Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Through the adoption of specially designed seals and stoppers, a rotation angle of 270° has been achieved for the first time in a compact vane style actuator. To support thrust and radial loads, bearings are used throughout the series.

Type: Rc, Guide Pin Diameter: ø14.8, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: LOW type (60 mm), Shim: Without shims

, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: HIGH type (90 mm), Shim: With 3‑mm shims

Type: Rc, Guide Pin Diameter: ø19.8, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: LOW type (60 mm), Shim: With 3‑mm shims

Type: NPT, Guide Pin Diameter: ø15.5, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: LOW type (60 mm), Shim: With 3‑mm shims

ø15.5, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: LOW type (60 mm), Shim: With 3‑mm shims

Type: NPT, Guide Pin Diameter: ø16, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: LOW type (60 mm), Shim: With 3‑mm shims

ø16, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: LOW type (60 mm), Shim: With 3‑mm shims

, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: HIGH type (90 mm), Shim: With 3‑mm shims

, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: LOW type (60 mm), Shim: With 3‑mm shims

: ø17.8, Guide Pin Shape: Round type, Clamp Arm Position: 270° from port, Clamp Position Height: HIGH type (70 mm), Shim: With 3‑mm shims