You often find the 370 electric motor in devices that need compact size and reliable performance. This small DC motor delivers steady power, making it essential in tools, toys, and automation systems. Many industries use these motors because they offer energy efficiency and smooth operation. For example, motor vehicles account for over 42% of the market’s revenue share, while HVAC equipment shows the fastest growth, with a CAGR above 10.5%.
Application Segment | Revenue Share (%) |
|---|---|
Motor Vehicles | > 42.0 |
HVAC Equipment | Fastest CAGR > 10.5 |
The growing demand in sectors like agriculture and commercial HVAC systems shows that the 370 electric motor remains a popular choice for many applications.
Key Takeaways
The 370 electric motor is compact and efficient, making it ideal for tools, toys, and automation systems.
This motor operates within a voltage range of 3 to 24 volts and delivers power between 0.32 and 1.27 watts, ensuring reliable performance.
You can find the 370 electric motor in various applications, including robotics, medical devices, and automotive systems, due to its high torque and precision.
Regular maintenance, such as daily checks and lubrication, is essential to extend the motor’s lifespan and ensure smooth operation.
Customization options are available for the 370 electric motor, allowing you to tailor it to specific project needs for optimal performance.
370 Electric Motor Overview
Definition
You may wonder what makes a 370 electric motor stand out in the world of small motors. This motor is a compact, cylindrical DC motor known for its balance of size, power, and efficiency. You often find it in devices that require steady and reliable motion, such as USB fans, game machines, and small appliances. The 370 electric motor usually operates within a voltage range of 3 to 24 volts and delivers power between 0.32 and 1.27 watts. Its lightweight design, about 54 grams, makes it easy to fit into tight spaces without adding much weight.
Here is a quick look at the main components and specifications:
Component | Specification |
|---|---|
Voltage | 3-24V |
Power | 0.32-1.27W |
Current | 0.12-0.86A |
Speed | 3000-8000 RPM |
Torque | 15-26 g.cm |
Weight | About 54g |
Applications | USB fan, game machines, etc. |
You will notice that the 370 electric motor uses either copper or aluminum wires. It can have ball bearings for smooth operation or oil bearings for cost savings. The stator, which is the stationary part of the motor, is usually made from cold steel or silicon steel. Some models include a thermal fuse to protect against overheating.
How It Works
When you supply power to a 370 electric motor, electricity flows through the motor’s windings. This creates a magnetic field that interacts with the permanent magnets inside the motor. As a result, the rotor (the part that spins) begins to turn. The speed of rotation depends on the voltage you apply and the load attached to the shaft.
You can see how the construction supports its performance:
All-metal gears help the motor resist high temperatures and wear.
The D-shaped output shaft, made from high-hardness steel, ensures a secure fit for gears or pulleys.
The compact body, about 30.8 x 24.0 mm, allows for easy installation in small devices.
Some models offer power-off self-locking, which means the shaft stays in place when the power is off.
The 370 electric motor can run at speeds between 3000 and 8000 RPM, depending on the model. It can handle rated currents from 0.12 to 0.86 amps. For example, a typical 12V model may draw 55mA to 180mA, while a 24V model may draw about 110mA. This flexibility lets you use the motor in a wide range of applications, from toys to security devices.
Tip: If you need a motor for a project that requires both high speed and reliable torque in a small package, the 370 electric motor is a strong choice. Its design makes it suitable for both hobby and professional uses.
Features and Specifications
Size and Design
You will notice that the 370 electric motor stands out for its compact size and thoughtful design. Manufacturers use advanced materials to achieve high precision and high torque in a small package. The outer diameter usually measures about 24.0 mm, and the length ranges from 30.0 mm to 30.8 mm. The weight stays light, often between 41 g and 45 g, making it easy to install in tight spaces.
Specification | Value |
|---|---|
Weight | 1.6 ounces (45 g) |
Outer Diameter | 24.0 mm |
Shaft Diameter | 3.17 mm (1/8 in) |
Specification | Value |
|---|---|
Weight | 1.4 oz (41 g) |
Product Length | 30.8 mm |
You will find that the construction of these motors uses materials chosen for high precision and high torque. Key materials include electrical steel with high silicon content. Magnetic laminations play a crucial role in boosting high-efficiency. Thinner lamination thicknesses, usually between 0.5 to 0.35 mm, help improve high precision and high torque. Manufacturers also focus on higher purity and better control of the crystalline microstructure. This approach improves magnetic domain movement, reduces losses, and increases high-efficiency. The demand for improved raw materials continues to rise as you look for motors with better high precision and high torque.
