ZSE30A(F)/ISE30A (Refer to Copy function on page 41.) 36 2-Color Display High-Precision Digital Pressure Switch ZSE30A(F)/ISE30A Series Dimensions Z/ISE30A(F) Piping specifications ZSE20 ISE20 ZSE30 ISE30 ZSE30 ISE30 01 N01 / ZSE40 ISE40 25 8 9.5 1.5 30 200.1 2 x M3 x 0.5 thread depth 4 Lead wire with connector ZSE10 ISE10 ISE70 M5 x 0.8 10 ZSE80 ISE80 200.1 30 01: R1/8 N01: NPT1/8 PS ISA3 Width across flats
1 Output RoHS 3-Screen Display High-Precision Digital Pressure Switch IP40 ZSE20(F)/ISE20 Series How to Order Rated pressure range ISE20 0.1 to 1 MPa M For positive pressure ISE20 M5 N For vacuum/ compound pressure ZSE20 N M M5 q w e r t y u q Rated pressure range e Unit specification w Output specification ZSE20 0 to 101 kPa ZSE20F 100 to 100 kPa Symbol Description N NPN open collector 1
Note 2) Unit: kPa, MPa Panel mount adapter + Front protection cover L Lead wire with connector (Lead wire length 2 m) Note) With connector cover G Connector cover D Note) For output types N and P, the number of core of lead wires will be 3, and for other types, it will be 4. 33
(When replacing the piping adapter ZS-39-N, tighten it using the same method.) Piping specification: -01, -N01 After hand tightening, hold the hexagonal spanner flats of the pressure port with a spanner, and tighten with 2 to 3 rotations. As a reference, the tightening torque is 3 to 5 Nm. When tightening, do not hold the Z/ISE20 body with a spanner.
ON OFF Output Maintenance signal Requirement for maintenance detected ON OFF Input External switch signal 1, 2 16 IZN10E Series Dimensions Energy saving static neutralization nozzle IZN10E-01m 06 07 High flow rate nozzle IZN10E-02m 06 07 18.31 (100) 2.5 16 5 92.5 46 3.5 L 6 18.5 6 11 8 L 12.4 5 6 M3 x 0.5 thread depth 4 (Ground terminal) 40 27.7 L-L Applicable tubing O.D. d A 86.4 [mm] Model
Digital Pressure Switch (Built-in Regulator Type) ISE35 Series RoHS How to Order ISE35 N 25 M L Electrical entry Option 2 Nil None Wiring bottom entry AR/AW series mounting kit Lock pin N Mounting thread A Wiring top entry Adapter O-ring Example) Regulator R ARM10/11 series mounting kit Mounting thread s Adapter PRESSURE O-ring MPa OUT Lock pin B Output specifications 25 65 NPN output PNP
Operating Flow Rate 100 90 Suction flow rate of vacuum generator (Q1) Quantity of vacuum saving valves (N) = 80 Minimum operating flow rate (Q2) Vacuum pressure (kPa) 70 Example) Vacuum saving valve used: ZP2V-A8-05 From Table 1, Q2 can be calculated as 5.0 L/min (ANR). 60 Q2 = 5.0 L/min (ANR) 50 N = 6 (unit) 31 {L/min (ANR)} 5 {L/min (ANR)} 40 30 N = 6 (unit) Table 1.
Operating Flow Rate 100 90 Suction flow rate of vacuum generator (Q1) Quantity of vacuum saving valves (N) = 80 Minimum operating flow rate (Q2) Vacuum pressure (kPa) 70 Example) Vacuum saving valve used: ZP2V-A8-05 From Table 1, Q2 can be calculated as 5.0 L/min (ANR). 60 Q2 = 5.0 L/min (ANR) 50 N = 6 (unit) 31 {L/min (ANR)} 5 {L/min (ANR)} 40 30 N = 6 (unit) Table 1.
