%silltr F 3 COMPRESSED AIR THEORY Units Pressur Prooerties of Gases lsothermic change (Boyle's Law) lsobaric change Charles Law Law of Gay Lussac lsochoric change Adiabatic (lsentropic) change Standard Volume Flow Bernoulli's Equation Air Humidity Relative humidity Pressur and Flow Use of the diagram: Formulae: 6 6 I 1 0 1 0 1 1 1 1 1 1 1 1 1 2 1 2 1 2 1 2 1 2 1 3 1 5 1 6 1 6 AE 36 36 5 AIR TBEATMENT
43 55 95 ZH ZH07B ZH10B ZH13B ZH05D ZH07D ZH10D ZH13D ZH15D ZH18D ZH20D 1 8 1 8 Box type (Built-in silencer) 0.7 1.0 1.3 0.5 0.7 88 48 1 4 1 8 ZU 1 8 1 8 1 8 6/Rc 6/Rc 6/Rc Body ported type (Without silencer) 48 1.0 1.3 1.5 1.8 2.0 88 ZL 1 8 1 8 1 8 1 8 6/Rc 8/Rc 10/Rc 12/Rc 12/Rc 6/Rc 10/Rc 8/Rc 10/Rc 1 4 1 4 ZY 1 4 3 8 3 8 12/Rc 12/Rc Body ported type (Without silencer) 88 53 3 8 3 8 Supply
0: CH1 1: CH2 2: CH3 3: CH4 1 R/W Channel select Y U8 0x00 (0) 0x041A (1050) Set the channel scan mode. 0: OFF 1: ON 2 R/W Channel scan mode Y U8 0x00 (0) Set the differential pressure check mode. 0: oFF 1: on diF (Differential pressure check mode) Y U8 0x00 3 R/W (0) Setting of OUT1 output mode. 0: HYS (Hysteresis) 1: Wind (Window comparator) 2: Err (Error output) 3: oFF (Output OFF) oUt1
Press the SET button for 1 to 3 seconds. Press the SET button for 3 to 5 seconds. Press SET button once.
F 3 COMPRESSED AIR THEORY Units Pressur Prooerties of Gases lsothermic change (Boyle's Law) lsobaric change Charles Law Law of Gay Lussac lsochoric change Adiabatic (lsentropic) change Standard Volume Flow Bernoulli's Equation Air Humidity Relative humidity Pressur and Flow Use of the diagram: Formulae: 6 6 I 1 0 1 0 1 1 1 1 1 1 1 1 1 2 1 2 1 2 1 2 1 2 1 3 1 5 1 6 1 6 AE 36 36 5 AIR TBEATMENT
27 27.5 29 29 1 8 Applicable tubing 6 1 4 17 11.4 9.0 12.8 10 20 Connection thread 3 8 1 8 1 4 3 8 1 8 1 4 3 8 1 2 1 4 3 8 24.5 28 28.5 30 30.5 31.5 27 32 30 33 32 34.5
PFA body not available for LVA10 Series Body material Port size Rc 1/8 1/4 3/8 1/2 3/4 Orifice size (mm) LVA10 Series LVA 2 Note 1) LVA20 4 PFA LVA30 8 PPS LVA40 12 SUS316 LVA50 20 Integral fitting type/Series LVC (basic type) Series LVC p: Body material SUS316 only Tubing size Metric sizes Inch sizes 4 6 8 10 12 19 1/8 3/16 1/4 3/8 1/2 3/4 Orifice size (mm) Series Body material LVC20 4
PFA body not available for LVA10 Series Body material Port size Rc 1/8 1/4 3/8 1/2 3/4 Orifice size (mm) LVA10 Series LVA 2 Note 1) LVA20 4 PFA LVA30 8 PPS LVA40 12 SUS316 LVA50 20 Integral fitting type/Series LVC (basic type) Series LVC p: Body material SUS316 only Tubing size Metric sizes Inch sizes 4 6 8 10 12 19 1/8 3/16 1/4 3/8 1/2 3/4 Orifice size (mm) Series Body material LVC20 4
available for LVA10 Series Body material Port size Rc 1/8 1/4 3/8 1/2 3/4 Orifice size (mm) LVA10 Series LVA 2 Note 1) LVA20 4 PFA LVA30 8 PPS LVA40 12 SUS316 LVA50 20 Integral fitting type/Series LVC (basic type) Series LVC : Body material SUS316 only Tubing size Metric sizes Inch sizes 4 6 8 10 12 19 1/8 3/16 1/4 3/8 1/2 3/4 Orifice size (mm) Series Body material LVC20 4 LVC30 8 PFA LVC40
3 !4 @1 w !8 w !8 w @1 !4 !3 @1 !4 !3 !8 q !6 !5 y e o r !0 !6 !5 y e o i r q !9 r u e y o i !0 i t !2 q !1 @0 !7 t !2 u !1 !7 !0 t !2 !7 !1 !5 !6 Component Parts Description Note Description No. Material Material Note No.