Electrical steel with high silicon content
Magnetic laminations for high-efficiency
Thin laminations (0.5–0.35 mm) for high precision
High purity and controlled microstructure for high torque
Improved raw materials for high precision and high torque
Note: The compact size and advanced materials allow you to achieve high torque and high precision even in space-limited applications.
Performance
You can expect the 370 electric motor to deliver high torque and high precision across a range of voltages and gear ratios. The motor’s design supports high-efficiency, making it a top choice for demanding tasks. You will see that the rated torque and speed vary depending on the voltage and gear ratio. For example, at 6V with a 4.40 gear ratio, you get a rated torque of 0.09 kgf.cm and a speed of 1182 RPM. At 12V with a 26 gear ratio, the motor delivers 0.34 kgf.cm of high torque at 185 RPM, showing its ability to maintain high precision at lower speeds.
Voltage | Gear Ratio | Rated Torque (kgf.cm) | Rated Speed (RPM) |
|---|---|---|---|
6V | 4.40 | 0.09 | 1182 |
6V | 10 | 0.18 | 520 |
6V | 16 | 0.26 | 325 |
6V | 21 | 0.34 | 248 |
6V | 26 | 0.38 | 200 |
12V | 4.40 | 0.08 | 1091 |
12V | 10 | 0.16 | 480 |
12V | 16 | 0.23 | 300 |
12V | 21 | 0.30 | 229 |
12V | 26 | 0.34 | 185 |
You will benefit from high torque and high precision in every application, whether you use the motor in robotics, automation, or security devices. The high-efficiency design ensures you get reliable performance and long service life. The 370 electric motor’s ability to maintain high torque and high precision at various speeds makes it a favorite for engineers and hobbyists alike. You can trust this motor to deliver high torque and high precision, even in challenging environments.
Applications
The 370 electric motor stands out for its versatility and reliability. You will find it in a wide range of applications, from robotics to automotive systems. Its compact size, high torque, and efficient performance make it a favorite for engineers and designers who need dependable solutions for different industries. Let’s explore how you can use this motor in various fields.
Robotics and Automation
You often see the 370 electric motor at the heart of robotics and industrial automation. Its compact size and high torque output allow you to build robotic arms that move with precision. You can use these motors in robot joints, where accurate motion and strength are essential. The low power consumption and ease of integration make them ideal for smart robots and automated production lines.
You can use the 370 electric motor in:
Industrial automation equipment, such as robotic arms.
Automated production lines that require reliable and repeatable motion.
Robot joints, where high precision and torque output are necessary.
Smart robots, which need precise power control to perform complex tasks.
When you design a robot, you want motors that fit easily into tight spaces and deliver consistent performance. The 370 electric motor gives you these advantages, making it a top choice for high torque application in robotics.
Note: The compact design and high efficiency of the 370 electric motor help you create flexible and powerful robots for many automation tasks.
Security and Smart Lockboxes
Security solutions demand motors that offer both strength and reliability. You can rely on the 370 electric motor for applications like smart lockboxes and electronic locks. INEED worm gear motors, in particular, provide several benefits for these systems.
High torque output ensures that your locking mechanisms work smoothly and securely.
The self-locking feature keeps the lock engaged even if the power goes out, maintaining security at all times.
The compact design allows you to integrate the motor into small lockbox housings without redesigning your product.
Efficient power transmission improves the overall performance of your security devices.
Reliable operation supports heavy-duty tasks, keeping valuable items safe.
If you need a motor for a smart lockbox, INEED worm gear motors stand out as a dependable solution. You can use them in real estate lockboxes, commercial safes, and other security applications where performance and safety matter most.
Tip: INEED’s customization options let you match the motor to your specific security needs, ensuring a perfect fit for your application.
Medical Devices
You will also find the 370 electric motor in many medical devices. Its stable power and low noise make it suitable for sensitive environments where patient comfort is important. You can use these motors in electric wheelchairs, medical pumps, and rehabilitation equipment.
Electric wheelchairs use the 370 electric motor to provide smooth and reliable mobility for patients.
Medical pumps depend on the motor for accurate delivery of fluids and medications.
