Johan Luinge

Title: Innovations by Johan Luinge in Vehicle Lifting Systems

Introduction

Johan Luinge is an accomplished inventor based in Oosterwolde, Netherlands. He has made significant contributions to the field of vehicle lifting systems, holding two patents that showcase his innovative approach to enhancing vehicle maintenance and operation.

Latest Patents

Luinge's latest patents include a "Lifting system for lifting a vehicle and method for operating the lifting system." This invention relates to a sophisticated lifting system designed to lift loads, such as vehicles. The system comprises one or more lifting devices, a group controller to operate these devices, and a user interface unit that facilitates communication between the user and the system. The user interface is equipped with a transmitter and/or receiver, a processor, a display device, and input means for user interaction. It is designed to communicate command signals to the group controller based on user input and to display information received from the controller.

Another notable patent is the "Wheel base measuring lifting system for lifting a vehicle and method therefor." This invention features a stationary lift and several movable lifts, along with positioning means to define the position of a vehicle's wheel axle. It includes distance measuring means to determine the vehicle's distance from a reference point and control means to calculate the distance between two vehicle axles, ensuring the movable lifts are steered to the correct position.

Career Highlights

Johan Luinge is associated with Stertil B.V., a company known for its innovative solutions in the field of vehicle lifting and maintenance. His work at Stertil B.V. has allowed him to apply his inventive skills to practical applications that enhance vehicle servicing efficiency.

Conclusion

Johan Luinge's contributions to vehicle lifting systems through his patents demonstrate his commitment to innovation in the automotive industry. His inventions not only improve the functionality of lifting systems but also enhance user interaction and operational efficiency.