Product Description
Introduction
Our AC induction motor widely used in home appliances, Like pellet stove, biomass boilers, ovens, commercial grills, rotisseries, air fresher, blenders, heater, dehumidifiers, etc.
1. Lightweight, compact dimension ;
2. Wide speed range and high torque;
3. Low noise and high efficiency;
4. Stable and safe, long lifetime;
5. Multi-structure, various assembling methods;
6. One-stop solution with speed controller, driver, encoder, brake and transformer available.
Products picture
Detail Images
Specification
Motor Characteristics
| Motor Model | Specs | Output power | Voltage | Frequency | Current | Starting Torque | Rated Torque | Rated Speed | Capacitor/Ve |
| W | V | Hz | A | mN.m | mN.m | r/min | μF/VAC | ||
| GS3IK15GN-C GS3IK15A-C |
Induction | 15 | 1-phase 220 |
50 | 0.15 | 143 | 115 | 1250 | 1.2/450 |
| 60 | 0.14 | 120 | 95.5 | 1500 | 1.2/450 | ||||
| GS3RK15GN-C GS3RK15A-C |
Reversible | 50 | 0.16 | 187 | 150 | 1250 | 1.5/450 | ||
| 60 | 0.18 | 158 | 127 | 1500 | 1.5/450 | ||||
| GS3IK15GN-A GS3IK15A-A |
Induction | 15 | 1-phase 110 |
50 | 0.33 | 143 | 115 | 1250 | 5/250 |
| 60 | 0.30 | 120 | 95.5 | 1500 | 5/250 | ||||
| GS3RK15GN-A GS3RK15A-A |
Reversible | 50 | 0.36 | 187 | 150 | 1250 | 6/250 | ||
| 60 | 0.38 | 158 | 127 | 1500 | 6/250 | ||||
| GS3IK15GN-U GS3IK15A-U |
— | 15 | 3-phase 380 |
50 | 0.06 | 143 | 115 | 1250 | — |
| 60 | 0.055 | 120 | 95.5 | 1500 | — | ||||
| GS3RK15GN-S GS3RK15A-S |
— | 15 | 3-phase 220 |
50 | 0.1 | 143 | 115 | 1250 | — |
| 60 | 0.1 | 120 | 95.5 | 1500 | — | ||||
| GS3IK20GN-C GS3IK20A-C |
Induction | 20 | 1-phase 220 |
50 | 0.22 | 187 | 150 | 1250 | 2/450 |
| 60 | 0.22 | 158 | 127 | 1500 | 2/450 | ||||
| GS3RK20GN-C GS3RK20A-C |
Reversible | 50 | 0.26 | 187 | 150 | 1300 | 2.5/450 | ||
| 60 | 0.28 | 158 | 127 | 1550 | 2.5/450 | ||||
| GS3IK20GN-A GS3IK20nA-A |
Induction | 20 | 1-phase 110 |
50 | 0.45 | 187 | 150 | 1250 | 8/250 |
| 60 | 0.460 | 158 | 127 | 1500 | 8/250 | ||||
| GS3RK20GN-A GS3RK20A-A |
Reversible | 50 | 0.54 | 187 | 150 | 1300 | 10/250 | ||
| 60 | 0.58 | 158 | 127 | 1550 | 9/250 |
Allowable load for the gear motor
| Geared-down parameter |
Synchronous speed r/min |
500 | 300 | 250 | 200 | 150 | 120 | 100 | 75 | 60 | 50 | 40 | 35 | 30 | 25 | 20 | 15 | 12 | 10 | 8 | 7.5 | 6 | 5 | |
| Ratio i | 3 | 5 | 6 | 7.5 | 10 | 12.5 | 15 | 20 | 25 | 30 | 36 | 40 | 50 | 60 | 75 | 100 | 120 | 150 | 180 | 200 | 250 | 300 | ||
| Max allowable load | 15W | N.m | 0.28 | 0.48 | 0.56 | 0.75 | 0.93 | 1.18 | 1.47 | 1.67 | 2.15 | 2.35 | 3.01 | 3.34 | 3.92 | 4.7 | 4.9 | |||||||
| 20W | N.m | 0.35 | 0.58 | 0.75 | 0.87 | 1.24 | 1.45 | 1.71 | 2.23 | 2.61 | 3.04 | 4.01 | 4.4 | 4.9 | ||||||||||
Note:
Motor voltage, power, and speed will be customized according to your request under the allowed circumstance of adoptable dimension.
