination and intercept according to the product type] Type Inclination a Intercept b ISA3-F 0.02 0 ISA3-G 0.1 0 ISA3-H 0.2 0 [Inclination and intercept to the unit specification] Unit Inclination
Insulation oil A H Polyacetal Note 1) Note 1) Non-leak (10 6 Pam 3/s) Brake oil Water (up to 60C) B P A H Stainless steel Note 1) If using for other fluids, please contact SMC.
Select between two values 2-A or 1-A using the + and keys. The value 2-A indicates a double acting actuator and 1-A a single acting actuator. To conclude press the ?
-LD Piping port P Operating direction A 7 Piping port P Operating direction B W K G With switch rail Q + Stroke Z + Stroke Piping port P (plug) Operating direction B HS CR HR Plug 22 8 Piping port P Operating direction B Piping port P (plug) Operating direction B 8 Piping port P Operating direction A 16 19.5 16 Plug REBR15 REBR15 (mm) A B C CB CR D F G GP GW H HA HB HC HP HR HS HT Model REBR15
to 90 CKZT80-A015B 30 to 90 80 CKZ80-42 3680N-R A B C 30 to 105 CKZ80-42 3680N-R D E F 30 to 105 For mounting bolt, a hexagon socket head cap screw and a spring washer No. 2 are recommended.
A Formula for Obtaining the Set-Value P-1 P_1 or P_2 H_1 or H_2 H-1 P_1 (P_2) = A (A-B)/4 n_1 (n_2) = B + (A-B)/4 H_1 (H_2) = (A-B)/2 n-1 Min. B Released Work 1 Work 2 Work n Atmosphere D Peak and bottom display function This function constantly detects and updates the maximum (minimum) value and allows to hold the maximum (minimum) pressure value.
14 A Current consumption 5 A (100 V) to 2.5 A (240 V) 9 A (100 V) to 4 A (240 V) 10 A (100 V) to 4 A (240 V) 8 A (200 V) Power consumption 440 W*1 850 W*1 900 W*2 1500 W*2 Alarm Refer to Alarm.
Flow Rate Characteristics/Weight Grommet Valve model Flow rate characteristics Weight C [dm 3/(sbar)] C [dm 3/(sbar)] C [dm 3/(sbar)] C [dm 3/(sbar)] 1 2 (P A) 2 3 (A R) 3 2 (R A) 2 1 (A P) b Cv b Cv b Cv b Cv VO317 VO317V (Vacuum spec. type) VO317E (Continuous duty type) 0.32kg 2.0 0.11 0.47 2.2 0.12 0.49 2.0 0.14 0.45 2.1 0.14 0.48 1444 A VT317 Series 3 Port Solenoid Valve Direct
3 A-y A-u A-i A-y B-q B-w B-e B-r B-w B-t B-y B-t Orifice body PTFE seal O-ring Sleeve O-ring O-ring O-ring Name plate O-ring O-ring Orifice body Name plate O-ring O-ring O-ring O-ring Orifice O-ring O-ring Name plate O-ring O-ring O-ring O-ring PEEK resin Special PTFE Special FKM POM Special FKM Special FKM Special FKM Special FKM Special FKM PEEK resin Special FKM Special FKM HNBR Special
B Z + Stroke DB DX DD 90 B 4DT A DS DH 4DR DB DU DO DO DC DE DU DL Rotation (mm) No.
(H1) (H2) 2 x P B C SMC A B E L J B 2 x P 2 x F K Body material: PFA N G A D L K 4 x M Non-locking type Locking type 60 (H1) (H2) C A B SMC E J B 2 x P (mm) Dimensions D G E C M P N L K J H2 F H1 B A Model Body material LVH20 LVH30 LVH40 LVH20 LVH30 LVH40 LVH20 LVH30 LVH40 M5 x 0.8 10 10 54.5 Rc 1/8, 1/4, NPT 1/8, 1/4 27 22 22 76.5 75 33 30 (SUS) Stainless steel 19 13 81 Rc 1/4, 3/8,
(Nm) M1 M2 Model CYP15 CYP32 M1 0.3 3 M2 0.6 4 M3 0.3 3 m m Static Moment Moment generated by the workpiece weight even when the cylinder is stopped Pich moment M1 = m x g x (L + B) x 103 Yaw moment M3 = m x g x (L + A) x 103 Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYP15 CYP32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m : Load mass [kg] L : Distance to load
Vertical Operation 1 2 P2 W A P1 a (b) (a) P0 P0 a A W (1) The speed is controlled with meter-out control. When the meterin controller is used in conjunction with the meter-out controller, lurching is reduced. () (2) Depending on the size pf the load, installing a regulator with check valve at position (a) can decrease lurching during descent, and operation delay during ascent.