EXxx-OMO0027 Ignores excess current per unit for 100 msec. after inrush. Disable Does not ignore excess current Enable Ignores excess current.
Y3 X3 ZY -07L Y3 X3 ZY -07S Exhaust Characteristics Flow Characteristics Exhaust Characteristics Flow Characteristics -100 50 -100 -100 50 -100 Vacuum pressure Suction flow rate (l/min(ANR)) Air consumption flow rate (l/min(ANR)) Suction flow rate (l/min(ANR)) Air consumption flow rate (l/min(ANR)) -80 40 -80 -80 40 -80 Vacuum pressure (kPa) Vacuum pressure (kPa) Vacuum pressure (kPa) Vacuum
UJ I 2-Forled \bBion DIMENSIONS A B c o E F G H J K M P R s T 1.57 (40) 2.52 (64) 2.20 (56) 1.77 (45) 4.80 (1221 1.97 {50} 0.98 (25) 1 . 1 0 (28) 0.51 (13) 4.45 (113) ?
(Values at the initial period) Note 3) At rated voltage Flow Characteristics/Weight Flow characteristics 1 2 (P A) 2 3 (A R) 3 2 (R A) 2 1 (A P) Weight Valve model Grommet C [dm 3/(sbar)] b Cv C [dm 3/(sbar)] b Cv C [dm 3/(sbar)] b Cv C [dm 3/(sbar)] b Cv VT317 VT317V (Vacuum spec. type) VT317E (Continuous duty type) 0.29 kg 2.4 0.26 0.62 2.6 0.34 0.67 2.8 0.25 0.67 2.5 0.37 0.66
E: Emitter C: Collector B: Base B: Base E: Emitter C: Collector Fig. (1) NPN type Fig. (2) PNP type 16-13-4 12 Glossary of Terms U Reversed output mode Refer to Hysteresis mode and Window comparator mode in Technical Information on page 16-13-8. Unit conversion Refer to Technical Information on page 16-13-13. URJ Abbreviation of Union Ring Joint and means VCR fitting.
(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,
A One-touch fittings KP series B Dimensions (mm) Model A B C SFE4G 6 68.5 16.5 SFE5H 8 79 20.5 SFE7J 10 89 24 Bracket SFE-BR3 14 5 3.4 (15.5) 12.5 5.4 5.4 14 24 (20) SFE-BR4/5/7 B C (J) H D (F) G A E E Dimensions (mm) Model A B C D E F G H J SFE-BR4 30 16 7 4.5 7.5 (24.5) 17 15.5 (19.5) SFE-BR5 30 10 8.2 4.5 8.1 (29) 20 18 (23) SFE-BR7 34 14 7.35 4.5 9.8 (35) 24 20 (27.3) ( ): Reference dimensions
8 F 24 VDC 5 G DIN terminal 24 VDC With surge voltage suppressor A B D E H J L M 4 H 100 VAC Size 2 2 1/4 N.C. 7 J 110 VAC Aluminum 4 5 N.O. 3/8 K 200 VAC 7 L 230 VAC 4 8 7 Resin (With bracket) M Conduit terminal 24 VDC With surge voltage suppressor 4 N 100 VAC 10 7 P 110 VAC A B C D E F G H J K L M N 5 Q 200 VAC Size 3 3 N.C. 8 1/4 R 230 VAC 10 (N.C. only) 6 N.O.
5 is attached. 1045 AL800/900 Series Dimensions Semi-standard AL800/900 Metal bowl Metal bowl Port size D A B B B C B Maintenance space E IN OUT Metal bowl with level gauge With drain cock Semi-standard/Dimensions B Model Metal bowl Metal bowl with level gauge AL800 AL900 Model Port size With drain cock 297 303 306 312 D A B C E AL800 AL900 286 292 125 125 1 , 1 2 100 100 286 292 59 63 1
(Page 9) 6 Bushing (bearing) 1000 fR[N] 100 Lateral load applied to rod 100 80 63 10 50 end 40 1 0 500 1000 1500 Cylinder stroke [mm] Fig. 1 Allowable lateral load applied to rod end C a u t i o n Be certain to align the rod axis with the load and direction of movement when connecting.
