Custom Vibratory Feeders
We use our comprehensive line of vibratory feeders to manufacture custom vibratory feeder bowl systems to orient and feed a wide range of small parts for all types of manufacturing processes. Our systems can include anything from simple vibratory feeder bowls to complete parts feeding systems that include straight line or gravity tracking, prefeeders (hoppers or elevators), sound and dust enclosures, tables and baseplates, vision-based feeding, part sensors, escapement and part isolation mechanisms, and standard and custom controls packages.
Reliable Feeding of O-Rings in Vibratory Feeder Bowls
Jump to:System Specifications || Quote Request Form Feeding o-rings in vibratory bowl systems has been historically problematic due to buildup of static electricity causing the parts to stick together and stick to the bowl surface. Coating the parts with talcum powder or baby powder has been a solution in the past, but isn’t acceptable in…
Read MoreHybrid Vibratory Feeder – Conveyor System for Gentle Parts Handling
Jump to: Video || System Specifications || Quote Request Form A component of a sensor for a consumer product was made of a plastic material that was susceptible to damage from vibration. The assembly operation also required that the parts be kept as clean as possible. We designed a custom parts feeding system that combined…
Read MoreUltra-Compact Vibratory Bowl Feeder Orients Small Rubber Parts
This vibratory bowl feeder was designed to feed an automotive part. With a low feed rate and tight space requirements, we designed a parts feeding system that allowed our customer to pick the part up directly from the bowl.
Read MoreVibratory Feeder Bowl System with Center Discharge
This vibratory parts feeding system was designed to feed two sizes of a part used in air conditioner desiccant systems. The simple cylindrical shape of the parts allowed the use of a “cascade” type bowl feeder, where all part orientation is performed within the inside diameter of the bowl. This eliminated tooling construction on the outside of the bowl, which along with the right-angle discharge into the vibratory track, resulted in a compact vibratory feed system that met our customer’s space requirements.
Read MoreVibratory Feeder Bowl System Feeds Parts with Two Orientations
The assembly operation required two parts being placed simultaneously with the bushing flanges facing away from each other, as shown here. This would normally require two part feeding systems: One feeding the part with the flange up, and another feeding the part with the flange down. We saved our customer the expense and space consumption of a second feed system by designing a single vibratory parts feeder bowl that discharged two lines of parts with one line on top of the other.
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