FOR OTHER MODELS:
Size: 60 / 70 / 80 / 90 / 100mm
Power: 6/ 10 / 15 / 20 / 25 / 30/ 40 / 60 / 90 / 120 / 140/160/ 180/ 200/ 250/ 370 W
Voltage: 1ph100 / 1ph110 / 1ph120 / 1ph220 / 1ph230 / 3ph220 /3ph380v (50/60Hz)
Gear Ratio: 3/ 5/ 6/ 7.5/10/ 12.5/ 15/ 20/ 25/ 30/ 36/ 40/ 50/ 60/ 75/ 100/ 120/ 150/ 180/ 200/ 250/ 300/ 500
Dimensional Drawing
Packing and Delivery
Exhibitions
About CHINAMFG Power
Greensky Power Company Limited is a China-based international company who is specialized in the electric motor, gearbox and controlling system development, manufacturing, quality controlling, and trading.
Mission:
We are dedicated to developing an international electric motor company that can deliver one-stop reliable products with customer-oriented service.
History:
CHINAMFG was established in 2571 by CHINAMFG Cheng in Los Angeles, USA, and moved to HangZhou, China in 2011. In the past years, the team of CHINAMFG continues to create value to our esteemed customers all over the world by building up a wide and reliable supply chain management system, effective quality & delivery time control system, cost-efficient manufacturing system, and fast-respond professional service.
Certificates
FAQ
1 Q: What’s your MOQ for the gear motor?
A: 1unit is ok for sample testing
2 Q: What about your warranty for your gear motor?
A: One year.
3 Q: Do you provide OEM service with customer-logo?
A: Yes, we could do OEM orders, but we mainly focus on our own brand.
4 Q: How about your payment terms?
A: TT, western union, and Paypal. 100% payment in advance for orders less than $5,000. 30% deposit and balance before delivery for orders over $5,000.
5 Q: How about your packing?
A: Carton, Plywood case. If you need more, we can pack all goods in pallets.
6 Q: What information should be given, if I buy gear motor from you?
A: Rated power, gearbox ratio, input speed, mounting position. More details, better!
7 Q: How do you deliver the gear motors?
A: We will compare and choose the most suitable ways of delivery by sea, air or express courier.
We hope you will enjoy cooperating with us. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Application: | Industrial |
|---|---|
| Speed: | Low Speed |
| Number of Stator: | Single-Phase |
| Function: | Driving, Control |
| Casing Protection: | Closed Type |
| Number of Poles: | 4 |
| Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
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Where can individuals find reliable resources for learning more about gear motors and their applications?
Individuals seeking to learn more about gear motors and their applications have access to various reliable resources that provide valuable information and insights. Here are some sources where individuals can find reliable information about gear motors:
1. Manufacturer Websites:
Manufacturer websites are a primary source of information about gear motors. Gear motor manufacturers often provide detailed product specifications, application guides, technical documentation, and educational materials on their websites. These resources offer insights into different gear motor types, features, performance characteristics, and application considerations. Manufacturer websites are a reliable and convenient starting point for learning about gear motors.
2. Industry Associations and Organizations:
Industry associations and organizations related to mechanical engineering, automation, and motion control often have resources and publications dedicated to gear motors. These organizations provide technical articles, whitepapers, industry standards, and guidelines related to gear motor design, selection, and application. Examples of such associations include the American Gear Manufacturers Association (AGMA), International Electrotechnical Commission (IEC), and Institute of Electrical and Electronics Engineers (IEEE).
