IDX-OM-W023 E D Q Guige Guige G C Guige Guige [AC200V] [AC200V] Guige Guige F 10 (10) (820) J H K P L N M 4x13 [AC200V] 17) [AC200V] [AC100V] [AC100V] Guige 17 Guige mm A B C D E F G H J K L M N P Q 859 IDU8E Rc3/4 270 485 31 902 365 1302 230 42 3002 80 3001 328 15 IDU11E Rc3/4 909 14 IDU15E1 Rc1 300 620 960 79 54 425 93 258 43 330 66 470 358 16 IDU Series 6-3 6 4 IDX-OM-W023 6 6-4 IDU8E
5 q u o Material Note Parts list !
6ON/OFF valve for oil mist 190 190 t y q t y q 6 6 !0Supply pressure gauge !0Supply pressure gauge R3.5 R3.5 OIL, AIR OIL, AIR Rc1/4 Rc1/4 L L K K C C O O AIR BLOW SUP SUP !1Tank pressure gauge !1Tank pressure gauge 272 272 153 238 153 238 e e 189.5 153 2 189.5 2 u u w r i w r i o o Material Note Main Parts List Part no. Spare Parts/Replacement Parts Part No. No. Description No. Qty.
Note 1) 20 16 17 Elbow for piping port/IZN10D B C 180 10 (mm) B Model C 16 D 11.5 IZN10-16 (mm) IZN10-17 (inch) 22 24.5 18.5 12 Female threads for piping (Rc1/8)/IZN10-11 16 Rc1/8 13 Width across flats 14 456 Ionizer IZN10 Series Dimensions L-bracket/IZN10-B1 IZS (Mounting angle adjustable range) 40 7.5 17 IZN IZN 2 x R10 3.4 2 x M3 2 x 3.4 IZF 25 40 5 ZVB 50 Internal mounting IZD IZE 20.5
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) 2 ) P: Differential pressure P1P2MPa P1: Upstream pressureMPa P2: Downstream pressureMPa Correction for different air temperatures Multiply the flow rate calculated with the about formula by a coefficient from the table below.
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
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) 2 ) P: Differential pressure P1P2MPa P1: Upstream pressureMPa P2: Downstream pressureMPa Correction for different air temperatures Multiply the flow rate calculated with the about formula by a coefficient from the table below.
Description Material Note q No.
Description TBR-1,2,3,4 TBR-A167 q Side plate PP TBR-1 TBR-A188 TBR-2 TBR-A168 w Branch pipe ABS TBR-3 TBR-A169 TBR-4 TBR-A170 TBR-1 TBR-A183 TBR-2 TBR-A184 e Fixing rod ABS TBR-3 TBR-A185 TBR-4 TBR-A186 TBR-1,2,3,4 TBR-A187 r Fixing plate PP 534
Ordering example) ZX1051-K15LOZ-EC(-Q) 1 pc. VJ10-20-4A-6 2 pcs. 6 4A 20 VJ10 6 10 15 20 25 30 0.6 m 5A 20 ZS ZF For ZSE3 1 m (For 100 VAC) 1.5 m Note) If ordering a vacuum switch with 3 m lead wire, specify both the vacuum unit switch and the 3 m lead wire with connector part numbers. Ordering example) ZX1051-K15LOECN(-Q) 1 pc. VJ10-20-4A-6 2 pcs.
Example)AC30-F03DM-KSTV-13NR-A q r t y w e q Symbol Bodysize Description 20 25 30 40 Rc NPT G Nil N F Threadtype w + 1/8 1/4 3/8 1/2 3/4 01 02 03 04 06 Portsize e + Floattype autodrain a Withoutautodrain N.C.(Normalclose)Drainportisclosedwhenpressureisnotapplied. N.O.(Normalopen)Drainportisopenwhenpressureisnotapplied.
Deionized water: Electric conductivity 1 mS/cm or higher (Electric resistivity 1 MWcm or lower) 3 q Ambient temperature: 32C, w Circulating uid: Tap water, e Circulating uid temperature: 20C, r Circulating uid ow rate: Rated ow, t Power supply: 200/400 VAC 4 q Ambient temperature: 32C, w Circulating uid: Tap water, e Circulating uid ow rate: Rated ow, r Power supply: 200/400 VAC 5 q Ambient
RoHS How to Order [Option] Q R06 L PS 00 10 Option (CE-compliant ) Nil Q None CE-compliant Output specifications 10 11 12 For positive pressure For vacuum and residual pressure For vacuum The PS1200 series is CEcompliant (with Q) only.
Therefore, supply pressure regulated by a built-in regulator e passes through the air supply solenoid valve q and is applied to the pilot chamber r. The pressure in the pilot chamber r increases and operates on the upper surface of the diaphragm t. As a result, the air supply valve y linked to the diaphragm t opens, and a portion of the supply pressure becomes output pressure.
Q=240S P(P1+0.100) Subsonic flow when (P2+0.100)/ (P1+0.100)>0.5 Sonic flow when (P2+0.100)/ (P1+0.100)0.5 Q: Air flow ratedm 3 /min(ANR) Q=120S (P1+0.100) 2 ) P: Differential pressure P1P2MPa P1: Upstream pressureMPa P2: Downstream pressureMPa Correction for different air temperatures Multiply the flow rate calculated with the about formula by a coefficient from the table below.
Therefore, supply pressure regulated by a built-in regulator e passes through the air supply solenoid valve q and is applied to the pilot chamber r. The pressure in the pilot chamber r increases and operates on the upper surface of the diaphragm t. As a result, the air supply valve y linked to the diaphragm t opens, and a portion of the supply pressure becomes output pressure.
3 AS q AS-FE !1 !1 i !4 y q q KE i !5 i !5 AS-FG AS-FP AS-FM AS321F-02 Meter-out type AS3201F-02 Meter-in type AS3211F-02 AS-D AS-T ASP ASN AQ ASV AK VCHC ASR ASQ Component Parts No.
3 Gasket M-5G2 T Electroless nickel plated KK3/4/6
8 q w e r t y u i o !0 !1 !2 !3 !4 !