Bearing Style: High Precision Type, Size: 30 mm, Shock Absorber: For Low Energy, Port Location: Standard 180°, Auto Switch: M9P--Solid State, Gen. Purpose, 3 Wire PNP, Horizontal, Lead Wire or Prewired Connector: -, Number: -, Thread Type: -

Bearing Style: High Precision Type, Size: 30 mm, Shock Absorber: For Low Energy, Port Location: Standard 180°, Auto Switch: M9PW--Solid State, 2-color Indication, 3 Wire PNP, Lead Wire or Prewired Connector: 3m, Number: -, Thread Type: -

Bearing Style: High Precision Type, Size: 30 mm, Shock Absorber: For Low Energy, Port Location: Standard 180°, Auto Switch: M9NW--Solid State, 2-color Indication, 3 Wire NPN, Horizontal, Lead Wire or Prewired Connector: 3m, Number: -, Thread Type: -

Bearing Style: High Precision Type, Size: 30 mm, Shock Absorber: For Low Energy, Port Location: Standard 180°, Auto Switch: M9B--Solid State, Gen. Purpose, 2 Wire, Horizontal, Lead Wire or Prewired Connector: 0.5m Cord Length, M8-3 Pin Connector, Number: -, Thread Type: -

Oscillation Angle A: [180°] 180°, Torque (Range)(N⋅m): 3 to Less than 6, Type: Rotary Table 2-Point Stop, Main Body Shape: Block Shape, Operation Method: Single Rack, Rigidity Accuracy: High Rigidity, High Accuracy, Environment, Applications: Standard, Allowable Kinetic Energy (Range)(J): 0.1 to Less than 1, Tube Nominal Diameter: 30, Valves: Not Provided, Allowable Kinetic Energy(J): 0.805

Oscillation Angle A: [180°] 180°, Torque (Range)(N⋅m): 3 to Less than 6, Type: Rotary Table 2-Point Stop, Main Body Shape: Block Shape, Operation Method: Single Rack, Rigidity Accuracy: High Rigidity, High Accuracy, Environment, Applications: Standard, Allowable Kinetic Energy (Range)(J): 0.1 to Less than 1, Tube Nominal Diameter: 30, Valves: Not Provided, Allowable Kinetic Energy(J): 0.805

Oscillation Angle A: [180°] 180°, Torque (Range)(N⋅m): 3 to Less than 6, Type: Rotary Table 2-Point Stop, Main Body Shape: Block Shape, Operation Method: Single Rack, Rigidity Accuracy: High Rigidity, High Accuracy, Environment, Applications: Standard, Allowable Kinetic Energy (Range)(J): 0.1 to Less than 1, Tube Nominal Diameter: 30, Valves: Not Provided, Allowable Kinetic Energy(J): 0.805

Oscillation Angle A: [180°] 180°, Torque (Range)(N⋅m): 3 to Less than 6, Type: Rotary Table 2-Point Stop, Main Body Shape: Block Shape, Operation Method: Single Rack, Rigidity Accuracy: High Rigidity, High Accuracy, Environment, Applications: Standard, Allowable Kinetic Energy (Range)(J): 0.1 to Less than 1, Tube Nominal Diameter: 30, Valves: Not Provided, Allowable Kinetic Energy(J): 0.805

Oscillation Angle A: [180°] 180°, Torque (Range)(N⋅m): 3 to Less than 6, Type: Rotary Table 2-Point Stop, Main Body Shape: Block Shape, Operation Method: Single Rack, Rigidity Accuracy: High Rigidity, High Accuracy, Environment, Applications: Standard, Allowable Kinetic Energy (Range)(J): 0.1 to Less than 1, Tube Nominal Diameter: 30, Valves: Not Provided, Allowable Kinetic Energy(J): 0.805

Oscillation Angle A: [180°] 180°, Torque (Range)(N⋅m): 3 to Less than 6, Type: Rotary Table 2-Point Stop, Main Body Shape: Block Shape, Operation Method: Single Rack, Rigidity Accuracy: High Rigidity, High Accuracy, Environment, Applications: Standard, Allowable Kinetic Energy (Range)(J): 0.1 to Less than 1, Tube Nominal Diameter: 30, Valves: Not Provided, Allowable Kinetic Energy(J): 0.805

Oscillation Angle A: [180°] 180°, Torque (Range)(N⋅m): 3 to Less than 6, Type: Rotary Table 2-Point Stop, Main Body Shape: Block Shape, Operation Method: Single Rack, Rigidity Accuracy: High Rigidity, High Accuracy, Environment, Applications: Standard, Allowable Kinetic Energy (Range)(J): 0.1 to Less than 1, Tube Nominal Diameter: 30, Valves: Not Provided, Allowable Kinetic Energy(J): 0.805

Mechanically Jointed Rodless Cylinder Series MY2

Wn Mass mn X-axis Xn Y-axis Yn Z-axis Zn Z X Wa 0.88 kg 65 mm 0 mm 5 mm 111 Wb 4.35 kg 150 mm 0 mm 42.5 mm Y 210 Y Wc 0.795 kg 150 mm 111 mm 42.5 mm Wd 1.5 kg 150 mm 210 mm 42.5 mm n = a, b, c, d 3 Composite Center of Gravity Calculation m3 = mn = 0.88 + 4.35 + 0.795 + 1.5 = 7.525 kg m3 1 X = x (mn x xn) 7.525 1 = (0.88 x 65 + 4.35 x 150 + 0.795 x 150 + 1.5 x 150) = 140.1 mm m3 1 Y = x

Mechanically Jointed Rodless Cylinder MY1H Series Linear Guide Type: ø25, ø32, ø40  Piping can be connected from 4 directions on the head cover.  Allows on-site piping to suit the MY1B installation MY1H MY1H conditions. MY1B MY1M MY1C MY

Load Blocking Mass and Center of Gravity for Each Workpiece 5 42.5 65 150 Center of gravity Mass mn Workpiece Wn Y-axis Yn X-axis Xn Z-axis Zn Z X Wa 0 mm 5 mm 0.88 kg 65 mm 111 210 Wb 0 mm 42.5 mm 4.35 kg 150 mm Y Y Wc 111 mm 42.5 mm 0.795 kg 150 mm Wd 210 mm 42.5 mm 0.5 kg 150 mm n = a, b, c, d 3.