Operating Flow Rate 100 90 Suction flow rate of vacuum generator (Q1) Quantity of vacuum saving valves (N) = 80 Minimum operating flow rate (Q2) Vacuum pressure (kPa) 70 Example) Vacuum saving valve used: ZP2V-A8-05 From Table 1, Q2 can be calculated as 5.0 L/min (ANR). 60 Q2 = 5.0 L/min (ANR) 50 N = 6 (unit) 31 {L/min (ANR)} 5 {L/min (ANR)} 40 30 N = 6 (unit) Table 1.
Operating Flow Rate 100 90 Suction flow rate of vacuum generator (Q1) Quantity of vacuum saving valves (N) = 80 Minimum operating flow rate (Q2) Vacuum pressure (kPa) 70 Example) Vacuum saving valve used: ZP2V-A8-05 From Table 1, Q2 can be calculated as 5.0 L/min (ANR). 60 Q2 = 5.0 L/min (ANR) 50 N = 6 (unit) 31 {L/min (ANR)} 5 {L/min (ANR)} 40 30 N = 6 (unit) Table 1.
Operating Flow Rate 100 90 Suction flow rate of vacuum generator (Q1) Quantity of vacuum saving valves (N) = 80 Minimum operating flow rate (Q2) Vacuum pressure (kPa) 70 Example) Vacuum saving valve used: ZP2V-A8-05 From Table 1, Q2 can be calculated as 5.0 L/min (ANR). 60 Q2 = 5.0 L/min (ANR) 50 N = 6 (unit) 31 {L/min (ANR)} 5 {L/min (ANR)} 40 30 N = 6 (unit) Table 1.
Operating Flow Rate 100 90 Suction flow rate of vacuum generator (Q1) Quantity of vacuum saving valves (N) = 80 Minimum operating flow rate (Q2) Vacuum pressure (kPa) 70 Example) Vacuum saving valve used: ZP2V-A8-05 From Table 1, Q2 can be calculated as 5.0 L/min (ANR). 60 Q2 = 5.0 L/min (ANR) 50 N = 6 (unit) 31 {L/min (ANR)} 5 {L/min (ANR)} 40 30 N = 6 (unit) Table 1.
Operating Flow Rate 100 90 Suction flow rate of vacuum generator (Q1) Quantity of vacuum saving valves (N) = 80 Minimum operating flow rate (Q2) Vacuum pressure (kPa) 70 Example) Vacuum saving valve used: ZP2V-A8-05 From Table 1, Q2 can be calculated as 5.0 L/min (ANR). 60 Q2 = 5.0 L/min (ANR) 50 N = 6 (unit) 31 {L/min (ANR)} 5 {L/min (ANR)} 40 30 N = 6 (unit) Table 1.
AS 0 0.1 0.15 0.2 0.25 0.3 Return stroke pressure (MPa) ASP ASN v v w w a a o o l l v v l l F F e e AQ ASV u u r r e e s s v v s s a a e e l l v v r r P P e e AK ASS ASR ASF Working stroke Working stroke Return stroke Return stroke Pressure valve Flow valve 15-16-1 2 Cuts air consumption by operating the return stroke at a reduced pressure.
2 F G H J K L M N P Vacuum inlet direction q Pad dia.
AS2002F-04 When connecting 4 pcs. and mounting L-brackets on both sides Speed controller AS2002F-04 4 pcs. L-bracket AS-20L 2 pcs.
-34 130-N01-34 NVMl20-N01-33 130-N01-33 F .
-34 130-N01-34 NVMl20-N01-33 130-N01-33 F .
H E R M A N I F O L D O P T I O N S : L A T C H I N G S O L E N O I D T Y P E L A T C H I N G T Y P E V A L V E L A T C H I N G T Y P E V A L V E W I T H M A N U A L O V E R R I D E M A N I F O L D O P T I O N P A R T S A V A I L A B L E : P E R F E C T C H E C K B L O C K P E R F E C T C H E C K B L O C K W I T H V A L V E O R M A N I F O L D Courtesy of Steven Engineering, Inc. !
31.7 35 40.5 M L Q A D N M O L Q Note 1) D is maximum diameter.