/ F G H I J K L M N O Model SGHA12-7010 SGHA22-7015 SGHA321-7020 SGHA322-7020 SGHA421-7025 SGHA422-7025 Main port Pilot port 2 x 3/8 1/8 60 28 29 116 34 60 24 29 125 37.5 75 62 10.5 16 2 x 1/2 1/8 77 33 32 133 20 44.5 80 36 25 142 50 100 70 12 16 2 x 3/4 1/4 96 43 39 157 24 60.5 100 49 34 169 63 126 92 20.5 19 2 x 3/4 1/4 96 43 39 142 24 60.5 100 49 34 154 63 126 92 20.5 19 2 x 1 1/4 113
Basic inertia moment r 2 r m I m mWeight of load. kg rLoad center of gravity and distance of rotation axis. m Fig. 9 This shows inertia moment of m (weight) at r from the rotation axis. Calculation of inertia moment depends on the shape of the object.
, , + r l r c o M . 2 { + l .r!9!4t i I '.*"{ c o M . r s r + t '.*{ la:q.B js t ) L l s ! r 6 L + r tL--g.S!" i6 t+l r-fP!3zo r t I r-V-ru ?sdm,{t-!:-!!.Fst-r ?i,oxl+4r5"a, I l r c o M " I r + r t r c o M c , + l ll coM" i q (+) ( coMo ro(+) /r'Y;-"' M* fr'fi-"" ' ire!.f s | ) ,-Js!jr L , 3 smms { l'.;+_2. ( ) ( L--!9!!" zz r +r 3sd5{fj:3'?L i 3 idb61f-1:-_r: ( ' tl co 22 l+) tL-Lg!!"
, , + r l r c o M . 2 { + l .r!9!4t i I '.*"{ c o M . r s r + t '.*{ la:q.B js t ) L l s ! r 6 L + r tL--g.S!" i6 t+l r-fP!3zo r t I r-V-ru ?sdm,{t-!:-!!.Fst-r ?i,oxl+4r5"a, I l r c o M " I r + r t r c o M c , + l ll coM" i q (+) ( coMo ro(+) /r'Y;-"' M* fr'fi-"" ' ire!.f s | ) ,-Js!jr L , 3 smms { l'.;+_2. ( ) ( L--!9!!" zz r +r 3sd5{fj:3'?L i 3 idb61f-1:-_r: ( ' tl co 22 l+) tL-Lg!!"
2 4 6 13 Filtration accuracy (m) 0.5 1 5 10 20 50 75 100 No.
M plug connector 2 position double: VZS3250-M(Z)-01 02 3 position closed center: VZS3350-M(Z)-01 02 3 position exhaust center: VZS3450-M(Z)-01 02 3 position pressure center: VZS3550-M(Z)-01 02 DIN terminal 2 position double: VZS3250-D(Z)-01 02 3 position closed center: VZS3350-D(Z)-01 02 3 position exhaust center: VZS3450-D(Z)-01 02 3 position pressure center: VZS3550-D(Z)-01 02 164 (3 position
MXW 19 26 19 MXJ (Through) Note 1) MXP 3 +0.05 0 depth 2 7 3.5 MXY 3 +0.03 0 depth 2 13 (Through) Note 1) MTS M 2 x M1.7 x 0.35 thread depth 3.5 8 K 12.5 3.5 Vacuum port M3 x 0.5 (Plugged when the product is not a symmetric type.) (Plugged when the product is not a symmetric type.)
2.5 R 1 R 2 2 1.2 6 8 2 6.7 8.8 3 Applicable pad B06MU/B08MU/B10MU/B15MU ZP2-B10MU ZP2-B15MU 9 8 6 6 4 4 R 4 2 2 1.2 2 2 2 8 R 7 2 2 4 2 2 6 15 10 Note) R part has to be smooth with no corners.
with are made to order specification. 0.5 m Nil (Example) M9N 1 m M (Example) M9NM 3 m L (Example) M9NL 5 m Z (Example) M9NZ 622 Angular Style Air Gripper Series MHC2-6/MHCA2-6 Specifications Fluid Air 0.15 to 0.6 MPa 0.3 to 0.6 MPa 10 to 60C 0.02 mm 180 c.p.m Non-lube Double acting, Single acting (Normally open) Solid state auto switch (3-wire, 2-wire) Operating pressure Single acting
and Fig. 5.2-2 Key operation (2/2) show the operation of keys of the thermochiller.