Rehabilitation devices use the motor to assist patients during physical therapy and recovery.
Medical equipment that requires precise motion control often relies on the 370 electric motor for consistent performance.
The motor’s high reliability ensures that your medical devices work as intended, even in critical situations. You must also consider safety and regulatory standards when choosing a motor for medical applications.
Standard | Description |
|---|---|
IEC 60601-1 | Foundational standard for safety and performance during design, mandatory for market entry. |
IEC 62353 | Governs in-service testing, ensuring safety for equipment already in use. |
NFPA 99 | U.S. standard minimizing fire, explosion, and electrical hazards, with specific resistance criteria. |
Note: The 370 electric motor meets strict safety standards, making it a trusted choice for medical applications.
Automotive Uses
You can see the 370 electric motor in many automotive applications. Its small size and strong performance make it ideal for systems that require precise movement and durability. You will find these motors in power windows, seat adjusters, door locks, and more.
Application | Motor Model | Description |
|---|---|---|
Power window lifters | GD-558 RC/LC | New generation motor achieving lower mass and weight reduction |
Power seats | RZ-46BWA | Low mass and high torque motor for weight reduction |
Parking brakes | RS-656WA | Motor with low vibration, long life, and high rigidity |
Window washer pumps | N/A | N/A |
Engine peripheral equipment | RS-4F5WA | Adapted for extreme conditions of engine intake and exhaust |
Door locks | FC-280SC | Standard motor for door lock actuators |
Car mirrors | SF-266SA | Low mass and noise reduction for power folding mirrors |
Air conditioning damper actuators | SF-266SH | Low mass and noise reduction for multiple dampers |
You can use the 370 electric motor in both comfort and safety systems within vehicles. Its ability to operate in extreme conditions and deliver reliable performance makes it a key component in modern automotive design.
Tip: When you need a motor for automotive applications, the 370 electric motor offers a balance of size, power, and efficiency.
The 370 electric motor proves its value across many industries. You can use it in robotics, security, medical, and automotive systems. INEED worm gear motors, especially in smart lockboxes and security solutions, highlight how you can customize and optimize your applications for the best results.
DC Motor and DC Worm Gear Motor IND-24GMW370
DC Motor Uses
You see dc worm gear motors in many everyday products and industrial machines. These motors power devices that need reliable, efficient, and compact motion. You find them in hand-held power tools, consumer electronics, and HVAC systems. Small cooling fans, electric vehicles, drones, and even aircraft use dc worm gear motor technology for precise control. Computer peripherals like printers and hard drives rely on dc worm gear motor designs for smooth operation.
You also notice dc worm gear motors in home appliances. Dishwashers, washing machines, refrigerators, microwaves, and vacuum cleaners all use dc worm gear motor systems to drive moving parts. Electric toothbrushes and air conditioning systems benefit from the quiet and steady performance of a dc worm gear motor. Electric fans and direct-drive turntables use dc worm gear motor solutions for consistent speed and torque.
When you need a low speed dc motor for a project that demands high torque and accuracy, you often choose a dc worm gear motor. The jgy-370 dc motor is a popular choice for hobbyists and engineers. It offers a balance of size, power, and affordability. However, for more demanding applications, you may need a specialized worm gear dc motor.
INEED DC Worm Gear Motor IND-24GMW370
You can upgrade your projects with the INEED DC worm gear motor IND-24GMW370. This worm gear dc motor stands out for its advanced features and customization options. Unlike a standard jgy-370 dc motor, the INEED DC worm gear motor uses a pure copper coil. This design keeps the temperature low during operation. High-performance magnets boost the torque, making the dc worm gear motor ideal for heavy-duty tasks.
You get a high-quality carbon brush in every INEED DC worm gear motor. This feature extends the service life and ensures reliable performance. INEED offers full customization for the dc worm gear motor. You can select the shaft type, speed, torque, and wire length to match your exact needs. Bulk orders come with discounts, making the dc worm gear motor a cost-effective solution for OEMs.
Feature Description | |
|---|---|
Pure copper coil | Yes, for low temperature rise |
High performance magnet | Yes, for increased torque |
High-quality carbon brush | Yes, improves service life |
Customization support | Yes, options for shaft, speed, torque, wire length |
Discounts on bulk orders | Yes, available |
You can use the INEED dc worm gear motor in robotics, smart lockboxes, medical devices, and automotive systems. The worm gear dc motor design provides self-locking, high torque, and smooth operation. You get a compact and quiet solution that fits into tight spaces. INEED’s dc worm gear motor gives you reliability and flexibility for any application that demands precision and strength.