RLQ MLU View A-A' ML1C DStandard Stroke BP BZ C D E F G GC A AA AB AC AD AE AF AP B Bore size (mm) 20 25 32 40 Stroke range (mm) -X 11 depth 8 26.5 73.5 6.8 75, 100, 125, 150, 200 M6 x 1 depth 12 13 94 16.5 70 135 Rc 1/8 Rc 1/8 Rc 1/8 Rc 1/8 50 118 28 35 32 12 14 depth 10 31.5 86.5 8.6 M8 x 1.25 depth 16 16 104 19 75 160 50 140 29 40 37 16 2075, 100, 125, 150, 200, 250, 300 14 depth 10 31.5
RLQ MLU View A-A' ML1C DStandard Stroke B AF AP E A AA AB AC AD AE BP BZ C D F G GC Bore size (mm) 20 25 32 40 Stroke range (mm) -X 11 depth 8 26.5 73.5 6.8 75, 100, 125, 150, 200 M6 x 1 depth 12 13 94 16.5 70 32 35 Rc 1/8 Rc 1/8 Rc 1/8 Rc 1/8 50 28 135 118 12 14 depth 10 31.5 86.5 8.6 M8 x 1.25 depth 16 16 19 104 75 37 40 50 29 160 140 16 2075, 100, 125, 150, 200, 250, 300 14 depth 10 31.5
speed and seconds of arc are found as follows. x t (1) t d t 1 / 2 t + C (2) C is integration constant.
Description Material Note q w e r t y u i o !0 !1 !2 !3 !4 !
Exhaust Characteristics/Flow Rate Characteristics Y3 X3 ZY -07L Max. vacuum pressure: 53KPa {400mmHg} Y3 X3 ZY -07S Max. vacuum pressure: 84KPa{630mmHg} Exhaust characteristics Flow rate characteristics Exhaust characteristics Flow rate characteristics 50 50 -100 -100 -100 -100 Vacuum pressure Suction flow rate l/min(ANR) Air consumption flow rate l/min(ANR) Suction flow rate l/min(ANR)
No code 0 V3 L 1 H 2 4 No gauge port No pressure gauge Ports -30 in.Hg to 30 psig -30 in.Hg to 60 psig -30 in.Hg to 100 psig -30 in.Hg to 160 psig 0 to 200 psig 0 to 400 psig -0.1 to 0.2 MPa -0.1 to 0.4 MPa -0.1 to 0.7 MPa -0.1 to 1.1 MPa 0 to 1.4 MPa 0 to 3 MPa Code Ports 2 ports 3 ports 2PW 3PW Porting Configuration e w q w q 1) Other range available.
C a u t i o n Confirm that there is no problem with operation and air tightness after assembly. 29 3-3. Consumable parts 3-3-1. Replacement partsA 32 40 50 63 80 100 125 Seal kit no.
Place where ambient humidity exceeds the range of 25% to 85% RH. c. Place where condensation occurs due to sudden temperature change. d. Place where atmosphere containing corrosive gas, flammable gas or organic solvent. e.
Pod NVF3000 NVF5000 Supply SUP Cylindet cYL.1, CYL.2 A , B Exhaust EXH.1, EXH.2 Rl, R2 Symbol (SirEle solenoid) l c 1 : c Y L . 1 l IC2:CYL.2 lEl :EXH.r I {E2:EXH.2] Lubricant 1.
Allowable kinetic energy (J) t Model Allowable kinetic energy (mJ) : Rotation angle [ rad ] : Rotation time [ s ] Basic type CRJB05 0.25 Kinetic energy E is obtained by: With external stopper CRJU05 1.0 Basic type CRJB1 0.40 Basic type CRJU1 2.0 E Therefore, the rotary table rotation time is: E: Allowable kinetic energy [ J ] : Rotation range [ rad ] I: Moment of inertia [ kgm2 ] During