-

Toyoda Gosei Launches Ultra-Thin Register for Car Air Conditioning

KIYOSU, Japan--(BUSINESS WIRE)--Toyoda Gosei (TOKYO:7282) has developed a thinner register for car air conditioning. This new, ultra-thin register will meet the increasing demand for thinner instrument panels that contributes to more spacious cabin and better forward visibility.

The traditional register occupies space within the instrument panel because it has a significant thickness in height with its multiple fins to direct airflow. Toyoda Gosei has incorporated a unique airflow control mechanism into register, which allows for airflow adjustment without losing wind force, even with a narrower opening. This innovation has reduced the product’s thickness by 40%. It is used on Toyota's bZ3X model released in China in March 2025.

Contacts

Toyoda Gosei

TOKYO:7282


Contacts

More News From Toyoda Gosei

Toyoda Gosei in Joint Project for Sneakers Using Leather Remnants

KIYOSU, Japan--(BUSINESS WIRE)--Toyoda Gosei Co., Ltd. (TOKYO:7282) has teamed up with major sporting goods manufacturer ASICS Corporation to produce the SKYHAND™ OG sneakers using leather remnants generated in the steering wheel manufacturing process. These sneakers will be available for purchase from the ASICS online store starting February 1, 2025. Toyoda Gosei has been pursuing ways to further reduce waste materials by selling various products under the Re-S ethical brand, transforming diff...

Toyoda Gosei Invests in DigitalArchi, a Startup Manufacturer of 3D Printer Formwork

KIYOSU, Japan--(BUSINESS WIRE)--Toyoda Gosei has invested in DigitalArchi Co., Ltd., a startup that manufactures and sells formworks made with plastic using 3D printers....

Toyoda Gosei’s Quality GaN Substrate Technology Enhances Power Device Performance

KIYOSU, Japan--(BUSINESS WIRE)--Toyoda Gosei’s (TOKYO:7282) technology to enhance GaN substrates has been verified to improve power device performance. An article confirming it was published in Physica Status Solidi (RRL) – Rapid Research Letters, an international scientific journal for solid state physics1. Better power devices are indispensable for CO2 reduction in society, as they regulate electric power everywhere. Switching material from silicon to gallium nitride enables 90% energy-saving...
Back to Newsroom