MXQ = 1 to 6) E Emax Ln (n = 1 to 3) M (Mp, My, Mr) Ma (Map, May, Mar) Me (Mep, Mey) Mea (Meap, Meay) Mmax (Mpmax, Mymax, Mrmax) V Unit mm J J mm Nm Nm Nm Nm Nm mm/s Unit mm/s kg kg kg kg Allowable load weight coefficient Allowable moment coefficient Workpiece mounting coefficient 8-5-15 16 Series MXQ Dimensions: MXQ6 Basic style For detailed dimensions about the stroke adjuster, refer to the
C9 Adjustable Stroke Return Piston Rod * C10 Dual Operation/Double Piston Rod * C11 Dual Operation/Single Piston Rod * C12 Tandem Cylinder* * (Contact SMC Customer Service) M O U N T I N G / S I N G L E R O D O N LY EA EB F G M N X D E C L S O R P U J T B BA BB BC ME3 Head Square Mount (8 to 14) ME4 Cap Square Mount (8 to 14) MF1 Front Flange (1.5 to 6) MF2 Rear Flange
C9 Adjustable Stroke Return Piston Rod * C10 Dual Operation/Double Piston Rod * C11 Dual Operation/Single Piston Rod * C12 Tandem Cylinder* * (Contact P/A Customer Service) M O U N T I N G / S I N G L E R O D O N LY EA EB F G M N X D E C L S O R P U J T B BA BB BC ME3 Head Square Mount (8 to 14) ME4 Cap Square Mount (8 to 14) MF1 Front Flange (1.5 to 6) MF2 Rear Flange
Same side Same side 110C K Heat resistant tarpaulin D-C7 D-C8 D-H7 D-H7W D-H7BAL D-H7NF D-C73C D-C80C D-H7C 15 50+45(n2) 50 10 Max. ambient temperature for rod boot n2 2 15+45( ) (n=2, 4, 6) 15 60+45(n2) 60 10 n2 2 15+50( ) (n=2, 4, 6) 15 65 10 65+50(n2) n2 2 20+50( ) (n=2, 4, 6) D-H7LF 20 65 10 n2 2 D-B5 D-B6 15+50( ) (n=2, 4, 6) 15 75 10 75+55(n2) n2 2 20+50( ) (n=2, 4, 6) D-B59W 20 75
A M5 x 0.8 (Port) Data Z + Stroke M5 x 0.8 (WW) (WW) (Hexagon socket head plug) 2 x 2-J depth K M5 x 0.8 (Hexagon socket head plug) XX XX M5 x 0.8 (Port) VV VV 2-M5 x 0.8 (Hexagon socket head plug) 2-M5 x 0.8 (Hexagon socket head plug) MY1CG MY1CG (mm) LH A B C G GA GB H K J LD L LL LW M MM N NC Model A B C G GA GB H K J LD L LL LW M MM N NC LH 6 16.2 6 M4 x 0.7 MY1C16 22.5 80 3.5 13.5 8.5
D-A9 5 15 30 Note 1) 15 + 35(n 2) 2 (n = 2, 4, 6) Note 3) 50 + 35 (n 2) (n = 2, 3, 4, 5) CM2 CM3 D-M9V 5 20 35 20 + 35(n 2) 2 (n = 2, 4, 6) Note 3) 35 + 35 (n 2) (n = 2, 3, 4, 5) CG1 CG1 D-A9V 5 15 25 15 + 35(n 2) 2 (n = 2, 4, 6) Note 3) 25 + 35 (n 2) (n = 2, 3, 4, 5) CG3 D-M9WV D-M9AV 10 20 35 20 + 35(n 2) 2 (n = 2, 4, 6) Note 3) 35 + 35 (n 2) (n = 2, 3, 4, 5) JMB D-C7 D-C80 5 15
MXQ12-40 0.02 0.04 0.008 MXQ12-20 MXQ12-10 MXQ12-10 0.01 MXQ12-10 0.02 0.004 0 0 0 20 40 60 80 100 20 40 60 80 100 160 40 80 120 Load (N) Load (N) Load (N) 96 Air Slide Table Series MXQ The graphs below show the table displacement when the static moment load is applied to the table.
~cross flats 12 U-\tJ Width across fl ats 10 ",I lo~ J.--, I">-. g Miniature tube fiHing (Series MS) UJ ~~ M;n ; .1U,e tube !;n;ngISedes Msi 0 t \ Width across flats 7 u Width aCross flats 7
H 364 H 364 H 364 J 116 H 364 V 564 H 364 K 332 J 116 J 116 J 116 V 564 J 116 K 332 V 564 V 564 V 564 K 332 K 332 K 332 Table B FLOW CONFIGURATION VALVE NO.
