The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5° and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external
15 Magnetically Coupled Rodless Cylinder CY1S Series 6, 10, 15, 20, 25, 32, 40 RoHS Weight Overall length 15 % reduced 15 mm shortened Max. Max. (CY1S 15-100 stroke) 0.96 kg (Current model 1.13 kg) (CY1S 40-100 stroke) 240 mm (Current model 255 mm) Reduced in length Reduced in length CY3B CY3R CY1S CY1S Adjustment bolt improves stroke accuracy/repeatability.
0 0 0 1 2 3 4 5 0 5 10 15 0 5 10 15 20 25 Work load [kg] Work load [kg] Work load [kg] 1000 1000 1000 800 800 800 L6 L6 [mm] L6 [mm] L6 [mm] 600 600 600 Z 400 400 400 200 200 200 0 0 0 0 5 10 15 0 5 10 15 20 25 0 1 2 3 4 5 Work load [kg] Work load [kg] Work load [kg] 807 A LEFB Series Motorless Type Calculation of Guide Load Factor Mounting Orientation 1.
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5and#176; and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5 and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external guide
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5and#176; and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external
The MTS cylinder provides superior non-rotating accuracy and linear stability in a compact package. Traditional non-rotating cylinders typically can only hold position to within 0.5and#176; and have inherent sealing problems. Integrating a ball spline as the rod bearing, this cylinder approximates the non-rotational accuracy of a guided cylinder without the added space requirements of external
2 (n = 2, 4, 6) Note 3) 50 + 27.5 (n 2) (n = 2, 3, 4, 5) CQ2 CQS Luberetainer D-M9lV 5 5 10 + 10 (n 2) (n = 4, 6) Note 4) D-A9lV 5 10 10 + 15 (n 2) (n = 4, 6) Note 4) JA D-M9l D-A9l 10 (5) Note 5) 10 15 + 15 (n 2) (n = 4, 6) Note 4) MXH D-M9lWV D-M9lAV 10 15 15 + 15 (n 2) (n = 4, 6) Note 4) MXQ D-M9lW 15 (10) Note 5) 15 20 + 15 (n 2) (n = 4, 6) Note 4) MGP D-M9lA 15 (10) Note