Magnetically Coupled Rodless Cylinder D 1.6 x P 0.1 x Wcos + Wsin D 5.0 x P 0.1 x W + W D 5.0 x P W W > Wv P > Pv Determination of allowable load mass & pressure Inclined operation (For vertical operation, refer to page 1205.)
Applicable shaft type: W Applicable shaft type: W CRQ2 (mm) MSQ Y L2 L4 max (mm) Size E3 = E1 = Y= 10 X L3 max L1 Size 3 to 8 5 (8 Y) to (Y 1) Y 1 MRQ 10 15 5 to 14 9 (14 X) to (X 3) X 3 3 to 9 6 (2 Y) to (Y 1.5) Y 1.5 L2= L4= L1 = L3 = 15 20 D8 to 18 10 (18 X) to (X 4) X 4 3 to 10 7 (10 Y) to (Y 1.5) Y 1.5 20 30 10 to 20 10 (20 X) to (X 4.5) X 4.5 5 to 13 8 (13
Hydrogen peroxide x x x x x x Liquid Hydrosulfide acid Isopropyl acetate x x x x x x x x x x x x Water + Gas Liquid Select an air-operated, chemical valve. I Solvent for painting.
Applicable shaft type: W Applicable shaft type: W CRQ2 (mm) MSQ Y L2 L4 max (mm) Size E3 = E1 = Y= 10 X L3 max L1 Size 3 to 8 5 (8 Y) to (Y 1) Y 1 MRQ 10 15 5 to 14 9 (14 X) to (X 3) X 3 3 to 9 6 (2 Y) to (Y 1.5) Y 1.5 L2= L4= L1 = L3 = 15 20 D8 to 18 10 (18 X) to (X 4) X 4 3 to 10 7 (10 Y) to (Y 1.5) Y 1.5 20 30 10 to 20 10 (20 X) to (X 4.5) X 4.5 5 to 13 8 (13
Applicable shaft type: W Applicable shaft type: W CRQ2 (mm) MSQ Y L2 L4 max (mm) Size E3 = E1 = Y= 10 X L3 max L1 Size 3 to 8 5 (8 Y) to (Y 1) Y 1 MRQ 10 15 5 to 14 9 (14 X) to (X 3) X 3 3 to 9 6 (2 Y) to (Y 1.5) Y 1.5 L2= L4= L1 = L3 = 15 20 D8 to 18 10 (18 X) to (X 4) X 4 3 to 10 7 (10 Y) to (Y 1.5) Y 1.5 20 30 10 to 20 10 (20 X) to (X 4.5) X 4.5 5 to 13 8 (13
-www.stevenengineering.com Components Valve unit + Ejector unit Individual, common and port exhaust style for nozzle size 10, 13 Common and port exhaust style for nozzle size 15 Individual exhaust style for nozzle size 15 M2 x 0.4 x 13 2 2 2 2 2 2 2 4 4 M2 x 0.4 x 23 M2 x 0.4 x 48 M2 x 0.4 x 53 M2.5 x 0.45 x 41 M2.5 x 0.45 x 17 M2.5 x 0.45 x 21 M2.5 x 0.45 x 66 M2.5 x 0.45 x 70 w Common and
F E Y2 F Y2 CRQ2X MSQX L L E MRQ 2 x Q4 2 x Q4 K K C B D G D G B C U H U H M T N M T 25.5 N (34.5: Connector type) 2 x R 1 2 x R Auto switch P P W1 W Auto switch Size: 20, 30 Size: 40 W W 2 67 8 15 8 When D-M9m is used 32.5 1.
[mm] Size Stroke range (mm) C D EH EV F G H J K L M O1 R S 25 15 to 100 13 20 44 45.5 2 4 M8 x 1.25 24 17 14.5 34 M5 x 0.8 8 45 105 to 400 32 20 to 100 13 25 51 56.5 2 4 M8 x 1.25 31 22 18.5 40 M6 x 1.0 10 60 105 to 500 63 Up to 200 21 40 76 82 4 8 M16 x 2 44 36 37.4 60 M8 x 1.25 16 78 205 to 500 505 to 800 Size Stroke range (mm) T U B V Without lock With lock A W Z A W Z 25 15 to 100 46.5
VVFS3000-5-1A VVFS3000-5-2 VVFS3000-7-1 VVFS3000-8 19.8 x 16.6 x 1.6 (End plate) 20 x 16 x 2 (Manifold block) 6.2 x 3 x 1.6 VVFS3000-6A VVFS3000-4AAZ738-22AAXT336-9 No. q w e r t y u i Material Steel plate Steel plate NBR NBR NBR NBR NBR For increasing the manifold bases, please order the manifold block assembly number of the principal part assembly !0.