4, 6, 8 ) 80 + 30 (n 2) (n = 2, 4, 6, 8 ) 35 + 30 (n 2) (n = 2, 3, 4 ) 90 + 30 (n 2) (n = 2, 4, 6, 8 ) 100 + 100 (n 2) (n = 2, 4, 6, 8 ) D-A3 D-G39 D-K39 Different surfaces 100 + 100 (n 2) (n = 2, 3, 4 ) Same surface 1 pc. 75 80 90 10 75 75 80 80 Different surfaces 35 55 90 90 90 + 30 (n 2) (n = 2, 4, 6, 8 ) Same surface 75 + 30 (n 2) (n = 2, 4, 6, 8 ) 80 + 30 (n 2) (n = 2, 4, 6,
LVQn n Dimensions (N.O. valve, double acting valve) 2 1 V S (mm) H A B C D E F G J K L M N P Q R W Model Vn Sn LVQ2 n LVQ3 n LVQ4 n LVQ5 n LVQ6 -Vn 2 1 V S 70 77 25.5 46 31.5 58 33.6 81 12 21.8 37 5 7 15 31.3 21 25.3 64 2 1 V S 83 95 28.5 57 34.5 69 45.4 99 16.5 32 50 6 7 20 37.2 25 31.2 82 2 1 V S 95 109 28.5 57 34.5 69 45.4 104.5 22 37.5 55.5 6 7 20 37.2 25 31.2 87.5 2 1 V S 130 141
(mm) 2 to 8 0.8 N 1.2 N 1.0 N 3.0 N 2.0 N 0 stroke Stroke end 5.0 N 10 to 32 40, 50 Weight (g) Refer to 2 to 8 for Thin flat, Thin flat with ribs and Elipse type.
H 364 H 364 H 364 J 116 H 364 V 564 H 364 K 332 J 116 J 116 J 116 V 564 J 116 K 332 V 564 V 564 V 564 K 332 K 332 K 332 Table B FLOW CONFIGURATION VALVE NO.
D K E L H M N O Note) Dimensions of model with rubber bumper are same as standard as shown above.
D-G5lW D-K59W D-G5BA D-G59F D-G5NT Different surfaces (n = 2, 4, 6, 8, ) Note 1) 15 + 50 (n 2) 2 (n = 4, 8, 12, 16, ) Note 2) 90 + 50 (n 4) 2 100 + 50 (n 4) 2 (n = 4, 8, 12, 16, ) Note 2) 110 + 50 (n 4) 2 (n = 4, 8, 12, 16) Note 2) n Same surface 75 + 50 (n 2) (n = 2, 3, 4, ) 90 + 50 (n 2) (n = 2, 4, 6, 8, ) Note 1) 100 + 50 (n 2) (n = 2, 4, 6, 8, ) Note 1) 110 + 50 (n 2) (n = 2,
Use the collision speed when calculating dynamic moment. 32 32 32 32 52 140 130 140 130 78 130 52 81 81 81 81 110 110 Symbol Definition Average speed Load weight Allowable load weight Weight equivalent to impact Max. allowable load weight Load factor Symbol Definition Unit mm J J mm Nm Nm Nm Nm Nm mm/s Symbol Va W Wa We Wmax K Unit mm/s kg kg kg kg An (n = 1 to 6) E Emax Ln (n = 1 to 3) M
-A22 ZPT125 50-(B/N/T)01-A22 ZPT125 75-(B/N/T)01-A22 ZPT125 100-(B/N/T)01-A22 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T3 25-(B/N/T)01 ZPB-T3 50-(B/N/T)01 ZPB-T3 75-(B/N/T)01 ZPB-T3 100-(B
-A22 ZPT125 50-(B/N/T)01-A22 ZPT125 75-(B/N/T)01-A22 ZPT125 100-(B/N/T)01-A22 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T1 25-(B/N/T)01 ZPB-T1 50-(B/N/T)01 ZPB-T1 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T2 25-(B/N/T)01 ZPB-T2 50-(B/N/T)01 ZPB-T2 75-(B/N/T)01 ZPB-T3 25-(B/N/T)01 ZPB-T3 50-(B/N/T)01 ZPB-T3 75-(B/N/T)01 ZPB-T3 100-(B