MG 6H7 depth 10 PB GB Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com WB J JA 10 Q PA + Stroke C + Stroke B + Stroke A + Stroke WA Z JB 6H7 depth 10 FB FA S K E G With head end lock 7 6H7 HN 10 5 6H7 DM 23 b a Detailed figure of section XX T-slot dimensions e c d End
W W FY B D E d MA M a NB C F A K NA B S + Stroke FT H FX ZZ + Stroke FZ With rod boot e 10 l f h + l ZZ + l + Stroke (mm) Bore size (mm) A a B C d F FD FT FX FY FZ G GA GB J K M MA MM NA NB P R D E 0 -0.062 0 -0.062 0 -0.074 0 -0.074 0 -0.074 0 -0.074 0 -0.087 0 -0.018 0 -0.021 0 -0.021 0 -0.021 0 -0.025 0 -0.025 0 -0.025 40 23 10 60 44 18 25 9 10 77 44 95 14 17.5 9.5 M8 x 1.25 18 16 20 M14
Facility having a small installation area (that can not vent the air naturally) Make a forced air exhaust vent on a wall at a high level and an air vent on a wall at a low level.
20 30 40 50 0 10 20 30 40 50 Circulating fluid temperature Circulating fluid temperature 60Hz 50Hz Fig. 9-4 Cooling capacity(HRS060--20-(BJM)) 1. 5 1. 5 1. 5 1. 5 1. 5 1. 5 kW kW kW kW kW kW 1 1 1 1 1 1 0. 5 0. 5 0. 5 0. 5 0. 5 0. 5 0 0 0 0 0 0 9.5 Heating capacity 0 2 0 2 0 2 0 1 2 0 1 2 0 1 2 HRS060-A-2050Hz HRS060-A-2050Hz HRS060-A-2050Hz HRS060-A-2060Hz HRS060-A-2060Hz HRS060-A
CE2 Finger options ML2B A B A B A B Basic type Tapped on upper and lower faces Tapped on all faces Using tapped holes in the body from bottom face C J G5-S CV Positioning pin holes allow for easy mounting.
1 Escapements Series MIW/MIS 8, 12, 20, 25, 32 RE A B REC CX CY MQQ M RHC MK(2) RS Q G RS H A RZQ MI W S CEP1 CE1 CE2 ML2B C J G5-S CV MVGQ CC RB J Ideal for separating and feeding individual parts from vibratory feeders, magazines, and hoppers.
, 5V, 10V, 20V IDG3HV, 5HV, 10HV, 20HV L (K) A C B (G) D OUT IN M (H) (J) F E (K) L IDG30V, 50V IDG30HV, 50HV IDG30LV, 50LV, 60LV, 75LV, 100LV IDG60SV, 75SV, 100SV A B C (G) D IN OUT M (H) E (J) F Drain discharge With differential pressure type auto drain With float type auto drain With drain guide (Q) (N) (P) N.O.: Black N.C.: Gray Thread size: 1/4 Applicable tube O.D.: 10 (NPT threads:
A 10 B 15 C 20 Produced upon receipt of order (Robotic cable only) Refer to the specications Note 2) on pages 9 and 10.
auto switch DM2 C H L 40 F A J H7BW 150 Number of auto switches Bore size Rod boot 2 pcs. 1 pc. n pcs.
-2No.PS-OMR0001CN-J 1 / 1 1.5 *3) *3)1 1 -3No.PS-OMR0001CN-J 1 SMC 100 1 -4No.PS-OMR0001CN-J 1 / (5 m ) CE 50 N 30m DC(-)() () IP67IP65 -5No.PS-OMR0001CN-J 1 41 LCD VX2 (2 )AR20 () -6No.PS-OMR0001CN-J 2 (0.01 mm0.03 mm0.02 mm0.15 mm0.05 mm0.30 mm) ON()/OFF()() (A)() (B)() (C)(B)() -7No.PS-OMR0001CN-J 2 2 9 0.010.03mm 0.020.15mm 0.050.30mm DIN F G H 7 10 B Rc1/8 4
M N C D 4-O T Q 2-P E B S K L U W AA A I AP R X AB Y + Stroke J V Z + Stroke AC AD 8-AF AE For standard stroke (mm) Bore size (mm) Stroke range (mm) AC E D AF G AE AD AB AA N M F L K B J AP C H I A 20 25 32 40 50 75, 100, 125, 150, 200 M5 x 0.8 depth 10 16.5 92 60 9.5 depth 6 30 75 11 12 45 25 5.5 80 60 55 108 M8 x 1.25 depth 14 25 24 30 99 M6 x 1 depth 12 16.5 113 65 11 depth 8 30 85 13
B A B A B A B A B A B A B A B A B A B 32 10.5 8 6.5 4 7 4.5 12 9.5 0.5 0 4.5 2 0.5 0 4 1.5 5.5 3.5 3.5 1 40 10.5 8 6.5 4 7 4.5 12 9.5 0.5 0 4.5 2 0.5 0 4 1.5 6 3.5 3.5 1 50 11 8.5 7 4.5 7.5 5 12.5 10 1 0 5 2.5 1 0 4.5 2 6.5 4 4 1.5 63 11 8.5 7 4.5 7.5 5 12.5 10 1 0 5 2.5 1 0 4.5 2 6.5 4 4 1.5 80 14 12.5 10 8.5 10.5 9 15.5 14 4 2.5 8 6.5 4 2.5 7.5 6 9.5 8 7 5.5 100 14 12.5 10 8.5 10.5 9 15.5
5 +10 7 5 < Cp 10 Cw 0.5 8 0.5 < Cw 5 9 5 < Cw 10 x Cp > 10 Cw > 10 > 5 [How to Perform a Test to Check the Performance] ISO 12500, which sets out the test method to be used in order to check the filter performance for each of the three kinds of contaminants, is indicated below.
