High Power Cylinder: 27 30 5.8 to 8.8 6.8 to 11.3 Axial foot GA Rc(PT)P H GB F Rc(PT)P K F Effective Thread H2 A WH NN I MM H1 NE D LY ND NB 4-LD LH LT NF E 10 E JD N 10 JC N NA X Y X Y S+Stroke LX LZ LS+Stroke ZZ+Stroke (mm) Bore (mm) 20 25 32 40 Stroke range (mm) 200 to 700 200 to 700 200 to 1000 200 to 1000 I 26 31 38 47 F 16 16 19 21 A 18 22 22 24 E 14.5 18 18 20.5 D 10 12 12 16 GB 47.5 49.5 51.5 51.5 GA
L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time T = T1 + T2 + T3 + T4 [s] [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be found by the following equation.
12 V Solid state auto switches marked with p are produced upon receipt of order.
P P P P P P Rc1/8 NPT1/8 G1/8 P P P P P P Rc1/4 NPT1/4 G1/4 P P P P P P Rc1/4 NPT1/4 G1/4 P P P P P P Rc3/8 NPT3/8 G3/8 P P P P P P Rc3/8 NPT3/8 G3/8 P P P P Through-hole (Std.)
Flat type with groove (UM) Bellows type with groove (BM) 32 40 50 63 80 100 125 32 40 50 63 80 100 125 ZP3EB-(T/Y)1JB10 V V V V V V ZP3EB (T/Y)1JB30 V V V V V V ZP3EB-(T/Y)1JB50 V V V V V V ZP3EB-(T/Y)2JB10 V V V V V V V V ZP3EB-(T/Y)2JB30 V V V V V V V V ZP3EB-(T/Y)2JB50 V V V V V V V V * Select "T" when selecting a T type buffer assembly.
P.1729 P.1731 P.1732 P.1733 P.1738 P.1739 P.1742 P.1743 P.1744 P.1747 P.1748 P.1752 P.1755 P.1756 P.1760 P.1765 P.1766 P.1769 P.1770 P.1776 P.1781 P.1786 P.1794 P.1796 P.1801 P.1802 P.1803 P.1804 P.1806 P.1806 P.1807 P.1809 P.1817 P.1818 P.1819 P.1820 P.1822 P.1823 P.1829 P.1829 P.1830 P.1831 P.1832 P.1832 P.1833 P.1836 P.1838 P.1839 P.1839 P.1841 P.1844 P.1844 P.1845 P.1848 P.1849 P.1850
l e s p a n n e r l l f i t i s l n s t a l l e d 0 n i n l e t s i d e ' p e r f 0 r r n a n c e g o e s d o w n d u e t 0 p r e s s u r e d o w n . l t D 0 n o t C 0 v e r o u t l e t p 0 r t i o n o f p u r s i n s a i r w i t h o t h e r s . ( R e f e r t 0 P ' 9 ' M O d U I E C o v e r t l f t h i s P o r t i o n i s c o v e r e d ' l t l o w e r s P e r f o r m a n c e . l o K e e P
with stable lubrication function (Lube-retainer) V v v v XB6 Heat resistant cylinder (10 to 150C) Note 1) 20 to 40 v v XB7 Cold resistant cylinder (40 to 70C) Note 1) v v v v v v v v XB9 Low speed cylinder (10 to 50 mm/s) v v v v v v v XB12 External stainless steel cylinder Note 7) v v v v v XB13 Low speed cylinder (5 to 50 mm/s) Note 7) v v v v v v v XC3 Special port location XC4 With
L Speed: V [mm/s] a1 a2 T = T1 + T2 + T3 + T4 [s] P T1: Acceleration time and T3: Deceleration time can be obtained by the following equation. Time [s] T1 T2 T3 T4 T1 = V/a1 [s] T3 = V/a2 [s] P T2: Constant speed time can be found from the following equation.
