REA/REB T Amount of stroke adjustment (Max. 2 mm) Adjusting bolt Hexagon nut Plate Adjusting Bolt Position (at the time of shipment), Hexagon Nut Tightening Torque Tightening torque (Nm) T (mm) Model REAL10 1 1.67 REAL15 1 REAL20 3.14 1 REAL25 10.8 1 REAL32 1 23.5 REAL40 1 10-2-42 42 Sine Rodless Cylinder Slider Type: Ball Bushing Bearing Series REAL Construction: 10, 15 o !6 @9 !4 @4 #2 y r !
1 !0 @1 r t e u y @0 q @2 @4 @8 @9 !3 !8 !7 #0 @6 o @3 w @7 !5 @5 !4 REBR15 Component Parts No. Description Body No.
Type 40/41 How to Order 10--SS3YJ7-40 -05 --01 Applicable solenoid valve 10-SYJ714M10-SYJ724MR port 1/4 R port 1/8 Clean series Applicable blanking plate assembly SYJ700-10-2A Manifold P, R port thread 40 41 Type 40 Type 41 Stations Nil Rc G NPT NPTF A A A A 2 stations : 20 stations 02 : 20 F N T P Port 1/8 P Port 1/4 01 1/8 A port size A port 1/8 A port 1/8 Note) For more than 6 stations
l-en load,o f * t__i-r i l u i I I I l ; l 5 t 6 t i ] F ? {C $mies L)(P tleslric Actrfllor$ It|odd $slediru ltleiludl Operating conditions when LXP is used as lifter Working fange to linear bail bearing. Use within allowable thrust. Lateral load allowance zoo T---*J-rf I I T---r -tl l r ) = _ 1 ) , 4 \ t l 1 -;-) 50 to 100 stroke 75 | 2.47 1oo I zJt 125 1 5 0 ' , , e 1'rC ' "; ?
EI/.1, ,t,\/m @l/-, ,t,\tEE t r NVZCUUU Symbol With Subplate CvO.7 w Body po.ted type Base mounted tyPe with subplate NVZ5I20 NVZ5140 J J e4IrF 4uri{F NVZ5220 NVZ5240 r#T--n |r-,,.+ qlA.\lF qll,tr tFN Base mounted type NVZs3:O NVZ534O ^4T7fh rh. ,4TrnND* E l t / . 1 . . , 1 . \ { 6 @ t h L . 1 1 \ l @ __--?
Individual SUP spacer assembly + Individual EXH spacer assembly (Double spacer) Individual EXH spacer assembly Individual SUP spacer assembly Air Preparation Equipment Pressure Control Equipment Flow Control Equipment Pressure Switches/ Pressure Sensors (End plate) (Pilot valve) t t SUP port EXH port EXH port t 11 15 18 20 1 4 t 11 15 18 20 1 4 Series Assembly part no.
How to Order 25A-LEFS 25 H R B 200 S 1 6N 1 q r w e t u y i o !0 !1 !
@ ZP3-T(04/06/08)B;(JB/K)15-@ ZP3-T(04/06/08)UM(JB/K)20-@ ZP3-T(04/06/08)B;(JB/K)20-@ ZP3B-T2A(J/K)3-B5 Note 1) ; in the table indicates the pad material.
Applicable shaft type: K (mm) X W1 L1 max L3 max (mm) Shaft type L3 = Y W2 L2 max L4 max L1 = W1 = J K T J K T J K T J K T Size Size L2 1 4.5 to 14 10 10 X 3 Y 1 0.5 to 2 0.5 to 2 6.5 to 14 L1 1 L4 = L2 = Y = L2 1 5.5 to 18 15 15 X 4 Y 1.5 0.5 to 2.5 0.5 to 2.5 8 to 18 L1 1 L2 1 6 to 20 20 20 Y 1.5 X 4.5 0.5 to 3 0.5 to 3 9 to 20 L1 1 X = L2 2 8.5 to 22 30 30 Y 2 X 5 0.5 to 4 0.5 to 4 11.5
P N S Ground ball screw Rolled ball screw Slide screw 1 Series LJ1H10 Standard Motor Motor Output Ground Ball Screw High Rigidity Direct Acting Guide 50W 12mm/12mm lead Horizontal Mount How to Order Stroke LJ1H101 F 2 PB 1 Cable entry direction Top entry Cable entry direction Power supply voltage Cable length Left entry F R L T B 100/110VAC (50/60Hz) 200/220VAC (50/60Hz) Axial Right Left
