IMAGE PICKUP APPARATUS HAVING COOLING STRUCTURE

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

YUTA Nakamura of Kanagawa (JP)

YUKO Teruya of Kanagawa (JP)

HAYATO Mano of Tokyo (JP)

YOSHINOBU Shibayama of Kanagawa (JP)

IMAGE PICKUP APPARATUS HAVING COOLING STRUCTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18610180 titled 'IMAGE PICKUP APPARATUS HAVING COOLING STRUCTURE

The image pickup apparatus described in the patent application is designed to efficiently cool a recording medium stored within it while minimizing an increase in the overall size of the apparatus.

• The image pickup apparatus consists of a main body, a grip part for holding the device during use, a control board positioned perpendicular to the optical axis direction, a storage part for the recording medium, and a heat dissipation duct connected to the storage part.

• The storage part is mounted on the control board in a position that does not overlap with the grip part, ensuring efficient cooling of the recording medium without affecting the overall size of the apparatus.

• The heat dissipation duct is strategically placed to avoid overlapping with the grip part, allowing for effective thermal management of the storage part and the recording medium.

• By optimizing the placement of components within the image pickup apparatus, the patent aims to enhance cooling efficiency while maintaining a compact design.

• This innovation addresses the challenge of cooling a recording medium in an image pickup apparatus without compromising its size and portability.

Potential Applications: - This technology can be applied in digital cameras, camcorders, and other imaging devices that require efficient cooling of recording media. - It can also be utilized in medical imaging equipment, surveillance cameras, and industrial inspection systems.

Problems Solved: - Efficient cooling of recording media in compact image pickup devices. - Prevention of overheating and potential damage to the recording medium. - Maintaining a small form factor without sacrificing cooling performance.

Benefits: - Enhanced reliability and longevity of recording media. - Improved performance and image quality in image pickup devices. - Compact and portable design for ease of use in various applications.

Commercial Applications: - The technology can be integrated into consumer electronics such as digital cameras and camcorders. - It can also be utilized in professional imaging equipment for photography, videography, and surveillance purposes.

Questions about Image Pickup Apparatus Cooling Technology:

1. How does the placement of the storage part and heat dissipation duct contribute to efficient cooling in the image pickup apparatus?

  - The storage part and heat dissipation duct are strategically positioned to optimize thermal management and prevent overheating of the recording medium.

2. What are the potential implications of this cooling technology for the design and performance of image pickup devices?

  - This technology can lead to improved reliability, performance, and image quality in compact imaging devices, enhancing their overall functionality and user experience.

Original Abstract Submitted

An image pickup apparatus capable of efficiently cooling a recording medium stored therein while suppressing an increase in size of the image pickup apparatus. The image pickup apparatus comprising an image pickup apparatus main body, a grip part disposed in the image pickup apparatus main body and to be gripped when the image pickup apparatus is used, a control board provided to the image pickup apparatus main body and arranged substantially perpendicular to an optical axis direction, a storage part that is mounted on the control board in a position not overlapping the grip part as viewed in the optical axis direction, and that is capable of storing a recording medium, and a heat dissipation duct that is disposed in a position not overlapping the grip part as viewed in the optical axis direction and is thermally connected to the storage part.