MHZ (4 locations) (Except 10) E D1 B D2 Model A End boss assembly 0.016 0.043 MHZJ2-10S C K 7 12f8 40 11 15 D2 0.016 0.043 MHZJ2-16S C K 10 16f8 43.5 15 20 0.020 0.053 MHZJ2-20S C K 12 20f8 51.7 19 22 D1 0.020 0.053 MHZJ2-25S C K 15 25f8 61.3 24 25 Other dimensions and specifications correspond to the standard type.
(4 locations) (Except 10) E D1 B D2 Model A End boss assembly 0.016 0.043 MHZJ2-10S C K 7 12f8 40 11 15 D2 0.016 0.043 MHZJ2-16S C K 10 16f8 43.5 15 20 0.020 0.053 MHZJ2-20S C K 12 20f8 51.7 19 22 D1 0.020 0.053 MHZJ2-25S C K 15 25f8 61.3 24 25 Other dimensions and specifications correspond to the standard type.
effective area Q=11S P(P2+1.033).kg/h Equation in the domain of sonic flow Calculation by Cv factor Q=98.9Cv(p1+1.033).kg/h Calculation by effective area Q=5.51S(P1+1.033).kg/h 4.2-38 VND Flow Characteristics Water/VND 2 to 7 should be N.O. to suppress water hammer.
NPT, G) ,'" r .r "'" ',.. 1-::' : H I-::' r-Q Q , .J w =i" ~ I ~ ~ K F H -NJ ..!L M Stroke S + Stroke ZZ + Stroke (mmJ oS~((lr.;~ r;ilMg9 ' .:a6ra'~~ FT FZ 'AL QIl B E F FD FX FY G J 11 Ii. DC 0 " : '(mm~ .
24 66 to 400 110 104 LJ1H102NH-K 28 70 to 400 LJ1H202PA-K 34 76 to 500 112 106 LJ1H202NA-K 38 80 to 500 LJ1H102PB-K 26 68 to 600 145 110 104 LJ1H102NB-K 30 72 to 600 LJ1H202PF-K 32 74 to 250 112 106 LJ1H202NF-K 36 78 to 250 LJ1H303PA-K 40 82 to 500 114 108 LJ1H303NA-K 42 84 to 500 Page Standard stroke (mm) and Speed (mm/s) Nonstandard motor Model Standard motor Deflection 100 200 300
MGPM, MGPL Common dimensions (mm) Standard stroke (mm) Bore size (mm) B C DA FA FB G GA GB H HA J K L MM ML NN OA OB PA PB PW R Q GC JA JB 25, 50, 75, 100, 125, 150, 175, 200 250, 300, 350, 400 174 210 56.5 52 64 96.5 22 25 91.5 15.5 14.5 202 M12 45.5 55.5 46 56 54 62 7.5 M12 x 1.75 M14 x 2.0 25 31 M12 x 1.75 10.6 17.5 14.5 25.5 32.5 74 89 38 45 25 30 19 23 18 25 80 100 116 66 111.5 19 18
100 VAC specification] Power cable (Length: approx. 1.9 m) Dimensions [mm] Model Port size A B C D E F G H J K L M N P Q IDU3E Rc3/8 15 IDU4E Rc1/2 483 568 355 300 13 IDU6E Rc3/4 485 15 455 498 283 275 270 31 42 80 230 32 15 240 80 284 Refrigerant R407C (HFC) IDF D IDU8E to IDU15E1 D E A B Q Illuminated switch Evaporation thermometer Ventilation air outlet Refrigerant R134a (HFC) IDU E Ventilation
Select the graph that corresponds to the imaginary stroke l. k Imaginary stroke l = (Stroke) + k + l k: Distance between the center and end of the plate (Example) q When using CXSJM6-10 and l = 15 mm: Imaginary stroke l = 10 + 2.75 + 15 = 27.75 Therefore, the graph used for your model selection should be the one for CXSJM6-30n). 6 2.75 mm 10 4 mm 15 5 mm 20 w When using CXSJL25-50 and l =
Speed 600 mm/s E(h8) E(h8) X D I 4 -TC Effective thread depth R 14 8 -Q Effective thread depth R 14 22 K W 23 25 23 25 4 -M8 x 1.25 Effective thread depth 12 High Precision Guide Type REBH Order Made Auto Switches C 0.1 14.5 B 2 S + Stroke ZZ + Stroke 2 (mm) Model B C D E(h8) I K L NA Q x R S TC x R W X ZZ REA50 REA63 0 86 32 53 30-0.033 32-0.039 58.2 25 110 55 M8 x 1.25 x 16 176 M12 x 1.25
Back flow mechanism Nil K Without back flow mechanism With back flow mechanism Thread type Nil N F Rc NPT G Optional specifications Port size Applicable model AR20(K) to 60(K) AR20(K) to 60(K) AR20(K) to 60(K) AR20(K) to 60(K) AR20(K) to 60(K) Symbol 1 Note 2) N R Y Z Note 3) Description 0.02 to 0.2MPa setting Non-relieving type Flow direction: Right to left Upward handle Body size Port size
[K] (20 [C]) Circulating fluid return temperature T2 : 297 [K] (24 [C]) Circulating fluid temperature difference iT : 4 [K] (= T2 T1) Conversion factor: minutes to seconds (SI units) : 60 [s/min] Heat generation amount by users equipment Q : Unknown [cal/h] [W] Circulating fluid : Tap water*1 Circulating fluid weight flow rate qm : (= x qv x 60) [kgf/h] Circulating fluid weight volume
1 K !6 K !7 e !5 o !0 i !2 !8 u w @0 !9 t !4 y Rod end lock K @1 K With auto switch Component Parts No. Description Material Note No.
