Explosion-proof high and low temperature circulation machine is an experimental equipment integrating high temperature, low temperature and constant temperature, which is widely used in chemical, pharmaceutical, biological and other fields. In the laboratory, the device can simulate a variety of environments and provide researchers with reliable experimental data. However, in the process of use, the problem of motor burnout occurs from time to time, which brings a lot of trouble to the laboratory. This article will help you better understand and use this kind of equipment by the reasons why the motor of the explosion-proof high and low temperature cycle all-in-one machine burns out.
Overload operation: Long-term, high-intensity operation can cause the motor to overheat, which can lead to burnout. When using the equipment, laboratory personnel should arrange the experimental time reasonably and avoid excessive use.
Unstable power supply: Power supply problems such as voltage fluctuations and unstable current may cause damage to the motor. It is recommended to use voltage regulators, UPS and other equipment to ensure the stability of the laboratory power supply.
Poor heat dissipation: The motor will generate a lot of heat during operation, and if the heat dissipation is poor, it may cause the motor to overheat and burn out. Regularly check the cooling system to ensure that the device is operating properly.
Mechanical failure: Problems such as bearing wear and rotor deformation can lead to unstable motor operation, which can lead to burnout. Regularly maintain the equipment and solve problems in time.
Improper selection: The selection of an unsuitable motor may result in too much or too little power to meet the operational needs of the equipment. When purchasing equipment, you should choose the right motor according to your actual needs.
Experimental interruption: The motor burns out and the equipment cannot operate normally, affecting the progress of the experiment. It takes time to replace the motor and may cause the experiment to be interrupted.
Equipment damage: Burning out the motor may cause damage to other components, such as compressors, controllers, etc. This will lead to a decrease in the overall performance of the equipment, or even scrapping.
Safety hazards: Burning out of the motor may cause fire, electric shock and other safety accidents. Laboratory personnel should attach great importance to equipment safety and deal with abnormal situations in a timely manner.
Maintenance cost: After the motor burns out, it needs to be replaced or repaired. This will bring a certain economic cost and time cost.
Reasonable selection: According to the actual needs of the laboratory, select the motor with appropriate power and speed to avoid the problem of burnout caused by improper selection.
Regular maintenance: Conduct regular inspection and maintenance of the equipment, find problems and solve them in time to ensure the normal operation of the equipment.
Use voltage regulators, UPS, and other equipment: ensure the stability of the laboratory power supply and avoid burnout caused by power supply problems.
Strengthen training: Laboratory personnel should be familiar with the equipment operation procedures, understand the equipment performance and precautions, and avoid the problem of burnout caused by improper operation.
Establish an emergency plan: formulate an emergency plan for equipment failure, and in the event of a motor burnout, it can be quickly dealt with and reduce losses.