A tree stop of a rotating mass without cushioning or overloading risks breaking the pinion or vane, The allowable energy published by the manutacturer musl be caretully respected. a J=m.r 6 J = m . V c J = m . r l 2 + 1 2 2 T I v I + I I ri J' r 2 4 d = m . ,#,*, a J = m . I a 'ilE' d !-::-!. mb= n, t r a+b l l ta2+c2 i a ' Ti+l 2 . ^ 2 12 ho'oo#" ' 1 J = n y r = m " . * * ' o .
Speed 600 mm/s REAS25 8 4 7 10 11 6.5 26.4 16 8.5 70 54 40 20 14 REAS32 8 5 7 12.5 14 8 33.6 20 9.5 86 66 46 24 16 REAS40 10 5 10 12.5 14 8 41.6 25 10.5 104 76 57 25 20 J x K HP HS HT L LD M MM N NN Model REAS15 M8 x 1.0 39 15 21 M6 x 1.0 x 9.5 60 5.6 8 M5 x 0.8 7.5 REAS20 M10 x 1.0 45 25.5 10 M6 x 1.0 x 9.5 70 5.6 10 M6 x 1.0 9.5 REAS25 M14 x 1.5 53 23 10 M8 x 1.25 x 10 70 7 10 M6 x 1.0
www.stevenengineering.com I 6.11 VACUUM VACUUM PADS SERIES ZP H O W T O O R D E R ZPT P A D V E R T I C A L T Y P E W I T H O U T B U F F E R ZPT V A C U U M E N T R Y ( A L S O M O U N T I N G T H R E A D D I A) P A D D I A M E T E R S Y M B O L T H R E A D D I A M E T E R 2~ 8 10~ 16 20~ 32 40 50 02 2 04 4 06 6 08 8 10 10 13 13 16 16 20 20 25 25 32 32 40 40 50 50 P A D M AT E R I A L Male
l (mm) A A' s i s .D I E I F GA I GsJ H I I Bore Size J MM NN 6 7 9 14 14 3 10.5 8 6 6 17 10 10 12 15 17 5 13 I 8 6 I 7 20 L .. 6 M3x O.5 MlO xlO 7 3.4 1.6 24 16 32 97 ; ~ 4.5 Hi ' 28 1S 10 5.5 1 2.3 36 22 49 ~ 7 I M4X O.7 M12X1 .. 0 15 12 14 20 1 19 6 15.5 I 10 6 I 7 24 9 I M5X O.8 MI4 X tO - Series CJP 2-M5xo.B z H s A F GA G8 A A' jI ~: 1=r=if1+ :' -,LitL*'ft ? .. =.'
Selection for a compressed air line in which a mist separator or micro mist separator is already installed Verify the operating air flow rate and air pressure, and select a membrane air dryer in accordance with the model selection method (page 14-19-10).
HRS012/018--10-T/MT HRS012/018/024/030--20-T HRS012/018/024/030--20-MTNote 1) Applicable model Rated flow50/60Hz Note 2) 3) 7(0.36MPa)/10(0.42MPa) 10(0.44MPa)/14(0.40MPa) 10(0.32MPa/)/14(0.32MPa) Pump 18/22 Maximum flow rate (50/60 Hz) L/min Maximum pump head (50/60 Hz) m 55 70 60 Output W 320 550 Circuit protector 15A (10 A for standard) A 15 Recommended earth leakage breaker capacity 15
A tree stop of a rotating mass without cushioning or overloading risks breaking the pinion or vane, The allowable energy published by the manutacturer musl be caretully respected. a J=m.r 6 J = m . V c J = m . r l 2 + 1 2 2 T I v I + I I ri J' r 2 4 d = m . ,#,*, a J = m . I a 'ilE' d !-::-!. mb= n, t r a+b l l ta2+c2 i a ' Ti+l 2 . ^ 2 12 ho'oo#" ' 1 J = n y r = m " . * * ' o .