Note 3) ZP3-(015/02/035)U ZP3-Y(015/02/035)U;(J/K)3-@ ZP3-Y(015/02/035)U;(J/K)6-@ ZP3B-Y1(J/K)3-B3 ZP3B-Y1(J/K)6-B3 ZP3-Y(10/13/16)UM;(J/K)3-@ ZP3-Y(10/13/16)B;(J/K)3-@ ZP3-Y(10/13/16)UM;(J/K)6-@ ZP3-Y(10/13/16)B;(J/K)6-@ ZP3-Y(10/13/16)UM;(J/K)10-@ ZP3-Y(10/13/16)B;(J/K)10-@ ZP3-Y(10/13/16)UM;(JB/K)15-@ ZP3-Y(10/13/16)B;(JB/K)15-@ ZP3-Y(10/13/16)UM;(JB/K)20-@ ZP3-Y(10/13/16)B;(JB/K)20-@
Note 3) ZP3-(015/02/035)U ZP3-Y(015/02/035)U;(J/K)3-@ ZP3-Y(015/02/035)U;(J/K)6-@ ZP3B-Y1(J/K)3-B3 ZP3B-Y1(J/K)6-B3 ZP3-Y(10/13/16)UM;(J/K)3-@ ZP3-Y(10/13/16)B;(J/K)3-@ ZP3-Y(10/13/16)UM;(J/K)6-@ ZP3-Y(10/13/16)B;(J/K)6-@ ZP3-Y(10/13/16)UM;(J/K)10-@ ZP3-Y(10/13/16)B;(J/K)10-@ ZP3-Y(10/13/16)UM;(JB/K)15-@ ZP3-Y(10/13/16)B;(JB/K)15-@ ZP3-Y(10/13/16)UM;(JB/K)20-@ ZP3-Y(10/13/16)B;(JB/K)20-@
Note 3) ZP3-(015/02/035)U ZP3-Y(015/02/035)U;(J/K)3-@ ZP3-Y(015/02/035)U;(J/K)6-@ ZP3B-Y1(J/K)3-B3 ZP3B-Y1(J/K)6-B3 ZP3-Y(10/13/16)UM;(J/K)3-@ ZP3-Y(10/13/16)B;(J/K)3-@ ZP3-Y(10/13/16)UM;(J/K)6-@ ZP3-Y(10/13/16)B;(J/K)6-@ ZP3-Y(10/13/16)UM;(J/K)10-@ ZP3-Y(10/13/16)B;(J/K)10-@ ZP3-Y(10/13/16)UM;(JB/K)15-@ ZP3-Y(10/13/16)B;(JB/K)15-@ ZP3-Y(10/13/16)UM;(JB/K)20-@ ZP3-Y(10/13/16)B;(JB/K)20-@
6 to 12 LVA 27.5 F Q S F (Q) 34 LVH LVD LVQ 25 U LQ R C R C LVN (44) G1/2 TI/ TIL E B A H D E (S) G1/2 2-P Port size PA B A H D 2-M Thread depth N 2-P Port size PAX 2-M Thread depth N L PB L K K N.C.
P C U O S L H o t (L) A M B C P (H) OUT IN Q N N D R (J) OUT (K) F E S G 9 (IDG3, 5 only) (Maintenance space 100 mm or more) With float With drain guide Port size A B C D E type auto-drain F G H J K L M N P Q R S Model T U IDG3V3, 3HV3, 5V3, 5HV3 IDG10V3, 10HV3 IDG20V3, 20HV3 1/4, 3/8 284 202 41.5 10 119 144 174 97 5.5 12 73 173 180 237 262 93 30 24 5.5 29 67 3.2 192 1/8, 1/4 254 55 14 208
: 293 [K] (20 [C]) Circulating fluid return temperature T2 : 296 [K] (23 [C]) Circulating fluid temperature difference iT : 3 [K] (= T2 T1) Conversion factor: minutes to seconds (SI units) : 60 [s/min] Heat generation amount by customer equipment Q : Unknown [cal/h] [W] Circulating fluid : Tap water*1 Circulating fluid weight flow rate qm : (= x qv x 60) [kgf/h] Circulating fluid weight
K Port plug Refer to page 738.