Bracket Assembly Flat, Ball Joint Type Thin Flat Type with Ribs Deep Type q w e r t y u i Deep type t Buffer stroke q Vacuum inlet direction w Pad diameter Nil Pad unit T Vertical R Lateral (With One-touch fitting) Y Lateral (With barb fitting) 10 10 16 16 25 25 40 40 Stroke [mm] Pad diameter [mm] 10 16 25 40 10 V V V V 20 V V V V 30 V V V V 40 V V V 50 V V V V e Material N NBR S Silicone
V M9NWV M9NW P P P p p IC circuit 3-wire (PNP) M9PWV M9PW P P P p p 2-wire 12 V M9BWV M9BW P P P p p Diagnostic indication (2-color indicator) Relay, PLC MGT Grommet Yes 24 V 3-wire (NPN) 5 V,12 V M9NAV*1 M9NA*1 p p P p p IC circuit 3-wire (PNP) M9PAV*1 M9PA*1 p p P p p 2-wire 12 V M9BAV*1 M9BA*1 p p P p p Magnetic field resistant (2-color indicator) 2-wire (Non-polar) P3DWA P P P
1 Thread size M5 01 02 03 04 M5 x 0.8 R R R R 1 8 1 4 3 8 1 2 M5 port only Note 1) AS221: Electroless nickel plated Note 2) AS221: Steel Note 3) Meter-in type: Black zinc chromated 15-9-8 2 Speed Controller with One-touch Fitting Elbow Type (Metal Body) Series AS Flow Rate and Effective Area AS321-03 AS421-04 AS221-01 AS221-02 AS121-M5 Model Tubing O.D. 12 10 10 8 6 8 4, 6 6, 8 Controlled
D D t D t t c e c c e e u u s u s s d i d i d i g g g o o o n n n r r r P P P A A A 1 1 9 9 9 9 9 9 w w 9 w 9 9 m I m I n n 9 9 9 u d u d a a a r u r u o s o F s tr F i e tr i e 9 9 9 D r r D r r r e e e e v v s 1 d d s 1 1 d o o i i n g n g n n n n a a H H n P n P g g r r o o i i s s d d e e u u D D c c t t d A d A r r w w a a 12-11-1 2 Courtesy of Steven Engineering, Inc.-230 Ryan Way,
10, 16 V V 10-, 11Clean series*1 6 to 16 V V*9 v v 25ACopper (Cu) and Zinc (Zn)-free*5 10, 16 V v v v v v v XB6 Heat resistant cylinder (10 to 150C)*3, 4 v v v v v XB7 Cold resistant cylinder (40 to 70C)*3, 4 v v v v v 6 to 16 XB9 Low speed cylinder (10 to 50 mm/s)*4 XB13 Low speed cylinder (5 to 50 mm/s) 6 XC3 Special port position*2, 4 6 to 16 v XC8 Adjustable stroke cylinder/ Adjustable
) MY1C63 Horizontal collision: P = 0.5 MPa Shock absorber 2000 1500 H unit Collision speed (mm/s) 2.
Ultimate pressure P (Pa) is P=Q/S, where the sum of Weight flow rates for outgassing (Qg) and leakage Q(L) is Q(Pam3/s), and the exhaust speed is S(m3/s). The ultimate pressure is measured with Qg, Q(L)S shown as above, and the ultimate pressure of the pump itself. In the case of very low pressure, the exhaust characteristics of the actual pump can be the limiting factor.
P C Regeneration option U C V Servo motor power (U) Servo motor power (V) Servo motor power (W) U V W W Connect to motor cable (U, V, W) Control Circuit Power Supply Connector: CNP2 Accessory 24V Terminal name Function Details 0V 24 V side of the control circuit power supply (24 VDC) which supplies the driver.
P N E U A T I C T E C H N O L O G Y Fnopennes oF GAsEs t S o T H E R M I C C H A N G E ( B O Y L E ' S L A W ) "...with constant temperature, the pressure of a given mass of gas is inversely proportional to its voltlme", or: P' Y= constant v = 1 i p = 1 p 1 x V l = = p 3 x V 3 p 2 x V 2 Fig. 3.5 illustration of Boyle's Law lf volume V. = 1 m3at a standard absolute pressure ot 101325 Pa is
P N E U A T I C T E C H N O L O G Y Fnopennes oF GAsEs t S o T H E R M I C C H A N G E ( B O Y L E ' S L A W ) "...with constant temperature, the pressure of a given mass of gas is inversely proportional to its voltlme", or: P' Y= constant v = 1 i p = 1 p 1 x V l = = p 3 x V 3 p 2 x V 2 Fig. 3.5 illustration of Boyle's Law lf volume V. = 1 m3at a standard absolute pressure ot 101325 Pa is