15

Wn Mass mn X-axis xn xa xb xc xd Y-axis yn ya yb yc yd Z-axis zn za zb zc zd X 1 mt = x (mn x xn)w Wa Wb Wc Wd ma mb mc md Y 1 mt = x (mn x yn)e D1 mt = x {mn x (A + zn)} r Z -X (n = a,b,c,d) Refer to the following sections 1 to 4 to calculate the center of gravity and the total load.

-fl Seies

Pilot operator lnternal xn-Externai I Special order Series NVFR3O0O:Base Mounted Tlpe Manifo ld Specificutions aLead wires ol solenoid vah are connected with the terminals on upper surface of lerminal block, corresponding lead wirs lrom power aource can be wired at the bottom ot brminal b,ock.

4 Way, 5 Port / Solenoid/Pilot Operated NVFR Series

Pilot operator lnternal xn-Externai I Special order Series NVFR3O0O:Base Mounted Tlpe Manifo ld Specificutions aLead wires ol solenoid vah are connected with the terminals on upper surface of lerminal block, corresponding lead wirs lrom power aource can be wired at the bottom ot brminal b,ock.

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

MY2

Wn Weight 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 m3 = mn = 0.88 + 4.35 + 0.795 + 1.5 = 7.525kg 1 m3 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 m3 Y = x (mn x yn) 1 7.525

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

Wn Y Y-axis Yn Z-axis Zn X-axis Xn 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.

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

Wn Weight 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.

Model: MSQ, Precision: B (Basic), Size: 70, Suffix: A (Adjuster Bolt)

Oscillation Angle A: [Arbitrary Setting Type] Free setting type, Type: Rotary Table 2-Point Stop, Main Body Shape: Block Shape, Operation Method: Double Rack, Rigidity Accuracy: Standard, Environment, Applications: Standard, Allowable Kinetic Energy (Range)(J): 0.1 to Less than 1, Valves: Not Provided, Allowable Kinetic Energy(J): 0.240, Format: Includes adjusting bolt, Size: 70, Switch:

The MSQ compact rotary table is ideal for material transfer applications. It incorporates load bearings and a mounting face with a rack-and-pinion style rotary actuator. The seven sizes are 10, 20, 30, 50, 70, 100, and 200 with rotational adjustments from 0-190 degrees, and auto switch capability. Additional features include a hollow shaft and direct load mounting possibility. Rotary table

The MSQ compact rotary table is ideal for material transfer applications. It incorporates load bearings and a mounting face with a rack-and-pinion style rotary actuator. The seven sizes are 10, 20, 30, 50, 70, 100, and 200 with rotational adjustments from 0-190 degrees, and auto switch capability. Additional features include a hollow shaft and direct load mounting possibility. Rotary table

The MSQ compact rotary table is ideal for material transfer applications. It incorporates load bearings and a mounting face with a rack-and-pinion style rotary actuator. The seven sizes are 10, 20, 30, 50, 70, 100, and 200 with rotational adjustments from 0-190 degrees, and auto switch capability. Additional features include a hollow shaft and direct load mounting possibility. Rotary