Fully operational cutaway model showcasing a self-locking hypoid differential, mounted on a sturdy table stand. This model includes a precise cross-section of a hypoid bevel gear pair, providing insight into the self-locking mechanisms and gear interaction. Designed for an in-depth study of differential operation, it allows trainees to explore OEM internal components.
Value for Students
Learn the mechanics behind power transmission in self-locking hypoid differentials, including how torque is distributed to wheels based on traction needs.
Explore the interaction of hypoid bevel gears, focusing on the reduction ratio and efficiency.
Understand the self-locking feature and how it works for traction, mostly in slipping wheels conditions.
Increase experience with open gear inspections, component analysis, and get to know the gear meshing process.
Value for Instructors
Realistic, OEM components based demonstration of hypoid differentials. Explain of torque distribution principles in automotive field.
Simple exposing of key components for understanding, students will fully understand how hypoid and self-locking operating.
Teach theoretical and practical power distribution aspects for more dynamic and engaging teaching process.
Easy to integrate into various classrooms or workshops due to its mobile, space saving and stable design. Allows concurrent use by multiple students
Features
Cutaway model of a self-locking hypoid differential.
Includes hypoid bevel gear pair with cross-section for gear and locking mechanism understanding.
Uses OEM components for easy, safe, and realistic training that mimics real car.
Mounted on a durable table stand for stability and ease of use in training sessions
Mobile and space saving in the classroom, allows concurrent use by multiple students.
Manual simulation for clear and engaging learning
Specifications
Dimensions: 400 x 300 x 400 mm (15.75 in x 11.81 in x 15.75 in)