MY1

Use 0.3 to 0.7 times the thrust (varies depending on the operating speed) as a guide for actual use. g: Gravitational acceleration Dynamic moment M Mounting orientation Dynamic load FE Horizontal Ceiling Wall Vertical Z 1.4 100 x a x mn x g a a 1 3 x FE x Z ME Dynamic moment Dynamic moment ME is not generated.

LEC-OM069xx

If using the DRIVERs phase-Z pulse output for a zero point return, rotate the servomotor two or more times before starting a zero point return. If the servomotor cannot be rotated two or more times, perform a zero point return at a motor speed of 600 min-1 or below.

Mechanically Jointed Rodless Cylinder Series MY2

Static moment M1 M1 m1 x g x Y m2 x g x Y m3 x g x Z M2 z y Y Z m3 x g x X m4 x g x Y M3 m4 x g Note) m4 is a mass movable by thrust.

REA/REB

B FB EB H 4-counterbore depth C 4-J depth JK HI S + Stroke HO TT T HP HG MM thread depth M PA H 2-P Hollow shaft for piping HP HG 2-P d D LD A 5.5 NN GP PW PW QW GP PB W HT HT (11) RW HB HS HB HA L G G View A REAL15 HS Z + Stroke Q + Stroke A N N (mm) HP HO HI HG HB HA H GP G FB FA EB EA d D C B Model A REAL15 REAL20 REAL25 REAL32 REAL40 39 38 14 16 4 6.5 40 65 6.5 6 3 13 6 12 16.6 5 9.5

REA/REB

G HC HP NL HG HT HA H HB NT RS H A PS PP N A RZQ Z + Stroke W Square nut for body mounting J MI W S TW CEP1 CE1 CE2 ML2B C J G5-S (mm) Model A EA EB H HA HB HC HG HP HT J LL LW M MM N CV REAHT25 REAHT32 125 28.5 79 63 46 46 61.5 19.5 58.5 35 M6 x 1.0 56 119 M6 x 1.0 10 20.5 132.5 30 90 75 52.5 57.5 72.5 25 69.5 43 M8 x 1.25 63.5 130 M8 x 1.25 12 23 MVGQ CC Model NL NT PA PB PP PS S TW W

CNA

MGG (Max.)W1 B DX Z + Stroke MGC DDH10 hole 90 B MGF 4-DT B DS A DH DF CY1 DO DO DC DE DU DU DL DA 4-DR MY1 Rotation angle (mm) Bore (mm) 40 50 63 80 100 Bore (mm) 40 50 63 A B A + B + 90 Part No.

Slider Type Ball Screw Drive/11-LEFS Series

Calculate the load factor for each direction. x = Xc/Lx, y = Yc/Ly, z = Zc/Lz 5. Confirm the total of x, y and z is 1 or less. x + y + z 1 When 1 is exceeded, please consider a reduction of acceleration and work load, or a change of the work load center position and series. Acceleration [mm/s2]: a Work load [kg]: m Work load center position [mm]: Xc/Yc/Zc z y 1. Horizontal 3.

Compact Cylinder Series CQ2 ø12, ø16, ø20, ø25, ø32, ø40, ø50, ø63, ø80, ø100, ø125, ø140, ø160, ø180, ø200 1

A Dimensions except A, L and L1 are the same as rod side flange style.

Stopper Cylinder Series RSQ Series RSG (Fixed mounting (Adjustable height) mounting height)

When using a stopper cylinder for intermediate stopping of a load connected directly to a cylinder, etc. The operating ranges shown in this catalog apply only for stopping of a pallet on a conveyor. When using a stopper cylinder to stop a load connected directly to a cylinder, etc., the cylinder thrust will become a lateral load.

