Lg electronics inc. (20240186842). STATOR FOR MOTOR simplified abstract
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STATOR FOR MOTOR
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STATOR FOR MOTOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240186842 titled 'STATOR FOR MOTOR
The abstract describes a stator of a motor that includes a first split core with first teeth, a second split core with second teeth facing the first split core to define a rotor accommodating hole, insulators, phase coils connected to a three-phase AC power supply, power line connectors, and a neutral line connector.
- The stator of the motor consists of two split cores with teeth that define a rotor accommodating hole.
- Insulators are placed on each split core to provide insulation.
- Phase coils are wound around the teeth of the split cores and connect to a three-phase AC power supply.
- Power line connectors are located on the first insulator to connect the phase coils to the power supply.
- A neutral line connector is situated on the second insulator and is connected to the phase coils.
Potential Applications: - Electric motors - Industrial machinery - Automotive applications
Problems Solved: - Efficient power distribution in motor systems - Insulation of electrical components - Connection to three-phase AC power supplies
Benefits: - Improved motor performance - Enhanced safety with insulation - Reliable power supply connection
Commercial Applications: Title: "Enhanced Stator Technology for Electric Motors" This technology can be used in various industries such as manufacturing, automotive, and robotics for efficient and reliable motor operation.
Prior Art: No specific prior art information provided.
Frequently Updated Research: No information on frequently updated research related to this technology.
Questions about Stator Technology: 1. How does the stator design impact the efficiency of the motor? 2. What are the key differences between this stator design and traditional stator designs?
Original Abstract Submitted
a stator of a motor include a first split core including first teeth, a second split core including second teeth and facing the first split core to define a rotor accommodating hole with the first split core, a first insulator disposed at the first split core, a second insulator disposed at the second split core, phase coils that are wound around the first teeth and the second teeth, respectively, and are configured to connect to a three-phase alternating current (ac) power supply, power line connectors that are disposed at the first insulator and configured to connect the phase coils to the three-phase ac power supply, and a neutral line connector that is disposed at the second insulator and connected to the phase coils.