1. Main structure of machines: they are cast of high grade FC-30 iron, melted by advanced induction furnace, then cast in resin cores. In order to ensure stability and rigidity, they are heat-treated with normalizing procedure prior to machining.
2. Hydrostatic bearings: precision ground hydrostatic bearings: substantial decrease in heat deformation associated with hydrodynamic bearings. Minimal friction, lateral displacement, and pressure. Extended tool life under heavy cut loads.
3. Grinding wheel spindle: the grinding wheel spindle runs on hydrostatic bearings with a high pressure oil film for added precision under heavy loads. Substantially reduces wear while prolonging spindle trueness. SNCM-210H carbon steel hardened beyond HRC60, yielding high torsion resistance.
4. Semi-hydraulic float bearings: they are made of SNCM-220H Ni-Cr-Mo alloy steel and case-hardened, carbonized, then computerized sub-zero degree treated, to surface hardness over HRC 62 at 1.0mm depth. Core hardness is kept at about HRC 25-30 to ensure consistency of high precision grinding operation. Spindles withstand high torsion and have a long and lasting life. They are made of KJ-4 alloy bushing metal with a three point hydraulic cycle system. The semi-hydraulic float spindle is protected by an oil membrane which results in minimal contact friction. This device is specially designed for high speed and heavy load operation.
5. Regulating wheel drive: a Japanese servo motor provides control of speeds from 10 to 250RPM and is used for the regulating wheel which can be adjusted to ideal linear speeds. When the diameter of the regulating wheel changes the same linear speeds can still be maintained so as grind the best quality products. The motor is driven by a timing-belt to reduce vibration and noise. Since the motor housing and spindle housing are joined together as an integrated body, when the regulating wheel tilts the motor also follows. This completely overcomes problems caused by unparallelism and torsion of belt pulleys and the belts.
6. Spindle oil circulation: there is a variable vane type oil pump for the hydraulic dressing and enforced spindle oil circulation. The oil tank is located outside of the machine for easy maintenance. Two layers of filter plus a pressure regulator ensure the cleanliness of spindle oil and the consistency of oil film thickness, thus extending the service life of the wheel spindle and the steadiness of accuracy.
7. Slide device: the lower slide consists of two internally mounted V-shaped slides and cuneiform protector to ensure smooth movement, stable operation and prevent the entering of debris or liquid from the working environment. The swivel slides on a dovetail flute and swivels ±5 degrees. There is a fine tuning hand wheel for precise adjustment. The accuracy per calibration is 0.001mm in diameter for high precision and easy operation.
1. Model: JHC-12BN, JHC-12S. 2. Standard work rest (dia.): Ø1 ~ Ø25 mm. 3. Special work rest (dia.): Ø25 ~ Ø40 mm . 4. Grinding wheel size (dia. x width x hole): Ø350 x 150 x Ø120. 5. Regulating wheel size (dia. x width x hole): Ø205 x 150 x Ø90. 6. Grinding wheel speed: 1900 R.P.M. 7. Regulating wheel speed: 20 - 337 R.P.M (7 steps) ; 10 - 300 R.P.M variable speed. 8. Grinding wheel motor: 7.5 HP. 9. Regulating wheel motor: 1 HP, 1.8 kw servo motor. 10. Hydraulic pump motor: 1 HP. 11. Coolant pump motor: 1/8 HP. 12. Regulating wheel feed on handwheel: 4 mm (Rev) 0.02 mm (Gra). 13. Table feed on handwheel: 7 mm (Rev) 0.05 mm (Gra). 14. Table micro feed on handwheel: 0.2 mm (Rev) 0.001 mm (Gra). 15. Dressing handwheel: 1.25 mm (Rev) 0.01 mm (Gra). 16. Regulating wheel tilt angle: +5° ~ -3°. 17. Regulating wheel swivel angle: ±5°. 18. Floor space (L x W x H): 1800 x 1400 x 1400 mm. 19. Net weight / gross weight: 1600 kgs / 1750 kgs. 20. Size of case (L x W x H): 2300 x 1100 x 1800 mm.
Taiwan
