The GUNT Assembly Hydrodynamic Journal Bearing offers hands-on training in the structure, function, and maintenance of a horizontally split pedestal bearing. Ideal for technical education and industrial training, this system bridges theoretical knowledge with practical skill development in hydrodynamic bearing technology.
Product Features
- Journal bearing enables sliding motion between the bearing shell and journal
- Lubricated with an intermediate medium to reduce friction and wear
- Hydrodynamic design supports continuous duty at high speeds and large diameters
- Withstands high and shock-type loads, making it suitable for industrial applications
- Horizontally split construction with bearing shells supported by a spherical face in housing
- Spherical support ensures uniform force transfer in the bearing housing
- Lubricated via a loose lubricating ring using standard mineral oils
- Frictional heat is dissipated by the circulating lubricant
- Includes auxiliary shaft for assisted assembly and functional testing
- Kit designed for teaching assembly and disassembly of journal bearings
- Part of the GUNT Practice Line for assembly, maintenance, and repair training
- All components laid out clearly and securely housed in a durable toolbox
- Comes with detailed step-by-step documentation for assembly and educational use
Benefits
- Enhances practical understanding of bearing design and lubrication
- Prepares students for real-world maintenance and repair of hydrodynamic bearings
- Ideal for engineering and vocational training programs
- Durable components and reusable design for long-term institutional use
- Supports blended learning with clear visual and technical guidance
Why Choose the GUNT Assembly Hydrodynamic Journal Bearing?
This GUNT training system is tailored for teaching the principles and mechanics of journal bearings through real assembly experience. It’s an essential tool in mechanical and maintenance training programs, combining hands-on interaction with high-quality instructional support for maximum learning impact.