Does the temperature affect the use of the reducer?

      For a reducer that is normally used, theoretically its temperature rise under the rated load has nothing to do with the temperature of the environment, but in fact it will be affected by factors such as the temperature of the environment. Below we will talk about the effect of temperature on the use of the reducer.

      The speed reducer is a type of transmission through gears to achieve the purpose of speed reduction. It is the type of speed reducer that can often be seen and used.

       For a normal-running reducer, the theoretical temperature rise under the rated load should be independent of the ambient temperature, but it is actually affected by factors such as ambient temperature. This chapter describes the effect of temperature on the operation of the reducer.

      First, the extreme working temperature of the insulating material refers to the hottest temperature in the winding insulation during the design of the expected life of the reducer. If the operating temperature exceeds the limit operating temperature of the material for a long time, the aging of the insulation will increase, and the life will be greatly shortened. Therefore, in the operation of the reducer, temperature is one of the main factors of life;

      Second, the temperature rise is the temperature difference between the reducer and the environment, which is caused by the heat of the reducer. Temperature rise is an important indicator in the design and operation of the reducer, which indicates the degree of heat generation of the reducer. During the operation, if the temperature rise of the reducer suddenly increases, it means that the reducer is faulty, or the air duct is blocked or the load is too heavy ;

      Third, when we use the reducer, iron cores will have iron losses in an alternating magnetic field, copper losses will occur after the winding is energized, and other stray losses. Like these will cause the temperature of the reducer to rise. There is also heat reduction in the reducer. When the heat and heat are equal, the equilibrium state is reached. If the temperature no longer rises, it will stabilize on a horizontal surface. When the heat is increased or the heat is reduced, the balance will be broken, which will cause the temperature to continue to rise and expand the temperature difference. This will increase the heat dissipation and achieve a new equilibrium at another relatively high temperature.