One-touch Fittings Series KQ2

Universal male elbow allows thread connection by using a socket wrench for confined space. 45 male elbow Extended male elbow The most appropriate use is when the elbow extends over a standard elbow for ease of connection/ disconnection of tubing. P. 41 KQ2K used in applications where a 45 elbow or male connector stresses the tubing.

Electro-Pneumatic Valve NVEP/NVEF Series

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) ?

Digital Flow Switches Series PF2A

l/min, CFM x 10-2 l/min, CFM x 10-1 Real-time flow rate Display units l, ft3 x 10-1 Accumulated flow Accumulated flow range Note 4) 0 to 9 l Linearity Note 5) 5% F.S. or less Repeatability Note 5) 1% F.S. or less 1% F.S. or less (15 to 35C, based on 25C) 2% F.S. or less (0 to 50C, based on 25C) Temperature characteristics Current consumption (No load) 50 mA or less 60 mA or less Weight 45

Heavy Duty Stopper Cylinder Series RSH/RS1H

45 D 32 40 50 E 64 77 98 FT 20 25 25 O A 221 243.5 299.5 B 93 99 128 CD 20 20 25 L 45 54 56 N 9 11 13 QA 10 12.5 12.5 QB 7 8.5 10 GB 16 24 35 Stroke 30 30 40 Bore size (mm) 50 63 80 14 depth 5 18 depth 6 20 depth 6 P (Piping port) TN NPT 1/8 NPT 1/4 NPT 1/4 R 40 47 54 S 21 24.5 31 T 2 3.5 3 U 5.5 6.4 6.7 V 15.5 16 19.4 W 72 87.5 109 WB 32 38.5 49 X 5 5 6 Y 10 10 12.5 Stroke 30 30 40 Bore

REFRIGERATION AIR DRYERS, AIR COOLING SYSTEM, Series PDE

[F/C] +100 (+115) / +37.8 (+45) Nominal inlet air pressure [psig / bar] 34 / 7 Max. inlet air pressure [psig / bar] 232 / 16 Exit pressure drop p [psig / bar] 2.9 / 0.2 Inlet outlet connections NPT-F 1/2 3/4 1 Type of refrigerant HFA 134.a Refrigerant loading [oz / gr] 7.1 / 200 9.7 / 7.1 / 11.5 / 325 275 200 Nominal electric absorption [A / W] 2.2 / 170 2.7 / 210 3.3 / 250 4.3 / 330 5.9

3 Position Cylinder Series RZQ

size) FA H effective thread depth C Q FB G I D M K E Z a a L B + Full stroke M K A + Full stroke J E 4-O1 effective thread depth RB RA W 4-O1 T Section a-a Standard type (Through hole type)/RZQB 2-RR 50, 63 Flat washer (Included) 4-HR 2-RR Flat washer (Included) b 2-N 4-O 4-N b Section b-b (mm) Bore size (mm) A B C D E FA FB G H I J K L M N O1 O P Q RA RB RR RH T W Z 100.5 82.5 14 22.4 45

Swivels

Pressure 50 45 40 3/8" 45 40 35 40 35 Pressure Drop (psid) 30 1" 3/4" 35 Torque (in-lbs) 30 25 30 1" 1/2" 25 1/4" 1/4" RPM 25 20 1/2" 3/8" 20 3/4" 20 15 3/4" 15 15 1/2" 3/8" 10 1" 10 10 2" 1/4" 5 5 5 1-1/2" 0 0 0 0 2000 1000 3000 4000 5000 1000 0 2000 3000 4000 5000 0 10 20 30 40 50 60 70 80 90 Pressure (PSI) Pressure (PSI) Flow (USGPM) Quick Coupling Division 8145 Lewis Road Minneapolis

Series VC, Direct Operated, 2 Port Solenoid Valve for Water, Series VCW

36.5 13.5 15 32 25 23 M5 24 59 46 57 60 54.5 48.5 101 57 68 1/2 22 45 89 41 11 17 36 22.5 23 M5 26 64.5 48 62.5 62 60 50.5 103 62.5 70 1/4, 3/8 VCW41 30 50 93.5 41 13.5 17 36 25 23 M5 26 66.5 48 64.5 62 62 50.5 103 64.5 70 1/2 35 60 101 41 17.5 17 36 30 28.2 M5 26 70 48 68 62 65.5 50.5 103 68 70 3/4 4 Direct Operated 2Port for Water Series VCW Dimensions (N.O.)

VDW Series, Compact Direct Operated 2/3 Port Solenoid Valve for Water and Air

VDW21 22 20 Lead wire l approx. 300 Lead wire l approx. 300 21 27 20 27 Rectifying device AC type 20 27 Rectifying device 14 2 3.2 23.5 20 AC type 20.5 17 54 48 5 11 1 1 6 8 5 M5, 1/8 M5 1 (IN) port 1 (IN) port M5, 1/8 M5 2 (OUT) port 2 (OUT) port 15 2-M2.5 x 0.45 Thread depth 3.5 2-M3 x 0.5 Thread depth 5 VDW31 36 (27.6) Lead wire l approx. 300 SMC SMC 30 40 1 1 Rectifying device AC type 45

Series VC, Series VCL, Direct Operated 2 Port Solenoid Valve for Oil

(with oil pressure) Valve leakage cm3/min Unrestricted Mounting position 24VDC, 12VDC, 100VAC, 110VAC, 200VAC, 220VAC, 230VAC (50/60Hz) 100VAC, 200VAC, 220VAC, 230VAC (50/60Hz) Rated voltage 10% of rated voltage Allowable voltage fluctuation Class B Class H Coil insulation type VCL20: 6W, VCL30: 8W, VCL40: 11.5W DC Power consumption Note 2) Inrush VCL20: 22/19VA, VCL30: 36/30VA, VCL40: 45

AC Servo Motor Driver (SSCNET Type)

. -45- (4) Waveform Set the waveform data which will be displayed in the graph. Click of each Analog or Digital and set the type of waveform to be displayed. The analogue and digital waveforms that can be set with LECSS are shown below. Analogue waveform No.