D 2.8 x P First tentative bore size determination First tentative bore size determination 0.3 x Wcos + Wsin D 5.0 x P 0.3 x W + W D 5.0 x P RS H A RZQ W W > WV P > PV Determination of allowable load weight & pressure MI W S Inclined operation CEP1 (For vertical operation, refer to page 10-2-30.)
D 2.8 x P First tentative bore size determination First tentative bore size determination 0.3 x Wcos + Wsin D 5.0 x P 0.3 x W + W D 5.0 x P RS H A RZQ W W > WV P > PV Determination of allowable load weight & pressure MI W S Inclined operation CEP1 (For vertical operation, refer to page 10-2-30.)
D 2.8 x P 0.3 x Wcos + Wsin D 5.0 x P 0.3 x W + W D 5.0 x P W W > Wv P > Pv Determination of allowable load mass & pressure Inclined operation (For vertical operation, refer to page 1193.)
L X L X L X L C C Symbol: A17 Symbol: A18 Symbol: A19 Symbol: A20 30 30 H1 H1 30 30 H1 H1 X X L X L X K L F L Symbol: A21 Symbol: A22 Symbol: A26 Symbol: A23 RD DA 30 30 30 H1 30 DA H1 DA E H1 DB DB B C T T X W X L X L X L K L LA LB Symbol: A30 Symbol: A29 Symbol: A28 Symbol: A27 DA 30 H1 30 30 30 H1 W H1 E DA W X T T C1 F L X L F X X L H1 L 182 Series CQ2 Made to Order 1 Please contact
Weight calculation m2 = d x e x f x Relative density m2 = 4 x 5 + 6 x 2.7 x 10-6 = 3.24 x 10-4 (kg) Inertial moment around Z2 axis IZ2 = {m2 (d2 x e2) / 12} x 10-6 IZ2 = {3.24 x 10-4 x (42 + 52) / 12} x 10-6 = 1.11 x 10-9 (kg.m2) = 1.11 x 10-9 + 3.24 x 10-4 x 23.52 x 10-6 = 0.18 x 10-6 (kg.m2) Inertial moment around Z axis IB = IZ2 x m2r22 x 10-6 IB Thus, the total inertial moment is I
Straight type V Elbow type Fitting size One-touch fittings for regulator Straight V 2.5 3 6.5 Elbow W 6 6.5 6 Elbow X 11 11 11.5 Elbow Y 35.5 36 38.5 4, 5/32 6 1/4 8, 5/16 W X Y Note) The O-ring is attached.
pressure First tentative bore size determination First tentative bore size determination W D 1.6 x P First tentative bore size determination 0.1 x W + W D 5.0 x P 0.1 x Wcos + Wsin D 5.0 x P W W > WV P > PV Determination of allowable load mass & pressure Inclined operation (For vertical operation, refer to page 969.)
(mm) D E Model LXPBAB50S--X LXPBAB75S--X LXPBAB-100S--X LXPBAB-125S--X LXPBAB-150S--X LXPBAB-175S--X LXPBAB-200S--X 44 52 120 90 Note) The overall length of an actuator is Stroke + 124 (141) + Motor dimension.
For the driver of 100 W, a regenerative resistor is not used. For the driver of 200 W to750 W, the built-in regenerative resistor is used. 02: LEC-MR-RB-032 03: LEC-MR-RB-12 _ x _ _ For manufacturer setting 0h x _ _ _ 0h 5 13 5. PARAMETERS Control Initial value No.
M5 x 40 9 NU M5 x 0.8 9 70 50 5 48.8 89.8 66.9 M4 x 12 M5 x 40 11 NT M5 x 0.8 9 70 50 5 47.5 89.8 66.9 M3 x 12 M5 x 40 12 NM2 M4 x 0.7 8 50 36* 4.5* 41.4 89.8 66.9 M4 x 12 M5 x 25 10 40 * Dimensions after mounting a ring spacer 803 LEFS Series Dimensions: Motor Flange Option Motor mounting position: Motor parallel e w q r PD (I.D.)
Particle concentration (Particles/ft3) 10 10 Speed: 500mm/s 10 Speed: 1000mm/s 200 150 100 50 25 Vacuuming flow (l/min ANR) Test environment: