18087090. SPROCKET SHIELD ASSEMBLY FOR FEEDER OF AGRICULTURAL VEHICLE simplified abstract (CNH Industrial America LLC)
Contents
SPROCKET SHIELD ASSEMBLY FOR FEEDER OF AGRICULTURAL VEHICLE
Organization Name
Inventor(s)
Cale Boriack of Lititz PA (US)
Nathan E. Isaac of Lancaster PA (US)
Stijn Bailliu of Eernegem (BE)
Bjorn Depoortere of Zwevezele (BE)
SPROCKET SHIELD ASSEMBLY FOR FEEDER OF AGRICULTURAL VEHICLE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18087090 titled 'SPROCKET SHIELD ASSEMBLY FOR FEEDER OF AGRICULTURAL VEHICLE
Simplified Explanation:
The abstract describes a feederhouse for an agricultural vehicle with a shield assembly that includes two components, a top component, and a bottom component, connected together to form an opening for a shaft. A bearing component ensures the components stay together.
- Feederhouse for agricultural vehicle
- Shield assembly with top and bottom components
- Components connected to form opening for shaft
- Bearing component keeps components together
Key Features and Innovation:
- Assembled driveshaft with sprocket
- Shield assembly with top and bottom components
- Components form opening for shaft
- Bearing component ensures components stay together
Potential Applications:
- Agricultural machinery
- Farm equipment
- Harvesting vehicles
Problems Solved:
- Prevents separation of shield components
- Protects driveshaft and sprocket
- Ensures smooth operation of feederhouse
Benefits:
- Increased durability
- Enhanced safety
- Improved efficiency in agricultural operations
Commercial Applications:
Feederhouses with shield assemblies can be used in various agricultural vehicles to improve safety and efficiency in harvesting operations.
Questions about Feederhouses with Shield Assemblies:
1. How do feederhouses with shield assemblies improve safety in agricultural operations? 2. What are the key components of a feederhouse shield assembly and how do they work together?
Original Abstract Submitted
A feederhouse for an agricultural vehicle includes an assembled driveshaft having a shaft and at least one sprocket that is rotationally fixed to said shaft. A shield assembly is positioned adjacent the sprocket, wherein the shield assembly includes two components including a top component and a bottom component. The top component includes a first mating surface and a first wall. The bottom component includes a second mating surface and a second wall. When the two components are connected together by joining the first mating surface to the second mating surface, the two components form a first opening through which the shaft is positioned. A bearing component is configured to bear on both the first wall and the second wall for urging the first mating surface toward the second mating surface in order to limit the top component from separating from the bottom component.