Company Filing History:
Years Active: 2001-2003
Title: Max R Bloom: Innovator in Sickle Cutting Systems
Introduction
Max R Bloom is a notable inventor based in St. Charles, Iowa, known for his contributions to the field of agricultural machinery. He has been awarded a total of 3 patents for his innovative designs, particularly in sickle cutting systems used in mowers and harvesting machines.
Latest Patents
Bloom's latest patents include a high-speed sickle cutting system that enhances the efficiency of traditional sickle designs. This system features a sickle with 1½ inches blade spacing, equipped with serrated or smooth knife sections, a knifeback bar, and a series of knife guards with alternating long and short prongs. The design allows for adjustable hold-down clips that secure the knife sections to the cutting surface, along with a driving mechanism capable of converting rotary motion to reciprocating motion. In a second embodiment, Bloom introduced a staggered sickle cutting system that further improves efficiency while reducing stress and vibration on the sickle.
Another patent focuses on a sickle cutting system that operates at speeds between 2200 to 2700 strokes per minute, ideally around 2475 strokes per minute. This design includes knife sections ranging from 1¾ to 2¼ inches, along with a driving mechanism that complements the spacing of the knife sections.
Career Highlights
Max R Bloom is currently employed at Alamo Group Inc., where he continues to innovate and develop advanced agricultural machinery. His work has significantly impacted the efficiency and effectiveness of harvesting equipment.
Collaborations
Bloom has collaborated with notable coworkers such as Gail I Schwenke and Xinzhan Yang, contributing to the advancement of sickle cutting technology.
Conclusion
Max R Bloom's innovative designs in sickle cutting systems have made a significant impact on agricultural machinery, showcasing his dedication to improving efficiency in harvesting processes. His contributions continue to influence the industry and enhance the capabilities of modern farming equipment.