BRAKE COOLING STRUCTURE IN VEHICLE

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Noriaki Matsuo of Okazaki-shi (JP)

Tetsuya Ichiyanagi of Nagoya-shi (JP)

BRAKE COOLING STRUCTURE IN VEHICLE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240278751 titled 'BRAKE COOLING STRUCTURE IN VEHICLE

The abstract describes a brake cooling structure in a vehicle that includes a duct on a suspension arm, with an introduction opening for air intake and a discharge opening for air to flow towards the brake rotor on a wheel connected to the arm.

• Simplified Explanation:

- The patent application describes a system to cool brakes in a vehicle using a duct on a suspension arm. - Air is taken in through an opening at the front and discharged towards the brake rotor on the wheel.

• Key Features and Innovation:

- Duct on suspension arm for brake cooling. - Introduction and discharge openings for air flow. - Cooling air directed towards brake rotor for efficient cooling.

• Potential Applications:

- Automotive industry for improved brake performance. - Racing vehicles for enhanced braking capabilities. - Heavy-duty vehicles for better brake cooling during long drives.

• Problems Solved:

- Overheating of brakes during intense use. - Improved brake performance and longevity. - Enhanced safety through better cooling.

• Benefits:

- Increased brake efficiency. - Extended brake lifespan. - Enhanced safety on the road.

• Commercial Applications:

- Title: "Innovative Brake Cooling System for Vehicles" - Potential commercial uses in automotive manufacturing. - Market implications include improved brake systems for various vehicle types.

• Questions about Brake Cooling System:

1. How does the duct on the suspension arm improve brake cooling efficiency? - The duct allows for direct airflow towards the brake rotor, effectively dissipating heat and cooling the brakes more efficiently.

2. What are the potential benefits of implementing this brake cooling structure in different types of vehicles? - The benefits include improved brake performance, extended lifespan of the brakes, and enhanced safety on the road.

Original Abstract Submitted

a brake cooling structure in a vehicle includes a duct that is provided on a suspension arm provided in the vehicle, and has an introduction opening through which air is taken in from a front side and a discharge opening through which the air is discharged toward a brake rotor that is provided on a wheel connected to the suspension arm through a support member.