18534983. STOPPER BUMP ON ROTOR simplified abstract (Murata Manufacturing Co., Ltd.)
Contents
- 1 STOPPER BUMP ON ROTOR
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 STOPPER BUMP ON ROTOR - A simplified explanation of the abstract
- 1.4 Potential Applications
- 1.5 Problems Solved
- 1.6 Benefits
- 1.7 Commercial Applications
- 1.8 Prior Art
- 1.9 Frequently Updated Research
- 1.10 Questions about Microelectromechanical Elements
- 1.11 Original Abstract Submitted
STOPPER BUMP ON ROTOR
Organization Name
Murata Manufacturing Co., Ltd.
Inventor(s)
STOPPER BUMP ON ROTOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 18534983 titled 'STOPPER BUMP ON ROTOR
The abstract describes a microelectromechanical element with a motion-limiting structure to prevent direct physical contact between the main rotor body and the stator across a vertical rotor-stator gap.
- The motion-limiting structure includes a first stopper bump on the stator and a second stopper bump on the rotor.
- The first stopper bump is a protrusion on the stator that extends towards the rotor.
- The second stopper bump is a protrusion on the rotor that extends from the main rotor body towards the stator.
Potential Applications
This technology could be used in various microelectromechanical systems where precise control of rotor-stator interactions is crucial, such as sensors, actuators, and micro-machines.
Problems Solved
This innovation addresses the issue of potential damage or wear that could occur if the main rotor body comes into direct physical contact with the stator in microelectromechanical systems.
Benefits
The motion-limiting structure ensures the longevity and reliability of microelectromechanical systems by preventing damaging contact between the rotor and stator.
Commercial Applications
This technology could find applications in industries such as aerospace, automotive, medical devices, and consumer electronics where microelectromechanical systems are used for various functions.
Prior Art
Readers interested in exploring prior art related to this technology could start by researching patents and publications in the field of microelectromechanical systems and motion-limiting structures.
Frequently Updated Research
Researchers are continually exploring new materials and designs for motion-limiting structures in microelectromechanical systems to enhance performance and durability.
Questions about Microelectromechanical Elements
What are the key advantages of using motion-limiting structures in microelectromechanical systems?
Motion-limiting structures in microelectromechanical systems help prevent damage and ensure reliable operation by limiting physical contact between moving parts.
How do motion-limiting structures contribute to the overall efficiency of microelectromechanical systems?
By preventing direct physical contact between the rotor and stator, motion-limiting structures reduce friction and wear, leading to improved efficiency and longevity of the system.
Original Abstract Submitted
A microelectromechanical element is provided that includes a motion-limiting structure that prevents a main rotor body from coming into direct physical contact with a stator across a vertical rotor-stator gap. The motion-limiting structure includes a first stopper bump that is a protrusion on the stator that extends towards the rotor. The motion-limiting structure also includes a second stopper bump that is a protrusion on the rotor that extends from the main rotor body towards the stator.