If foreign objects with a size of 20 m or more are likely to enter, install the particle filter. 2 Filter Rc1/2 20m HRS-PF003 3 Flow meter 0 to 50L/min 4 Pressure gauge 0 to 1.0MPa 5 Others (pipe, hose, etc.) 15 or more Y-strainer Rc1/2 #1000 Install either the strainer or filter.
Load mass (kg) 40 50 40 32 E = 2 M + m 2 30 20 E = Kinetic energy (J) M = Mass of non-moving part (kg) m = Mass of moving part (kg) = Piston speed (m/s) 10 5 150 100 200 300 Model Selection Maximum speed (mm/s) RZQ Moving Part Mass Unit (kg) 2. Use the cylinder in applications in which the overrun will not cause any problem.
2 3 4 5 0 1 2 3 4 6 5 Flow velocity (m/s) Flow velocity (m/s) VNA Calculating the Flow Velocity VNB v = 21.2 x Q/d2 SGC (Symbol) v: flow velocity (m/s) Q: flow rate (l/min) d: piping inner diameter (mm) VNC VNH VND VCC 407 Series VNH High Pressure Coolant Valve 3.5 MPa, 7.0 MPa Corresponding to high speed grinding and long drilling processes Valve for high pressure coolant liquid (up to
L A T C A N X 1 5 2 Made to Order Note3) Card Motor controller Note2) NIL Standard product X152 I/O cable (without shield) Option Parallel I/O NIL Direct mounting N NPN D Note1) DIN rail mounting P PNP I/O cable length Note3) NIL Without cable 1 1 m 3 3 m 5 5 m Note 1) The DIN rail is not included, this must be ordered separately.
Yaxis [Axis speed calculation] Composite travel distance = Target position 1 2 Z Z Y Y X X 2 2 2 Composite speed 1 2 1 2 (X2, Y2, Z2) Xaxis speed = ( 1 2 X X / Composite travel distance) Composite speed Y axis speed = ( 1 2 Y Y / Composite travel distance) Composite speed Z axis speed = ( 1 2 Z Z / Composite travel distance) X axis Composite speed Current position (X1, Y1, Z1) Z
B1 A B 2 x P 1(IN), 2(OUT) port 2 x M5 Thread depth N 2 x P 1(IN), 2(OUT) port B 2 x M5 Thread depth N K K J H J H Conduit terminal DIN terminal Cable 0.24 to 0.47 Q F D D S G1/2 Qp0.08 F 1.34 (1.73) 1.26 R 1.24 0.99 T C K C R E E Sp0.08 A A B1 2 x P 1(IN), 2(OUT) port B1 2 x P 1(IN), 2(OUT) port B B 2 x M5 Thread depth N 2 x M5 Thread depth N K J H G1/2 J H (inch) Grommet Grommet (with surge
M plug connector 2 position double: VZS2250-M(Z)-01 3 position closed center: VZS2350-M(Z)-01 3 position exhaust center: VZS2450-M(Z)-01 3 position pressure center: VZS2550-M(Z)-01 DIN terminal 2 position double: VZS2250-D(Z)-01 3 position closed center: VZS2350-D(Z)-01 3 position exhaust center: VZS2450-D(Z)-01 3 position pressure center: VZS2550-D(Z)-01 Applicable cable O.D.: 3.5 to 7 MAX
(Non-locking) 2-2.6 (Mounting hole for manifold) (Mounting screw) 4-M5 x 0.8 (Piping port) 2-M3 x 0.5 depth 8 (Mounting screw) L plug connector (L) VZ1120-L-M5 M plug connector (M) VZ1120-M-M5 DIN terminal (D) VZ1120-D-M5 (Lead wire length) Applicable cable O.D. 3.5 to 7 300 300 (Lead wire length) : With light/surge voltage suppressor 3-3-12 Series VZ1000 Manifold Specifications Manifold
S F 35 ML2B CCVS02-G-S 45 80 86 35 25 1 36 17.5 88.2 72 45 1/2 148.5 103.9 101 CCVS1-G-S 45 80 86 35 18 35 25 2 36 17.5 72 98 57 1/2 148.5 121.8 101 M5 x 0.8 5.4 to 7.5 C J G5-S CCVS2-G-S 45 80 86 35 18 35 25 1 36 17.5 88.2 72 98 57 1/2 148.5 103.9 101 CCVS3-G-S 45 80 86 35 18 35 25 1 36 17.5 88.2 72 98 57 1/2 148.5 103.9 101 CV CCVS0-S 45 80 86 35 25 36 17.5 88.2 72 98 57