3. Technical Publications and Journals:
Technical publications and journals focused on engineering, robotics, and motion control are valuable sources of in-depth knowledge about gear motors. Publications like IEEE Transactions on Industrial Electronics, Mechanical Engineering magazine, or Motion System Design magazine often feature articles, case studies, and research papers on gear motor technology, advancements, and applications. These publications provide authoritative and up-to-date information from industry experts and researchers.
4. Online Forums and Communities:
Online forums and communities dedicated to engineering, robotics, and automation can be excellent resources for discussions, insights, and practical experiences related to gear motors. Websites like Stack Exchange, engineering-focused subreddits, or specialized forums provide platforms for individuals to ask questions, share knowledge, and engage in discussions with professionals and enthusiasts in the field. Participating in these communities allows individuals to learn from real-world experiences and gain practical insights.
5. Educational Institutions and Courses:
Technical colleges, universities, and vocational training centers often offer courses or programs in mechanical engineering, mechatronics, or automation that cover gear motor fundamentals and applications. These educational institutions provide comprehensive curricula, textbooks, and lecture materials that can serve as reliable resources for individuals interested in learning about gear motors. Additionally, online learning platforms like Coursera, Udemy, or LinkedIn Learning offer courses on topics related to gear motors and motion control.
6. Trade Shows and Exhibitions:
Attending trade shows, exhibitions, and industry conferences related to automation, robotics, or motion control provides opportunities to learn about the latest advancements in gear motor technology. These events often feature product demonstrations, technical presentations, and expert panels where individuals can interact with gear motor manufacturers, industry experts, and other professionals. It’s a great way to stay updated on the latest trends, innovations, and applications of gear motors.
When seeking reliable resources, it’s important to consider the credibility of the source, the expertise of the authors, and the relevance to the specific area of interest. By leveraging these resources, individuals can gain a comprehensive understanding of gear motors and their applications, from basic principles to advanced topics, enabling them to make informed decisions and effectively utilize gear motors in their projects or applications.
What is the significance of gear reduction in gear motors, and how does it affect efficiency?
Gear reduction plays a significant role in gear motors as it enables the motor to deliver higher torque while reducing the output speed. This feature has several important implications for gear motors, including enhanced power transmission, improved control, and potential trade-offs in terms of efficiency. Here’s a detailed explanation of the significance of gear reduction in gear motors and its effect on efficiency:
Significance of Gear Reduction:
1. Increased Torque: Gear reduction allows gear motors to generate higher torque output compared to a motor without gears. By reducing the rotational speed at the output shaft, gear reduction increases the mechanical advantage of the system. This increased torque is beneficial in applications that require high torque to overcome resistance, such as lifting heavy loads or driving machinery with high inertia.
2. Improved Control: Gear reduction enhances the control and precision of gear motors. By reducing the speed, gear reduction allows for finer control over the motor’s rotational movement. This is particularly important in applications that require precise positioning or accurate speed control. The gear reduction mechanism enables gear motors to achieve smoother and more controlled movements, reducing the risk of overshooting or undershooting the desired position.
3. Load Matching: Gear reduction helps match the motor’s power characteristics to the load requirements. Different applications have varying torque and speed requirements. Gear reduction allows the gear motor to achieve a better match between the motor’s power output and the specific requirements of the load. It enables the motor to operate closer to its peak efficiency by optimizing the torque-speed trade-off.
Effect on Efficiency:
While gear reduction offers several advantages, it can also affect the efficiency of gear motors. Here’s how gear reduction impacts efficiency:
1. Mechanical Efficiency: The gear reduction process introduces mechanical components such as gears, bearings, and lubrication systems. These components introduce additional friction and mechanical losses into the system. As a result, some energy is lost in the form of heat during the gear reduction process. The efficiency of the gear motor is influenced by the quality of the gears, the lubrication used, and the overall design of the gear system. Well-designed and properly maintained gear systems can minimize these losses and optimize mechanical efficiency.
