Company Filing History:

6 out of 27,375

Matsushita Electric Industrial Co., Ltd.

patents

5 out of 36,713

Toyota Jidosha Kabushiki Kaisha

patents

2 out of 107

Panasonic Ev Energy Co., Ltd.

patents

4. 2 out of 16,453

Panasonic Corporation

patents

5. 1 out of 832,880

Other

patents

where one patent can have more than one assignee

Years Active: 1996-2013

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12 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 8389137 - Method of reusing rechargeable battery (2013-03-05),

2. 8362749 - Method for exchanging rechargeable batteries (2013-01-29),

3. 7758994 - Nickel metal hydride storage battery with a safety valve for relieving excess gas pressure in the battery when the safety valve is open, the safety valve having a hydrogen-permeable valve member for allowing hydrogen-gas leakage therethrough when the safety valve is closed (2010-07-20),

4. 7666549 - Enclosed nickel-metal hydride storage battery (2010-02-23),

5. 7452629 - Nickel metal hydride storage battery (2008-11-18),

6. 6936371 - Method for recycling battery pack (2005-08-30),

7. 6933079 - Separator for alkaline storage battery and alkaline storage battery using the same (2005-08-23),

8. 6777129 - Alkaline storage battery (2004-08-17),

9. 6444361 - Active material for hydrogen storage alloy electrode and method for producing the same (2002-09-03),

10. 5656396 - Alkaline storage battery (1997-08-12),

11. 5605585 - Method for producing hydrogen storage alloy particles and sealed-type (1997-02-25),

12. 5512385 - Hydrogen storage alloy and nickel-metal hydride storage battery using (1996-04-30),

Title: Innovations by Katsunori Komori

Introduction

Katsunori Komori is a notable inventor based in Toyohashi, Japan. He has made significant contributions to the field of rechargeable battery technology, holding a total of 12 patents. His work focuses on methods for reusing and exchanging rechargeable batteries, which are crucial for sustainable energy solutions.

Latest Patents

One of his latest patents is a method of reusing rechargeable batteries. This method involves collecting assembled batteries from users, each containing initial individual information such as manufacturing date and initial weight. The collected batteries are dismantled, and the individual rechargeable batteries are classified based on their initial information. A regenerated assembled battery is then rebuilt using the classified rechargeable batteries. Another significant patent is a method for exchanging rechargeable batteries. This method entails discharging a rechargeable battery from an assembled battery until it is fully discharged. The battery is then stored for a predetermined period to prepare it for reuse. A regenerated assembled battery is created by combining the stored reusable battery with others or with a fresh battery.

Career Highlights

Katsunori Komori has worked with prominent companies such as Matsushita Electric Industrial Co., Ltd. and Toyota Jidosha Kabushiki Kaisha. His experience in these organizations has contributed to his expertise in battery technology and innovation.

Collaborations

Throughout his career, Komori has collaborated with notable coworkers, including Yoshinori Toyoguchi and Munehisa Ikoma. These collaborations have likely enhanced his research and development efforts in the field of rechargeable batteries.

Conclusion

Katsunori Komori's innovative work in rechargeable battery technology demonstrates his commitment to sustainability and energy efficiency. His patents reflect a deep understanding of battery reuse and exchange methods, which are essential for advancing energy solutions.

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