Mechanically Jointed Rodless Cylinder With Protective Cover Series MY1  W ø16, ø20, ø25, ø32, ø40, ø50, ø63 1

Wn Y Y-axis Yn X-axis Xn Z-axis Zn X Wa 65 mm 0 mm 5 mm 0.88 kg 210 65 150 111 Z Wb 150 mm 0 mm 42.5 mm 4.35 kg Wc 150 mm 111 mm 42.5 mm 0.795 kg Wd 150 mm 210 mm 42.5 mm 0.5 kg Y 42.5 5 n = a, b, c, d 3.

MY1

Wn Y X-axis Xn Y-axis Yn Z-axis Zn X Wa 5 mm 0 mm 65 mm 0.88 kg 210 65 150 111 Z Wb 42.5 mm 0 mm 150 mm 4.35 kg Wc 42.5 mm 111 mm 150 mm 0.795 kg Wd 42.5 mm 210 mm 150 mm 0. 5kg Y 42.5 5 n = a, b, c, d 3 Composite Center of Gravity Calculation m1 = mn = 0.88 + 4.35 + 0.795 + 0.5 = 6.525 kg 1 m1 X = x (mn x xn) 1 6.525 = (0.88 x 65 + 4.35 x 150 + 0.795 x 150 + 0.5 x 150) = 138.5 mm 1 m1 Y

e

(Wn) Mass (mn) Y-axis Yn Z-axis Zn X-axis Xn LXS LXS Z X Wa 5 mm 0 mm 0.88 kg 65 mm LC6m LC6m 111 Wb 42.5 mm 0 mm 4.35 kg 150 mm Y 210 Y Wc LZm LZm 42.5 mm 111 mm 0.795 kg 150 mm Wd 42.5 mm 210 mm 1.0 kg 150 mm LC3F2 LC3F2 n = a, b, c, d 3 Calculation of Composite Center of Gravity Xm Xm m3 = mn = 0.88 + 4.35 + 0.795 + 1.0 = 7.025 kg D-m D-m E-MY E-MY 1 m3 X = x (mn x xn) 1 7.025 = (0.88

e-Rodless Actuator

(Wn) Weight (mn) Y-axis Yn Z-axis Zn X-axis Xn Z X Wa 5 mm 0.88 kg 0 mm 65 mm 111 Wb 42.5 mm 4.35 kg 0 mm 150 mm Y 210 Y Wc 42.5 mm 0.795 kg 111 mm 150 mm Wd 42.5 mm 1.0 kg 210 mm 150 mm n = a, b, c, d 3 Calculation of composite center of gravity m3 = mn = 0.88 + 4.35 + 0.795 + 1.0 = 7.025 kg 1 m3 X = x (mn x xn) 1 7.025 = (0.88 x 65 + 4.35 x 150 + 0.795 x 150 + 1.0 x 150) = 139.4 mm 1

Mechanically Jointed Rodless Cylinder Series MY1

Wn Mass mn X-axis Xn Y-axis Yn Z-axis Zn Z X Wa 0.88kg 65mm 0mm 5mm 111 Wb 4.35kg 150mm 0mm 42.5mm Y 210 Y Wc 0.795kg 150mm 111mm 42.5mm Wd 0.5kg 150mm 210mm 42.5mm n = a, b, c, d 3 Calculation of composite center of gravity m = mn = 0.88 + 4.35 + 0.795 + 0.5 = 6.525kg 1 m X = x (mn x xn) 1 6.525 = (0.88 x 65 + 4.35 x 150 + 0.795 x 150 + 0.5 x 150) = 138.5mm 1 m Y = x (mn x yn) 1 6.525

Mechanically Jointed Rodless Cylinder Series MY2H/HT ø16, ø25, ø40

Wn Mass mn X-axis Xn Y-axis Yn Z-axis Zn Z X Wa 0.88kg 65mm 0mm 5mm 111 Wb 4.35kg 150mm 0mm 42.5mm Y 210 Y Wc 0.795kg 150mm 111mm 42.5mm Wd 1.5kg 150mm 210mm 42.5mm n = a, b, c, d 3 Composite center of gravity calculation m = mn = 0.88 + 4.35 + 0.795 + 1.5 = 7.525kg 1 m X = x (mn x xn) 1 7.525 = (0.88 x 65 + 4.35 x 150 + 0.795 x 150 + 1.5 x 150) = 140.1mm 1 m Y = x (mn x yn) 1 7.525

MY1

Mass mn Y Y-axis Yn Z-axis Zn X-axis Xn X Wa 5mm 0mm 65mm 0.88kg 210 65 111 Z Wb 42.5mm 0mm 150mm 4.35kg 150 Wc 42.5mm 111mm 150mm 0.795kg Wd 42.5mm 210mm 150mm 0.5kg Y 42.5 5 n = a, b, c, d 3 Composite center of gravity calculation m = mn = 0.88 + 4.35 + 0.795 + 0.5 = 6.525kg 1 m X = x (mn x Xn) 1 6.525 = (0.88 x 65 + 4.35 x 150 + 0.795 x 150 + 0.5 x 150) = 138.5mm 1 m Y = x (mn x