FGYS Magnetically Coupled Rodless Slides

Page 2 FGYSR Series Magnetically coupled rodless slides 10-15-14 Bore Size Basic mass (0 stroke) Additional mass per 50 mm stroke ø10 0.48 0.074 ø15 0.91 0.104 ø20 1.48 0.138 ø25 1.84 0.172 ø32 3.63 0.267 ø40 4.02 0.406 (kg) Mass Calculation example: FGYSR32 X 500 Basic mass . . . . . . . . . . . . . . . . .3.63 kg Additional mass . . . . . . . . . . . . .0.267 per 50 stroke Cylinder stroke . . . . . . . . . . . . . .500 stroke 3.63 + (0.267 x 500 ÷ 50 ) = 6.3 kg 6SHFLÀFDWLRQV ² )*<65 (N) Max. holding force Magnetic coupling Bore Size Theoretical thrust (holding force) (N) ø10 53.9 ø15 137 ø20 231 ø25 363 ø32 588 ø40 922 lb force = N x 0.224 1. Lube retainers, internal & external. 2. Stainless steel barrel. 3. Anodized aluminum end covers. 4. Bores ø 10, 15, 20, 25, 32, 40 5. The external slider is magnetically coupled to the piston to provide a space-saving rodless slide. 6. Slide position sensors and shock absorbers available. See pages 4 and 7. Features Series FGYSR Standard stroke 100 20 X ø10, ø15, ø20, ø25, ø32, ø40 Refer to the strokes available in pricing chart on page 7 Bore size How to order See page 3 for dimensions and page 7 for sensor selection. Bore Size Min. operating pressure Magnet holding force (N) Max. operating pressure Temperature range Piston speed Cushion Lubrication Stroke tolerance Mounting orientation ø10 53.9 ø15 137 ø20 231 ø25 363 ø32 588 ø40 922 0.7 MPa (7kgf/cm 2 ) 101 psi –10°C (14°F) to 60°C (140°F) 50 to 400 mm/s Rubber bumper or shock absorbers None required, or ISO VG32 0-250 st +1/–0 251-1000 st +1.4/–0 mm 1001-1500 st +1.8/–0 mm Horizontal, inclined, vertical 26 psi Wear ring A Wear ring B Lube retainer (special resin) External slider Piston slider Cylinder tube High strength magnetic coupling is standard Order shock absorbers separately. See page 4 for part numbers and prices. Order sensors separately. See page 7 for part numbers and prices. 3OHDVH YLVLW KWWS SRUWDO IDEFR DLU FRP FRQðJXUH SKS IRU FXUUHQW SULFLQJ 6SHFLðFDWLRQV DQG SULFHV VXEMHFW WR FKDQJH ZLWKRXW QRWLFH RU LQFXUULQJ REOLJDWLRQ

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