Electric Tools Motor 12V 7500RPM 50GF.CM Micro Motor For Electric Tools
Performance Specification
| Performance specification | Rated Voltage | 12V | Speed | 7500RPM | | Torque | 50gf.cm | Continuous Current | 400mA max | |
Packaging & Delivery
Port: SHENZHEN
| Quantity(pieces) | 1 - 1000 | 1001 - 10000 | >10000 |
| Lead time (days) | 15 | 30 | To be negotiated |
Major Details
Warranty: 1-3 Years
Place of Origin: Guangdong, China
Brand Name: Go-Gold
Model Number: KG-500DC12
Usage: Electric Tools
Type: DC
Commutation: DC
Protect Feature: Permanent Magnet
Feature: High Efficiency
Product Name: Electric Tools Motor DC Motor
Motor type: DC Motor
Certification: CCC Ce RoHS
Rated Voltage: 12V/Custom Made
Keywords: Electric Tools Motor
Noise: Low
Material: Cooper Wire
Sample
Drawings
Working principle of electric tool motors
The working principle of electric tool motors is mainly based on electromagnetic induction and energy conversion technology.
- Electromagnetic induction: The electromagnet in the motor generates a magnetic field, which interacts with the rotor to generate rotational motion. The shape of the rotor is similar to that of a fan blade and can only rotate in a magnetic field. When the current passes through the coil on the electromagnet, a magnetic field is generated, which attracts the rotor and causes it to rotate in the direction of the magnetic field, thereby generating rotational force and accelerating the rotation of the rotor.
- Energy conversion: The motor receives electrical energy from the power source and converts it into mechanical energy, causing the tools and tools to move and complete the work task. The power supply provides DC or AC electrical energy to the motor, and the coils in the motor rotor receive current and rotate under the action of electromagnetic force. In this way, the gear or transmission shaft is directly driven to rotate, hammer or cut the tools and tools, and process the object into the desired shape and size.
- Motor type: Motors are divided into DC motors and AC motors according to different power sources. Most motors in power systems are AC motors, which can be synchronous motors or asynchronous motors. The most widely used among various electric motors is the DC motor, which is easy to use, reliable in operation, low in price, and has a solid structure. DC motors are commonly used in large-capacity and low-speed power machines, and in situations where a wide range of speed regulation is required, DC motors are often used.
In summary, the working principle of electric tool motors is to generate rotational force through electromagnetic induction, convert electrical energy into mechanical energy, and drive tool tools to complete various machining tasks.
