Features:
HP: 1HP-10HP
Pole: 2P, 4P
Frame: 140JM, 180JM, 210JM
Rolled steel
NEMA design: B
Service factor: 1.15
Insulation Class: F (UL approved)
Enclosure: TEFC
IP Class: IP44
CSA&CUS,UL certified
EPACT (CC) & EEV certified
1. Cixi Waylead Electric Motor Manufacturing Co.,Ltd is located in Cixi City, Zhejiang Province, China, close to the famous international ports Shanghai and Ningbo. The economic and technical conditions are superior, and the transportation is convenient.
2. Cixi Waylead is a professional Three-Phase JM Close-Coupled Pump Motor Suppliers and Three-Phase JM Close-Coupled Pump Motor company with rich industry experience. We can make "tailor-made" Three-Phase JM Close-Coupled Pump Motor according to the requirements of different customers. All our motors are exported to the United States, Canada, Mexico, Japan, Australia, New Zealand, Saudi Arabia, etc. Motors are widely used in woodworking, air compressors, blowers, fans, water pumps, hydraulic pumps, etc.
3. All our oem Three-Phase JM Close-Coupled Pump Motor and commercial processors have passed CSA & CUS certification, and some motors also have UL certification. The three-phase high-efficiency super-efficiency motor has passed the certification of Canada and the United States Department of Energy in 2007 and 2010.
4. On-site quality and production are managed by "6S". Implement ISO9001 international quality management system standards. Waylead has won the favor of many well-known international buyers with its excellent quality, reasonable price, punctual delivery and good service. Waylead looks forward to working with you in the near future!
Is the THREE-PHASE JM CLOSE-COUPLED PUMP MOTOR equipped with a temperature sensor and overheating protection device?
THREE-PHASE JM CLOSE-COUPLED PUMP MOTOR is usually equipped with a temperature sensor and overheating protection device to ensure the safe and stable operation of the motor. These devices play a vital role in the motor design and manufacturing process. They can effectively monitor the temperature status of the motor and take timely measures in the event of overheating to prevent motor damage or fire.
The temperature sensor is the core component of motor temperature monitoring. It can sense the temperature changes inside the motor in real time and transmit this information to the control system. Through the temperature sensor, the control system can accurately grasp the temperature status of the motor and make corresponding adjustments or protective measures. For example, when the motor temperature rises to a certain threshold, the control system can automatically reduce the output power of the motor to reduce heat generation, or activate the heat dissipation system to increase the cooling effect of the motor.
The overheating protection device is an important safety line of defense for the motor when the temperature is too high. Once the temperature sensor detects an abnormal increase in motor temperature, the overheating protection device will respond quickly to cut off the power supply or take other emergency measures to prevent damage or fire caused by overheating of the motor. This device usually uses components such as thermistors and thermal relays, which can respond to temperature changes in a very short time to ensure the safety of the motor.
In addition to the temperature sensor and overheating protection device, THREE-PHASE JM CLOSE-COUPLED PUMP MOTOR may also adopt other heat dissipation and cooling measures to further improve the thermal safety of the motor. For example, the motor may be equipped with cooling fans, heat sinks and other components to increase the heat dissipation area and improve heat dissipation efficiency. At the same time, the design of the motor will also take into account ventilation and heat dissipation needs to ensure that the motor can maintain good heat dissipation performance during operation.
Therefore, THREE-PHASE JM CLOSE-COUPLED PUMP MOTOR is usually equipped with a temperature sensor and an overheating protection device. These devices can monitor the temperature of the motor in real time and take timely measures in the event of overheating to protect the safe and stable operation of the motor. In addition, the motor may also incorporate additional heat dissipation and cooling measures to further improve its thermal safety. Together, these measures ensure the stability and reliability of the motor under long-term, high-load operation.
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