Modular F.R.L. Units

AD17-A AD27-A AD37-A AD47-A Spacer Y100-A Y200-A Y300-A Y400-A Y500-A Y600-A Spacer with bracket Y100T-A Y200T-A Y300T-A Y400T-A Y500T-A Y600T-A Check valve 5 6 AKM2000-01-A (02)-A AKM3000-(01)-A 02-A AKM4000-(02)-A 03-A Pressure switch 6 IS10M-20-A IS10M-30-A IS10M-40-A IS10M-50-A IS10M-60-A T-spacer 5 6 Y110-M5-A Y210-01-A (02)-A Y310-(01)-A 02-A Y410-(02)-A 03-A Y510-(02)-A 03-A Y610

LEC-OM071xx

If using the DRIVERs phase-Z pulse output for a zero point return, rotate the servomotor two or more times before starting a zero point return. If the servomotor cannot be rotated two or more times, perform a zero point return at a motor speed of 600 min-1 or below.

CG1

A low hydraulic pressure cylinder used at a pressure of 1.0MPa or below. Through the concurrent use of a CC series air-hydro unit, it is possible to operate at a constant or low speed or to effect an intermediate stop, just like a hydraulic unit, while using pneumatic equipment such as a valve.

Environment

PB H thread depth C Vent hole Note 3) J PC EV Z T M U D K Note 2) L R 4 x O1 thread depth R W A + Stroke B + Stroke S EH M 6 x MO thread depth MR XA H9 depth XA MH Section XX details MA ML + Stroke MC MD Section XX XB XA H9 XA [mm] Incremental encoder Absolute encoder B C D EH EV Without lock With lock Without lock With lock A W Z A W Z A W Z A W Z Size Stroke range [mm] 25 15 to 100 238

V

48.5 63.6 25 89.5 79.5 10 15 ZPR40D 40 43 29 42.5 53.3 71.1 25 97 87 17 15 A P P L I C A B L E T U B E A P P L I C A B L E T U B E Applicable Tube OD P Q R S Applicable Tube OD P Q R S 4 4 23.3 15.8 10.4 6 6 24.3 16.8 12.8 H O W T O O R D E R Z P R P A D H O R I Z O N T A L T Y P E W I T H O U T B U F F E R 6 6 24.3 16.8 12.8 8 8 26.2 18.7 15.2 8 8 26.2 18.7 15.2 ZPR P A D D I A M E T E

Pin Clamp Cylinder Series C(L)KQG/C(L)KQP

Recommended pneumatic circuit for the CKQG/P series The following is an example of a basic meter-out control circuit for operating a cylinder using an air filter, a regulator, a solenoid valve and a speed controller. 7) It is possible to use the pneumatic circuit shown below. However, unlock the cylinder before operating.

10

Z1K Z1L Z1M Z1W Z1N Z1P Z1Q Z1R Z1Y Z1S Z1T Z2K Z2L Z2M Z2N Z2P Z2Q Z2R Z2S Z2W Z2T Z3A Z3B Z3C Z3D Z3E Z3F Z3G Z3H Z3V Z3J A B C D E F H J K L M N Nil A B C D E F G H K L Z Nil XB A B D E H J L M Nil A B C D E F G H K L Z Nil XB A B C D E F G H J K L M N P Nil A B C D E F G H K L Z Nil XB A B C D E F M N P Q R S T U V W Y Z1A Z1B Z1C Z1U Z1D Z1E Z1K Z1L Z1M Z1W Z1N Z1P Z1Q Z1R Z1Y Z1S Z1T

Magnetically Coupled Rodless Cylinder Series CY3 B R /CY1 1

W K HT HB HC N X A 2-Plug 4-Counterbore dia.

CNA

W1 B DX Z + Stroke DDH10 hole 90 B 4-DT B DS A DH DF DU DU DL DA 4-DR DO DO DC DE Rotating Angle Bore size (mm) 40 50 63 80 100 Bore size (mm) 40 50 63 80 100 Part no.

CNA

W1 B DX Z + Stroke DDH10 hole 90 B 4-DT B DS A DH DF DU DU DL DA 4-DR DO DO DC DE Rotating Angle Bore size (mm) 40 50 63 80 100 Bore size (mm) 40 50 63 80 100 Part no.

Mechanically Jointed Rodless Cylinder Series MY2 ø16, ø25, ø40 1

m2 x g x Y m3 x g x Z M2 z y Y Z m3 x g x X m4 x g x Y M3 m4 x g Note) m4 is a weight movable by thrust.