20240010275. POSITION SENSOR AND STEERING APPARATUS simplified abstract (HL Klemove Corp.)
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POSITION SENSOR AND STEERING APPARATUS
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POSITION SENSOR AND STEERING APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240010275 titled 'POSITION SENSOR AND STEERING APPARATUS
Simplified Explanation
The abstract describes a position sensor that includes a substrate with various components mounted on it. These components include initial shafts, gears, rotors, sub-shafts, and sensing coils. The sensor is designed to measure the position of the initial shafts by detecting the magnetic interaction between the gears and the sensing coils.
- The position sensor includes a substrate with multiple components mounted on it.
- The initial shafts are positioned in side spaces defined by the substrate.
- Gears and rotors are mounted on the initial shafts in the side spaces.
- A sub-shaft passes through the substrate.
- A sub-gear is mounted on the sub-shaft in one side space and engages with the initial gear.
- Another sub-gear is mounted on the sub-shaft in the other side space.
- Another set of initial shafts, gears, and rotors are mounted in the second side space.
- Sensing coils are disposed on the surfaces of the substrate to detect the magnetic interaction between the gears and the coils.
Potential applications of this technology:
- Position sensing in various industries such as automotive, robotics, and aerospace.
- Control systems that require accurate position feedback.
- Monitoring the position of moving parts in machinery and equipment.
Problems solved by this technology:
- Provides a compact and efficient solution for position sensing.
- Allows for precise measurement of shaft position.
- Reduces the need for external sensors or complex measurement systems.
Benefits of this technology:
- Improved accuracy and reliability in position sensing.
- Compact design allows for easy integration into existing systems.
- Cost-effective solution compared to alternative position sensing methods.
Original Abstract Submitted
a position sensor includes a substrate; a first initial shaft positioned in a first side space defined by a first surface of the substrate; a first initial gear and a first initial rotor mounted to the first initial shaft in the first side space; a sub-shaft passing through the substrate; a first sub-gear mounted to the sub-shaft in the first side space, and engaged with the first initial gear; a second sub-gear mounted to the sub-shaft in a second side space defined by a second surface of the substrate; a second initial shaft positioned in the second side space; a second initial gear and a second initial rotor mounted to the second initial shaft in the second side space, the second initial gear engaged with the second sub-gear; and first and second sensing coils disposed on the first and second surfaces of the substrate, respectively.