




The piezoelectric parts feeder drive essentially consists of a fine ceramic piezo-resonator of lead titanate and lead zirconate. this cutting-edge parts feeder is directly driven for feeding through vibration by means of the piezo effect in which strain is generated by applying an electric current.
The vibrator is suited for a wide range of applications and different bowls may be installed at any position with a center or a peripheral lock. Non-standard bowls can also be installed with mouting holed drilled on the top plate. The drive unit has no coil or iron core and is durable as well as simple in its mechanism.
The SF-series Daishin Parts Feeders incorporate our original design features, such as the arrangement and mounting angle of flat springs.The greatly simplified mechanism allows easy maintenance. The remarkable stability of vibration assures well-oriented feeding of parts, and durability is excellent. These parts feeders, coming in diverse models and alignment systems, can be used for a wide variety of parts, from small to large.

The Daishin Parts Feeder TF Series, with two drive magnets arranged on the periphery, are more powerful than the general-purpose feeders (SF series). Also, the spring angle of 15 degrees greatly enhances parts delivery speed and stabilizes delivery with reduced vertical movement.

The SF-series Daishin Parts Feeders incorporate our original design features, such as the arrangement and mounting angle of flat springs. The greatly simplified mechanism allows easy maintenance. The remarkable stability of vibration assures well-oriented feeding of parts, and durability is excellent. These parts feeders, coming in diverse models and alignment systems, can be used for a wide variety of parts, from small to large.

The Daishin Parts Feeder TF Series, with two drive magnets arranged on the periphery, are more powerful than the general-purpose feeders (SF series). Also, the spring angle of 15 degrees greatly enhances parts delivery speed and stabilizes delivery with reduced vertical movement.