Title not found 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 @ __--?
r e\ " f = ; C ; i r _ , i o q m l r a 6 d . t o a d J o r . \\.:j+_ | aq6 oe.orr qredrasa I | -! swirch stumedoFF,and _ .";i I I Ta u! oardvrs,k. \_, 1_l Whe. 1wo switchos ar6 ANDcoiiecled.loadma f uncl o may r6urt b@use oJ flie toad voll aged@Pwhe. the swilchs ae luffed ON. l?piLl lanp lighls wh6n hlo swilches a turned ON Eran0e P$s!
MY1B MY1B MY1H E A B MY1B C D MY1M (mm) MY1C A 61 70 87 B C D E F G H J Part no.
C11.2 1218 MY1H Series Mechanically Jointed Rodless Cylinder Linear Guide Type Side Support Side support A MY-SA 2 x G F 2 x H E C D A B Side support B MY-SB MY1B 2 x J MY1H MY1H MY1B E A B C D MY1M MY1C (mm) MY1H Part no.
Symbol Specifications/Content Applicable shaft type Shaft type variation X,Y,Z,T,J,K S,W XA1 to XA24 Shaft pattern sequencing I X,Y,Z,T,J,K XA31 to XA59 XC7 Shaft pattern sequencing II Weight S,W,X,T,J Reversed shaft XC8 to XC11 Change of rotating range (g) Change of angle adjustable range (0 to 100)" Size Standard weight XC12 to XC15 90 180 S,W,Y Change of angle adjustable range (90 to
Brake 400W without brake Symbol G *Standard strokes are available in 50 mm increments. 400W with brake H 400W without brake J Matsushita Electric Industrial Co., LTD 400W with brake K Caution When X, Y and Z axes are combined, Y axis attachment bracket is supplied as standard.
EI/.1, ,t,\/m @l/-, ,t,\tEE t r NVZCUUU Symbol CvO.7 w With Subplate Body po.ted type Base mounted tyPe with subplate NVZ5I20 NVZ5140 J J e4IrF 4uri{F NVZ5220 NVZ5240 r#T--n |r-,,.+ qlA.\lF qll,tr tFN Base mounted type NVZs3:O NVZ534O ^4T7fh rh. ,4TrnND* E l t / . 1 . . , 1 . \ { 6 @ t h L . 1 1 \ l @ __--?
r e\ " f = ; C ; i r _ , i o q m l r a 6 d . t o a d J o r . \\.:j+_ | aq6 oe.orr qredrasa I | -! swirch stumedoFF,and _ .";i I I Ta u! oardvrs,k. \_, 1_l Whe. 1wo switchos ar6 ANDcoiiecled.loadma f uncl o may r6urt b@use oJ flie toad voll aged@Pwhe. the swilchs ae luffed ON. l?piLl lanp lighls wh6n hlo swilches a turned ON Eran0e P$s!
140.5 LVR50-V19 22 80 120 169 C F E Breathing port M5 x 0.8 J Tube extensions 4 x 7 Mounting hole 1/8 (Rc, NPT) Pilot port A H D B G Breathing port M5 x 0.8 Model A B C D E LVR20-T07(06) 40 40 49.3 68 20.1 LVR40-T11(10) 82.5 82.5 89 115 33 IN C F Model F G H J K LVR20-T07(06) 8 27 56 33.5 126.2 LVR40-T11(10) 14 64.5 100 40 183.3 E K J J Breathing port M5 x 0.8 5 Applicable Fluids Regulator
Applicable cable O.D. 6 to 8 Light/surge voltage suppressor (For DZ) Manual override (Non-locking push type) E Pilot port 12(P1), 10(P2) Port size: refer to table below C K (External pilot solenoid) P1 P2 J J B (Air operated) D 4 x 2 x 18 mouting hole 32 H F A Applicable flange Port 1, 2 Pilot port 12(P1), 10(P2) A Model B C D E F H J K Note) VNC5-32F VNC6-40F VNC7-50F 1 8 1 4 1 4 32 40
Allowable Kinetic Energy E max=0.43 (J) V=Vax1.4=350x1.4=490mm/s W 30 xV2= x0.492=0.36 (J) Ev= 2g 2x9.8 Load Rate a5= E = 0.36 =0.84 Emax 0.43 3. Examination of Load Rate a = 0.84 1 OK With above allowable value, there is no problem on the selection.