2. System Efficiency: Gear reduction affects the overall system efficiency by impacting the motor’s electrical efficiency. In gear motors, the motor typically operates at higher speeds and lower torques compared to a direct-drive motor. The overall system efficiency takes into account both the electrical efficiency of the motor and the mechanical efficiency of the gear system. While gear reduction can increase the torque output, it also introduces additional losses due to increased mechanical complexity. Therefore, the overall system efficiency may be lower compared to a direct-drive motor for certain applications.
It’s important to note that the efficiency of gear motors is influenced by various factors beyond gear reduction, such as motor design, control systems, and operating conditions. The selection of high-quality gears, proper lubrication, and regular maintenance can help minimize losses and improve efficiency. Additionally, advancements in gear technology, such as the use of precision gears and improved lubricants, can contribute to higher overall efficiency in gear motors.
In summary, gear reduction is significant in gear motors as it provides increased torque, improved control, and better load matching. However, gear reduction can introduce mechanical losses and affect the overall efficiency of the system. Proper design, maintenance, and consideration of application requirements are essential to optimize the balance between torque, speed, and efficiency in gear motors.
How does the gearing mechanism in a gear motor contribute to torque and speed control?
The gearing mechanism in a gear motor plays a crucial role in controlling torque and speed. By utilizing different gear ratios and configurations, the gearing mechanism allows for precise manipulation of these parameters. Here’s a detailed explanation of how the gearing mechanism contributes to torque and speed control in a gear motor:
The gearing mechanism consists of multiple gears with varying sizes, tooth configurations, and arrangements. Each gear in the system engages with another gear, creating a mechanical connection. When the motor rotates, it drives the rotation of the first gear, which then transfers the motion to subsequent gears, ultimately resulting in the output shaft’s rotation.
Torque Control:
The gearing mechanism in a gear motor enables torque control through the principle of mechanical advantage. The gear system utilizes gears with different numbers of teeth, known as gear ratio, to adjust the torque output. When a smaller gear (pinion) engages with a larger gear (gear), the pinion rotates faster than the gear but exerts more force or torque. This results in torque amplification, allowing the gear motor to deliver higher torque at the output shaft while reducing the rotational speed. Conversely, if a larger gear engages with a smaller gear, torque reduction occurs, resulting in higher rotational speed at the output shaft.
By selecting the appropriate gear ratio, the gearing mechanism effectively adjusts the torque output of the gear motor to match the requirements of the application. This torque control capability is essential in applications that demand high torque for heavy lifting or overcoming resistance, as well as applications that require lower torque but higher rotational speed.
Speed Control:
The gearing mechanism also contributes to speed control in a gear motor. The gear ratio determines the relationship between the rotational speed of the input shaft (driven by the motor) and the output shaft. When a gear motor has a higher gear ratio (more teeth on the driven gear compared to the driving gear), it reduces the output speed while increasing the torque. Conversely, a lower gear ratio increases the output speed while reducing the torque.
By choosing the appropriate gear ratio, the gearing mechanism allows for precise speed control in a gear motor. This is particularly useful in applications that require specific speed ranges or variations, such as conveyor systems, robotic movements, or machinery that needs to operate at different speeds for different tasks. The speed control capability of the gearing mechanism enables the gear motor to match the desired speed requirements of the application accurately.
In summary, the gearing mechanism in a gear motor contributes to torque and speed control by utilizing different gear ratios and configurations. It enables torque amplification or reduction, depending on the gear arrangement, allowing the gear motor to deliver the required torque output. Additionally, the gear ratio also determines the relationship between the rotational speed of the input and output shafts, providing precise speed control. These torque and speed control capabilities make gear motors versatile and suitable for a wide range of applications in various industries.
editor by CX 2024-04-30