Series CJ2Y ø 10, ø 16 Smooth Cylinder Double Acting, Single Rod ) (n = 2, 3, 4, 5) D-A9mV 5 10 35 10 + 35(n 2) 2 (n = 2, 4, 6) Note 3) 35 + 25 (n 2) (n = 2, 3, 4, 5) Band mounting D-C7m D-C80 10 15 50 15 + 40(n 2) 2 (n = 2, 4, 6) Note 3) 50 + 20 (n 2) (n = 2, 3, 4, 5) D-H7m/H7mW D-H7BA D-H7NF 10 15 60 15 + 45(n 2) 2 (n = 2, 4, 6) Note 3) 60 + 22.5 (n 2) (n = 2, 3, 4, 5) D-C73C D-C80C D-H7C 10 15 65 15 + 50(n 2) 2 (n = 2, 4, 6) Note 3) 50 + 27.5
D D t D t t c e c c e e u u s u s s d i d i d i g g g o o o n n n r r r P P P A A A 1 1 9 9 9 9 9 9 w w 9 w 9 9 m I m I n n 9 9 9 u d u d a a a r u r u o s o F s tr F i e tr i e 9 9 9 D r r D r r r e e e e v v s 1 d d s 1 1 d o o i i n g n g n n n n a a H H n P n P g g r r o o i i s s d d e e u u D D c c t t d A d A r r w w a a 12-11-1 2 Courtesy of Steven Engineering, Inc.-230 Ryan Way,
Force Conversion Graph (Guide) LEY25l (Motor mounting position: Top/Parallel, In-line) 500 400 Lead 3: LEY25C 300 Force [N] 200 Lead 6: LEY25B 100 Lead 12: LEY25A 0 60 30 120 90 Ratio to rated torque [%] LEY32Dl (Motor mounting position: In-line) LEY32l (Motor mounting position: Top/Parallel) 800 600 700 500 Lead 5: LEY32C 600 400 Lead 4: LEY32DC 500 Force [N] Force [N] 400 300 Lead 10: LEY32B
End of rotation Rotation starting point 5 5 5 5 5 e R g ot n End of rotation B ra at n io n io ra at n ot 5 g e R A B R o 5 t a 5 ti o n B r Rotation starting point a End of rotation n g e 5 5 5 A A Rotation starting point The figure shows the view from the long shaft end. The figure shows the view from the long shaft end. The figure shows the view from the long shaft end.
Sum of the Load Factors 3-4 Use is possible if the sum of the load factors does not exceed 1. n = 1 + 2 + + n 1 n = 1 + 2 + '2 + 3 + '3 = 0.25 + 0.022 + 0.011 + 0.17 + 0.24 = 0.693 1 And it is possible to use.
motor) Series LEYG (Motor parallel) Series LEYG (In-line motor) Size Stroke Pushing force lbf (N) Size Stroke Pushing force lbf (N) Size Stroke Pushing force lbf (N) Size Stroke Pushing force (mm) (mm) (mm) lbf (N) (mm) 25 32 25 32 25 32 30 to 300 25 32 109.0 (485) 132.2 (588) Up tp 400 Up tp 500 109.0 (485) 165.5 (736) Up to 400 Up to 500 109.0 (485) 132.2 (588) 109.0 (485) 165.5 (736)
A determination of usability is performed based on the operating limit values in the graphs with respect to operating conditions, but the total (n) of the load factors (n) for each mass and moment should not exceed 1. n = Load (W) Maximum load mass (Wmax) + Static moment (M) Allowable static moment (Mmax) + Dynamic moment (Me) Allowable dynamic moment (Memax) < 1 Wmax, Mmax and Memax values
Load voltage Auto switch model Lead wire length [m] Pre-wired connector Applicable load DC AC Perpendicular In-line 0.5 (Nil) 1 (M) 3 (L) 5 (Z) None (N) Indicator light Type Special function Electrical entry Wiring (Output) M9NV M9N IC circuit 3-wire (NPN) 5 V, 12 V Solid state auto switch 3-wire (PNP) M9PV M9P 2-wire 12 V M9BV M9B 3-wire (NPN) 5 V, 12 V M9NWV M9NW IC circuit 3-wire (PNP)
N Without magnet and rail Type N (Without magnet and rail) Auto switch can not be mounted on. Applicable Auto Switch/Refer to page 8-30-1 for further information on auto switches.