Tip: Choose the INEED dc worm gear motor IND-24GMW370 when you need a worm gear dc motor that delivers both power and customization. You can trust it for long-term, stable performance in your most important projects.
Considerations
Limitations
When you choose a 370 electric motor, you should understand its common limitations. These motors offer many benefits, but you may face some challenges in certain applications.
Noise issues can occur if the worm gear is not divided evenly or if the bearings are poor quality. This can affect your goal of achieving low noise in your device.
High temperature jamming may happen when you select the wrong motor or use poor lubrication. This can lead to the motor stopping during operation.
Vibration malfunctions often result from uneven gear separation or misalignment during installation. These vibrations can make it hard to maintain low noise and smooth performance.
You should also consider several important factors before selecting a 370 electric motor for your project:
Factor | Description |
|---|---|
Power Source | Choose AC or DC based on your needs. |
Speed Settings | Decide if you need fixed or adjustable speed. |
Operating Lifetime | Think about how long you want the motor to last. |
Duty Cycle | Know if the motor will run continuously or only sometimes. |
Enclosure Ranking | Check if the environment will affect the motor. |
Voltage | Make sure the motor matches your power source. |
Performance Temperatures | Consider the temperatures the motor will face. |
Control | See if the motor can rotate as needed. |
Capacity and Size | Ensure the motor fits and has enough torque. |
Noise Levels | Look for low noise if your application requires it. |
Maintenance | Think about how easy it is to maintain the motor. |
Feedback Components | Decide if you need data on performance. |
Operating Costs | Consider the total cost, including maintenance. |
Note: If you need low noise for your application, pay close attention to installation and component quality.
Maintenance
Proper maintenance helps you get the best performance and long life from your 370 electric motor. You can follow a simple schedule to keep your motor running smoothly and maintain low noise levels.
Daily Checks: Look for visible damage, listen for unusual sounds, and feel for vibrations.
Weekly Checks: Clean the motor housing and ventilation openings. Check lubrication and monitor temperature.
Monthly Checks: Inspect electrical connections and test insulation resistance.
Annual Maintenance: Take the motor apart for a deep clean and full inspection.
You should also:
Keep the motor clean to prevent overheating.
Inspect for wear and replace damaged parts.
Lubricate bearings as recommended to support low noise and reduce friction.
Monitor operating conditions and avoid overloading.
Tighten and clean electrical connections.
Balance and align loads to prevent vibration and maintain low noise.
Test insulation resistance regularly.
Document all maintenance activities and train your team on proper care.
Tip: Store your motors in dry, clean areas to prevent rust and moisture damage. Rotate the shafts by hand and grease them during storage. After repairs, always test the motor without a load to ensure it works correctly.
By following these steps, you can enjoy reliable, low noise operation and extend the lifespan of your 370 electric motor.
You have seen that a 370 electric motor converts electrical energy into mechanical energy. It uses a rotor and stator to power devices from home appliances to industrial machines.
Key Point | Description |
|---|---|
Definition | Converts electrical to mechanical energy |
Main Components | Rotor and stator |
Applications | Appliances, pumps, fans, machinery |
INEED worm gear motors stand out in modern systems. They deliver high torque, fit tight spaces, and run quietly. You can trust INEED for efficient, durable, and customizable motor solutions that keep your projects running smoothly.
FAQ
What is a 370 electric motor used for?
You use a 370 electric motor in robotics, security devices, medical equipment, and automotive systems. Its compact size and high torque make it ideal for projects that need reliable and precise motion.
How does a worm gear motor improve security applications?
You benefit from worm gear motors because they offer self-locking features. This keeps smart lockboxes and electronic locks secure, even if the power goes out. You get reliable protection for your valuables.
Can you customize a 370 electric motor for your project?
You can request custom options for shaft type, speed, torque, and wire length. INEED Motors provides tailored solutions to match your exact requirements. You get a motor that fits your application perfectly.
What maintenance does a 370 electric motor need?
You should check for damage, clean the housing, lubricate bearings, and inspect electrical connections regularly. Proper maintenance helps you extend the motor’s lifespan and ensures safe, quiet operation.