In this case, consider using larger size or external stopper (buffer mechanism) to stop the load itself. 11 5-2Kinetic Energy Allowable kinetic energy of CRB2BW40 is 0.04 (J) when rubber cushion is used, and it is 0.03 (J) when rubber cushion is not used.
E1 2 I E[J]I[kg][rad/s] Imr m[kg] rm 5.1 19 I I I I kg kg kg kg m m m m 2 2 2 2 m: m: m: m: kg kg kg kg b 20 5-2. 5.1 5.1 32 0.023[J] 40 0.028[J] 2 t [rad]t[s] E E1 2 I t E 2 I t E[J][rad]I[kg] 2 t (1) t = & (2) C C t 2 1 tdt 2 + = = & & t=0 =0C=0 t 2 1 t 2 1 2 = = & t 2 = 21 5-3.
The INP output signal is turned on from 100[mm] 0.5[mm]=99.5[mm] Table Position[mm] c Area2[mm] j Area1[mm] j b Speed[mm/s] 100 0 AREA Output signal ON OFF INP Output conodition INP Output signal ON In pos[mm] k OFF 100.5 99.5 0 10 20 30 40 50 60 70 80 90 100 Stroke [mm] 27 - Example of step data input (2) Positioning operation Relative a b c d e f g h i j k Step data No.
40 50 60 70 80 90 100 [mm] [mm] c 180[mm] 290[mm] AREAON 100[mm]-0.5[mm] = 99.5[mm] INPON 2[mm] j 1[mm] j 100 b 0 [mm/s] AREA ON OFF ON [mm] k INP INP OFF 100.5 99.5 0 10 20 30 40 50 60 70 80 90 100 [mm] -23- (2 INC a b c d e f g h i j k ABS()/ / INC()// )30[mm] No.0 No.0INC No. 1 2 mm/s mm mm/s2 mm/s2 % % mm/s % mm mm mm 0 INC 100 10.00 3000 3000 0 0 0 100 10.00 20.00 0.50 1
Allowable kinetic energy E max=0.43 (J) V=Vax1.4=350x1.4=490mm/s W 30 Ev= xV2= x0.492=0.36 (J) 2g 2x9.8 Load factor a5= E = 0.36 =0.84 Emax 0.43 Examination of load factor a5 = 0.84 1 OK With above allowable value, there is no problem on the selection. ML2B25 is selected.
The INPoutput signal is turned on from 100[mm] 1[mm]=99 [mm] Area 2[mm] j Area 1[mm] j 100 b Speed[mm/s] 0 ON AREA Output signal OFF (INPOutput condition) INP Output signal ON In pos[mm] k OFF 101 99 0 10 20 30 40 50 60 70 80 90 100 Stroke [mm] -19- Example of step data input (2) < Positioning operation Ralative > a b c d e f g h i j k No.
Please refer to "Fig.1 Allowable lateral load applied to rod end" (Page 8) Table 2 Operating range and kinetic energy Bore size 6 10 16 Allowable kinetic energy 0.12 J 0.035 J 0.090 J Warning Operate the actuator with allowable kinetic energy (Table 2) or less.
The INPoutput signal is turned on from 100[mm] 1[mm]=99 [mm] Area 2[mm] j Area 1[mm] j 100 b Speed[mm/s] 0 ON AREA Output signal OFF (INPOutput condition) INP Output signal ON In posn[mm] k OFF 101 99 0 10 20 30 40 50 60 70 80 90 100 Stroke [mm] -23- Example of step data input (2) < Positioning operation Relative > a b c d e f g h i j k No.
As this product has pressure balanced construction, the exhausting direction is free. 8 XL*-OMI0013-B 5.Dimensions 26 41 K J 72 53010 OPERATION INPUT K J V L C B 39 C B 69 XLS-**-P*G (with control power supply) XLS-**-P*G () L G1/2 D XLS-**-** (without control power supply) DIN terminal (D) DIN( D ) XLS-**-** () E D F K2 J L 27010 J M 29010 J K 33 25 G1/2 G1/2 C G C C B B B A A Terminal (