Load (N) Load (N) MXF12 Lr = 30 mm 0.10 0.08 0.08 MXF12-50 Table displacement amount (mm) Table displacement amount (mm) Table displacement amount (mm) 0.08 MXF12-50 0.06 0.06 MXF12-30 0.06 MXF12-30 MXF12-50 MXF12-20 MXF12-30 0.04 0.04 MXF12-20 0.04 MXF12-20 0.02 0.02 0.02 20 40 60 0 0 0 20 40 60 80 20 40 60 Load (N) Load (N) Load (N) 8-6-4 5 Low Profile Slide Table Series MXF Table Displacement
2 pcs. 1 pc. n pcs.
(N) D-X Individual -X 139 Series MXF Construction !
M S Model With arm: MK -N 12 16 MKB12-N MKB16-N 4 20 29 8 18.5 M3 x 0.5 8 5 25 36 11 21.5 M4 x 0.7 11 20, 25 18-(0 to 10) R thread Auto switch Minimum bending radius of lead wire 10 In case of connector 2-M5 x 0.8 F (2) M8 x 1.25 Effective thread depth 11 through 2 x 2counterbore depth 7 depth 3 R + Clamp stroke Q + 2 x Clamp stroke Both ends tapped style: MKA M6 x 1.0 R + Clamp stroke
Reference formulas [Dynamic moment at impact] Use the following formulas to calculate dynamic moment when taking stopper impact into consideration. m F FE a M 1.4 = 1.4a (mm/s) FE = agm Note 4) 100 1 ME = FE L1 = 0.05a m L1 (Nm) Note 5) L1 ME g : Load weight (kg) : Load (N) : Load equivalent to impact (at impact with stopper) (N) : Average speed (mm/s) : Static moment (Nm) : Impact speed
Guide type C Cam follower guide Number of auto switches Bore size 16 25 40 16 mm 25 mm 40 mm 2 pcs. 1 pc. n pcs. Nil S n Auto switch Thread type Nil Without auto switch (Built-in magnet) Refer to the table below for the applicable auto switch model.
0.042 0.17 0.33 1.1 1.9 2.9 0.037 0.15 0.29 1.0 1.7 2.6 0.033 0.14 0.26 0.92 1.6 2.4 0.059 0.26 0.81 1.8 3.0 4.3 0.052 0.24 0.74 1.6 2.7 4.0 0.047 0.22 0.69 1.5 2.6 3.8 0.85 1.4 2.2 0.78 1.3 2.1 0.73 1.2 2.0 0.68 1.2 1.8 0.17 0.59 1.1 3.9 5.7 8.5 0.15 0.54 1.0 3.6 5.3 7.9 0.14 0.56 1.1 3.8 5.7 8.6 With auto switch: CDUK-D With auto switch: CDUK-S With auto switch: CDUK-T (N) (N) (N) Model
Double Acting Single Acting Gripping force (N) Gripping force (N) Pressure 0.6 MPa Gripping point distance (mm) Pressure 0.6 MPa Gripping point L (mm) Gripping point L (mm) Guidelines for the selection of the gripper with respect to component weight Gripping force (N) Gripping force (N) Although conditions differ according to the workpiece shape and the coefficient of friction between the
Lead wire length (m) 0.5 (Nil) 1 (M) 3 (L) 5 (Z) Load voltage Auto switch model Indicator light Type Electrical entry Wiring (output) Special function Perpendicular In-line Pre-wired Applicable load None (N) connector AC DC M9N M9P M9B M9NV M9PV M9BV J79C M9NWV M9PWV M9BWV M9NAV1 3-wire (NPN) IC circuit 5 V, 12 V 3-wire (PNP) Grommet Reed auto switch Solid state auto switch 12 V 2-wire Connector