AC Servo Motor Driver (CC-Link Type)

system . 35 5.3.6 Remote register-based position/speed specifying system selection . 36 5.3.7 Electronic Gears . 37 5.3.8 Verify of parameters . 38 5.3.9 Parameter initialization . 39 5.4 JOG Mode in the Setup Software . 40 5.4.1JOG Mode. 41 5.5 Changing I/O Signal Allocation . 42 5.5.1 Automatic Input Signal ON Selection Parameter Configuration . 42 5.5.2 Initial I/O Signal Allocation . 45

ZK2-C

NO.ZK2-OM00801-B // ZK2-ZSV-A A 2 9 10 11 14 14 15 16 16 17 17 20 20 20 F0 22 F1 OUT1 23 F2 OUT2 25 F3 27 F4 28 F6 30 F11 31 F80 32 F81 33 F90 34 F96 36 F98 37 F99 39 40 B 43 44 45 51 52 52 -1NO.ZK2-OM00801-B (ISO/IEC)(JIS)1)2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems.

Pressure switch for energy-saving control ejector with N.O. type valve

In case of P_1-60 kPa, enter 45 to H_3. (The equation will be changed to P_1H_3-60-45-105, so the vacuum pressure does not reach the point where the energy-saving function is triggered.) * The minimum value of P_1H_3 is -105.

ZQ-OM01401

. +2 +5 +20 Assy +25 +45 +50 [g] ZZQ101-BSB 115 ZZQ101-BSC 130 ZZQ101-BPB 150 ZZQ101-BPC 155 ZZQ101-OB 105 ZZQ101-OC 120 1 +2 (x ) + () + (1 x ) ZQ1-V114-5LU-A ZQ1-V124-5MU-A ZQ1-VQ110L-5L-A / DC24V -10 to 10 (%) 0.4W 1W L M L ( 2 1.7mm 0.2 to 0.33mm ) V100VQ100 33 - No.ZQ-OM01401-B 9.4 ZSE10 [kPa] 0 to -101 -100 to 100 [kPa] 10 to -105 -105 to 105 [kPa] 500 [kPa]

ZQ-OM01601

.2 OFF ON No.1 OFF No.3 No.4 No.5 No.6 44 - No.7 Yes No No.8 No.8 No.9 No.10 No.11 No.12 No.13 No.14 No.15 45 - No.

IDX-OM-U021

45 45 2-1 IDF100150F 2 1 IDX-OM-U021 2 2-2 2-2-1 (1) (85%) () B C 245050 () 2000m ) (2) 2-2 IDF100150F 2 2 IDX-OM-U021 2 2-2-2 P.6-2 6.3 IDF-AB501 14 1 1 1 4 5 3 2 1 600mm 600mm 600mm 600mm 600mm 2-2 IDF100150F 2 3 IDX-OM-U021 2 2-2-3 IDF100F-30 () 2-2 IDF100150F 2 4 IDX-OM-U021 2 2-2-4 60 60 IN OUT 2-2-5 10mm ( 2-2 IDF100150F 2 5 IDX-OM-U021 2 2-2-6 2-2

IDX-OM-Z004

45 45 IDF100150F-W 2.1 2 1 IDX-OM-Z004 2 2.2 2.2.1 (1) (85%) () C 245050 () 2000m ) (2) IDF100150F-W 2.2 2 2 IDX-OM-Z004 2 2.2.2 P.6-3 6.3 IDF-AB501 14 1 1 600mm 600mm 600mm 600mm 600mm 1 2 IDF100150F-W 2.2 2 3 IDX-OM-Z004 2 2.2.3 60 60 IN OUT 2.2.4 40 Y IDF100150F-W 2.2 2 4 IDX-OM-Z004 2 () () Y () 2.2.5 10mm ( IDF100150F-W 2.2 2 5 IDX-OM-Z004 2 2.2.6

IDX-OM-V020

Coefficient factors Inlet air temperature (oC) 5 to 25 30 35 40 45 50 55 60 65 1.42 1.15 1.00 0.71 0.62 0.50 0.40 0.33 0.21 Inlet air pressure (MPa) 0.3 0.4 0.5 0.6 0.7 to 1.6 0.71 0.75 0.82 0.89 1.00 Ambient temperature (oC) 2 to 25 30 35 40 45 1.0 0.85 0.80 0.73 0.62 Calculation example: The air flow capacity when the dew point of IDFA60 is set to 10 oC under the following conditions <

IDX-OM-U022

45 45 IDFA100F150F 2 1 2.1 IDX-OM-U022 2. 2.2 2.2.1 (1) (85%) () B C 245050 () 2000m ) (2) IDFA100F150F 2 2 2.2 IDX-OM-U022 2. 2.2.2 P.6-3 6.3 IDF-AB501 14 1 1 1 4 5 2 3 1 600mm 600mm 600mm 600mm 600mm 1 IDFA100F150F 2 3 2.2 IDX-OM-U022 2. 2.2.3 60 60 .