Expeller Machines - Carbon Steel Worms / Collars (1/2'' - 24'')
What is an Expeller Machine?
– An expeller press is a screw-type machine that mainly presses oil seeds through a caged barrel-like cavity. Raw materials enter one side of the press and waste products exit the other side. The machine uses friction and continuous pressure from the screw drive to move and compress the seed material. The oil seeps through small openings that do not allow seed fiber solids to pass.
– Afterward, the seeds are formed into a hardened press cake, which is removed from the machine. Pressure involved in expeller pressing creates heat in the range of 140–210 °F (60–99 °C). Raw materials are typically heated up to 250 °F (121 °C) to make the pressing more efficient, otherwise the pressing itself will heat the oil to 185–200 °F (85–93 °C).
Unmatched Strength
Our carbon steel collars are engineered to withstand the rigors of continuous operation. Crafted from high-quality materials and precision-engineered to exacting standards, these components offer exceptional strength and durability.
Uncompromising Quality
We prioritize quality in every aspect of our manufacturing process. Our carbon steel collars are subjected to rigorous quality control measures to ensure they meet the highest industry standards. This commitment to quality guarantees optimal performance and longevity.
Precision Machining
Our state-of-the-art machining techniques ensure that our carbon steel worms and collars are manufactured with precise tolerances. This precision machining guarantees smooth operation, reduced friction, and minimal wear and tear.
Wider Range
We offer a diverse selection of carbon steel collars to cater to various automation equipment needs. Whether you require standard or custom-sized components, we have the solution to meet your specific requirements.
Applications
-Conveyor Systems: Efficient material handling and transportation.
-Gearboxes: Reliable power transmission and torque transfer.
-Automation Equipment: Precise control and positioning.