O e b u t ) h c n i ( . n i M e l o h . a i d t h g i e W ) g ( d a e r h T ) T P ( R . o N t r a P H ) . x e H ( D 1 D 2 L1 L2 * A M R(PT) 6 1 / 3 8 / 1 S 1 0 5 0 T 2 Q K 0 1 4 . 1 1 0 1 5 . 9 1 5 . 2 2 4 2 5 . 6 1 6 2 1 4 / 1 S 2 0 5 0 T 2 Q K 4 1 5 . 6 2 6 2 1 2 8 / 1 S 1 0 7 0 T 2 Q K 0 1 2 . 3 1 0 1 5 . 0 2 5 . 3 2 6 2 7 1 6 . 4 2 1 4 / 1 4 / 1 S 2 0 7 0 T 2 Q K 4 1 5 . 7 2 8 2 2 2
Inlet pressure (MPa) 0 0.4 0.5 0.6 0.7 0.8 0.9 1 Inlet pressure (MPa) 0 0.5 0.4 0.6 0.7 0.8 0.9 1 Inlet pressure (MPa) Charge Characteristics Charge Characteristics Charge Characteristics 60 12 5 11 50 10 Charge time per 10 L t (s) Charge time per 10 L t (s) Charge time per 10 L t (s) 4 9 40 8 3 7 30 6 5 2 20 4 3 1 10 2 1 0 0 0 1.0 1.2 1.4 1.6 1.8 2.0 Pressure increase ratio P2/P1 1.0 1.1
SMC Pneumatics, Inc. 4 Series ASIII1F-T How to Order AS 2 2 1 1 F 01 06 S T Tamper proof type Body size Note) A special tool necessary for flow rate adjustment should be ordered separately. (Part no.: AS-T-1) 1 2 3 4 M5 standard 1/8, 1/4 standard 3/8 standard 1/2 standard With sealant Note) Sealant is not provided for ports with M5 and 1032UNF threads.
Nil F G Rc Example) Attached to the first and third stations ZR1-RV1-1 ZR1-RV1-3 ZR1-R1-A3 T NPTF Example) Attached to the first and third stations ZR1-R1-1 ZR1-R1-3 Example) ZZR106-R .1 pc. (Manifold base only) ZR120S1-K15MZ-EC ... 5 pcs. (Unit) ZR1-BM1 . 1 pc. (Blank plate) ZR1-R1-3 . 1 pc.
Side ports 1. Top mount 3. T-slot side mount Easy adjustment of work piece and cylinder mounting 1. Top ports 1. Auto switch mounting 4. Bottom mount 2. Side ports 2. Auto switch mounting 4. Bottom mount Auto switches can be mounted on two sides 2. Side mount 3.
] [F] [5] [2] [5] [2] STX ETX 02H 30H 41H 31H 32H 35H 46H 03H SOH 30H 41H 31H 32H 35H 46H 03H 152H 2 52 ASCII [5][2] 252[5][2] 14.3.5 300ms(STX), EOT100ms3 () 1 00m s 1 00ms 1 00ms 300ms 300ms 300ms 300ms E O T E O T E O T ( ) ( ) 14 7 14 14.3.6 ([B][F][b][f])() 3 ( ) S T X S T X S T X ( ) () 3 14.3.7 (1) 1 (2) 14 8 14 14.3.8 0() 0 0 3 3 1 0 () 3 3 STX ET X
1 !1 !2 !2 !3 w t y q i o e u t y q i o e u w !0 !0 !9 Meter-in type Meter-out type Meter-out type Meter-in type Seal method: Face seal For G thread r !8 !4 !6 !7 !5 !1 !2 w t y q i o e !0 u @0 Meter-in type Meter-out type Component Parts No.
T NCDQ8200-T NCDQ8250-T Super Compact with Built-in Magnet (OZ) Stroke Model 025 (1/4") 037 (3/8") 050 (1/2") 062 (5/8") 075 (3/4") 087 (7/8") 100 (1") 125 (1-1/4") 150 (1-1/2") 175 (1-3/4") 200 (2") 012 (1/8") 2.35 3.75 7.11 11.5 16.5 25.7 NCDQ8Z056-T NCDQ8Z075-T NCDQ8Z106-T NCDQ8Z150-T NCDQ8Z200-T NCDQ8Z250-T 4.84 5.44 13.9 21.8 26.9 36.3 4.55 6.40 13.2 20.7 25.3 34.6 4.27 5.98 12.4 19.6
Mitsubishi Electric Corporation Yaskawa Electric Corporation None F R L T B Nil W Axial Right Left Top Bottom 100/115VAC (50/60Hz) G 1 N.C. (B contact) 2 pcs.
Model r e b m u N A f o t r o P l e d o M g n i t r o P e z i s t r o P B e z i s t r o P A c i r t e M " 2 3 / 5 " 4 " 4 / 1 " 6 " 6 1 / 5 " 8 t r o P A t r o P B h c n I 1 1 M K h c u o t e n O g n i t t i f g n i t t i f h c u o t e n O 0 1 , 6 6 1 / 5 8 8 / 3 0 1 2 / 1 2 1 2 1 M K h c u o t e n O g n i t t i f d a e r h t T P N 0 1 , 6 4 / 1 T P N ) T P ( c R 4 / 1 d a e r h