18347282. CAMERA MODULE WITH AN IRIS MODULE simplified abstract (SAMSUNG ELECTRO-MECHANICS CO., LTD.)
CAMERA MODULE WITH AN IRIS MODULE
Organization Name
SAMSUNG ELECTRO-MECHANICS CO., LTD.
Inventor(s)
Jae Hyung Han of Suwon-si (KR)
Jong Woo Hong of Suwon-si (KR)
CAMERA MODULE WITH AN IRIS MODULE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18347282 titled 'CAMERA MODULE WITH AN IRIS MODULE
The abstract of the patent application describes an iris module that consists of a base, multiple blades on the base, and an iris driving unit with a magnet unit that moves linearly to operate the blades. The driving magnet within the magnet unit has an odd number of polarized poles along its path.
- Simplified Explanation:
An iris module with a magnet-driven unit moves linearly to control multiple blades.
- Key Features and Innovation:
- Iris module with a base and blades - Magnet unit for linear movement - Driving magnet with odd number of poles
- Potential Applications:
- Camera lenses - Optical devices - Medical equipment
- Problems Solved:
- Precise control of aperture size - Smooth operation of iris mechanism
- Benefits:
- Improved image quality - Enhanced functionality - Increased durability
- Commercial Applications:
The technology can be used in various industries such as photography, medical imaging, and scientific research for precise control of light intake.
- Prior Art:
Readers can explore prior patents related to iris modules, magnet-driven mechanisms, and aperture control systems for further research.
- Frequently Updated Research:
Stay updated on advancements in magnet-driven technologies, optical devices, and camera equipment for potential improvements in iris modules.
Questions about iris modules: 1. How does the odd number of polarized poles in the driving magnet affect the operation of the iris module? 2. What are the potential challenges in implementing this technology in different types of optical devices?
Original Abstract Submitted
An iris module includes a base, a plurality of blades disposed on the base, and an iris driving unit including a magnet unit configured to linearly reciprocate on the base and drive the plurality of blades. The magnet unit includes a driving magnet with an odd number of polarized poles along a movement path of the magnet unit.