0 i @3 o @4 @8 @7 u @2 r y RE A B REC !9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !6 @6 RHC MK(2) #7 #6 !5 RS Q G RS H A !9 @5 t @6 y #0 w @1 #0 #5 !7 #4 q @9@2 !8 #1 #2 !7 #5 #4 @1 RZQ MI W S CEP1 Component Parts CE1 No. No.
0 i @3 o @4 @8 @7 u @2 r y RE A B REC !9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !6 @6 RHC MK(2) #7 #6 !5 RS Q G RS H A !9 @5 t @6 y #0 w @1 #0 #5 !7 #4 q @9@2 !8 #1 #2 !7 #5 #4 @1 RZQ MI W S CEP1 Component Parts CE1 No. No.
1*2 gal/min 6*1*2 V V gal/min 7*1*2 V gal/min Port size Symbol Port size Applicable model LFE1 LFE2 LFE3 3 3/8 V 4 1/2 V 6 3/4 V 8 1 V *1 Options 4, 5, 6, and 7, which are not in SI units, are not for use in Japan due to the New Measurement Law. *2 Options 4, 5, 6, and 7 cannot be selected when the output specification is J or K.
0 i @3 o @4 @8 @7 u @2 r y RE A B REC !9 #0 w #1 #0 t q e @9 #1 @1 !9 t @5 @6 @1 #0 q !1 w#1 #0 @2 @9 #1 @1 CX CY 40 to 63 MQQ M Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com @0 @4 @8 i u o @3 !1 #1 #2 @8@4 !2 @7 !3 #3 r !4 e !6 @6 RHC MK(2) #7 #6 !
Form w 1 Material e Buffer spec. r Buffer stroke t Vacuum inlet Flat Type with Groove A 3 30.5 11 1.2 11 04 6 37 14 14.5 10 47 18 20.5 J K Width across flats E 3 30.5 11 1.8 11 6 37 14 14.5 10 47 18 20.5 06 08 N S U F GN GS HS 7 15 55 36.5 1.2 10 20 62.5 44 06 08 15 55 36.5 1.8 20 62.5 44 04 JB K ZP3 T UM B5 C2 3 31.5 12 11 J K 10 6 38 15 14.5 10 48 19 20.5 JB K 15 56 37.5 10 20 63.5 45 10
k 11 Run/stop signal input Contact input signal 1 4.7 k 3 1 k Internal circuit 10 Alarm status signal output Contact output signal 3 2 9 Remote status signal output Contact output signal 2 1 8 Contact output signal 1 Operation status signal output 0 The pin numbers and output signals can be set by user.
5 1 4 2 4 2 5 1 A B A B 7 7 R1 P R2 R1 P R2 6 3 position closed center/exhaust center/pressure center 3 position closed center A B 4 2 5 1 PR2 R A 3 position exhaust center A B B PR R 3 position pressure center A B 7 R1 P R2 PR R (This construction shows closed center type.)
Examine Mey. (30 + 10.5) Mey = 1/3 x 3.36 x 9.8 x = 0.44 1000 Allowable moment coefficient : Graph (2) Max. allowable moment Mmax: Table (4) We = 33.6 A1 = 10.5 Meay = 1.19 (Same as Meap) 3 = 0.44/1.19 = 0.37 Find the load factor 3 of the dynamic moment. 3 = Me/Mea 3-4 Sum of the Load Factors Can be used based on 1 + 2 + 3 + 3 = 0.17 + 0.013 + 0.24 + 0.37 = 0.79 < 1 1 + 2 + 3 < 1 Use is
No setting 1 4 2 5 7 2 5 3 2 2 3 5 3 1 MHZ2-16 No setting 3 2 4 1 MHZ2-20 MHZ2-25 MHZJ2-10 No setting No setting MHZJ2-16 No setting No setting 3 2 1 MHZJ2-20 MHZJ2-25 Note) "" in the table indicates a skip with no dimension.
k 11 Run/stop signal input Contact input signal 1 4.7 k 3 1 k Internal circuit 10 Alarm status signal output Contact output signal 3 2 9 Remote status signal output Contact output signal 2 1 8 Operation status signal output Contact output signal 1 0 * The pin numbers and output signals can be set by user.