MGP slot CL b a MLGC X 0.02 X c d 6H7 CNA e CB 7 5 10 CV/MVG 6H7 e 22.5 30 Bore (mm) a 13.3 15.3 b 20.3 23.3 c 12 13.5 d 8 10 CXW 80 100 XX details XX section WB WA Z CXS Back side CXT XX section 4-MM depth ML MX Through 4-OA L Z WA socket head cap screw HA: T slot for hexagon 4-OB counter bore depth OL Through 4-NN XX section MXU MXS MXQ X 0.02 X 0.02 MXF DA VB VA R H U T X MXW PW MXP DB MG
(for std model) T XC30 Standard model no.
0 r @4 e o t 16: 25 stroke MX 20, 25: 75 stroke or less !8 MTS !
Inclined operation W + WB WV P PV W + WB > WV P > PV Allowable driving force table (Fn) (n = 1, 2, 3) Determination of allowable load weight & pressure F1 = x (W + WB) x 9.8 Horizontal F2 = (W + WB) x 9.8 x (cos + sin) Inclined F3 = (W + WB) x 9.8 x ( + 1) Vertical (Refer to page 5 for vertical operation.)
2 u t o !3 q !1 y r i e Component Parts Description Material Material Note Note Description No. q w e r t y u No. i o !0 !1 !2 !
1.374 0.50 2.06 0.75 0.375 0.38 0.56 E L F CUSHION NEEDLE (HEX 1.5) WC YC WB NCME150 LB N NN W WA WB WC Y YC ZB ZC ZD 3.74 0.75 5/8-18 0.50 0.60 0.86 90 0.95 0.63 4.02 0.09 1/8 NPT 3.82 0.88 5/8-18 0.62 0.72 0.82 90 1.17 0.63 4.10 0.09 1/8 NPT 1.25 3/4-16 0.88 0.85 1.10 45 1.50 0.91 4.50 0.09 1/8 NPT 5.62 1.75 1 1/4-12 1.19 1.20 1.45 45 1.91 1.03 6.06 0.12 1/4 NPT 5 SMCs Global Manufacturing
Inclined operation W + WB WV P PV W + WB WV P PV Determination of allowable load mass & pressure (Refer to page 1466 for vertical operation.)
Dd9 t m L d Part no. l Trunnion Nut CD-S02 CD-S03 0.040 0.076 8 0.9 1.6 19.5 24.5 7.6 Type C 8 for axis Material: Carbon steel 0.040 0.076 10 1.15 1.35 29 34 9.6 Type C 10 for axis Applicable bore size (mm) 20 25, 32 40 D C B d H Part no.
Wall mounting z y P. 8-11-36 Wb: MGGLB25-200 (4.35 kg) x y x z MY1H40-500 x 3. Ceiling mounting 4.
Horizontal mounting P. 58 Wd: Work piece (500g) y x y Wc: MHL2-16D1 (795g) Wa: Connection plate t = 10 (880g) x z 3. Ceiling mounting 4. Vertical mounting x MY1M40-500 P. 42 P. 80 z y x y z Wb: MGGLB25-200 (4.35kg) Refer to the pages above for actual examples of calculation for each orientation.
How to Order q w e r t y u i o !
Note 2) For intermediate strokes, dimensions A, B, C, E, PA, WA, and WB will be the same as the standard stroke with a longer one.
The maximum load speed V [mm/s] is approximately equal to V1 x 1.4 (1) V1: Average load speed [mm/s] V1 = st/t st: Load transfer distance [mm] t: Load transfer time [s] CNG MNB CNA Find the bore size. Step (2) 1.
F3 = (W + WB) x 9.8 x ( + 1) Refer to the allowable driving force table for (Fn) of data A. WB > WBmax Determination of connection fitting weight (WB) Review of connection fitting WB WBmax (See the standard stroke table on p.59.)
Material: Carbon steel Dd9 d L Part No. m t l 0.040 0.076 CD-S02 CD-S03 20/25 32/40 8 C8 type for pivot 7.6 24.5 19.5 1.6 0.9 0.040 0.076 10 C10 type for pivot 9.6 34 29 1.35 1.15 Applicable bore size 20 25/32 40 Part No.
Component Parts No. q w e r t y u No. i o !0 !1 !2 !3 !
Component Parts No. q w e r t y No. u i o !0 !
The maximum load speed V[mm/s] is approximately equal to V1 x 1.4 . (1) V: Average load speed [mm/s] V = st/t st: Load transfer distance [mm] t: Load transfer time [s] Find the cylinder bore size. Step 2 1. For vertical mounting 2.
The maximum load speed V[mm/s] is approximately equal to V1 x 1.4 . (1) V: Average load speed [mm/s] V = st/t st: Load transfer distance [mm] t: Load transfer time [s] Find the cylinder bore size. Step 2 1. For vertical mounting 2.
WA WB View E NN F GB GC GA Mounting nut Mounting nut Relief port M5 x 0.8 Rod end nut MM NN F Piping port 2 x M5 x 0.8 Cover surface D LY LB LH LT LZ LX LT S + Stroke H NA A NB Y X Y X 4 x LC Mounting hole LS + Stroke Z + Stroke WW C B 0 0.3 B 0 0.3 Drawing of view E (mm) Z S WW WB WA NB NA NN MM H GB GA F D C B A Y X 91.5 92.5 LS LZ 42 42 25 25 LY LX 33 33 2.3 2.3 LT 14 14 LH 5.5 5.5 LC