rotary hot pot conveyor belt common fault handling

Feb 21 2020

In the use of rotary hot pot equipment, the equipment is prone to failure when it is operated for a long time. So what failure problems will occur in general rotary hot pot equipment? How to solve the problem? Let's take a look at the following specific content introduction.

Generally speaking, when the rotating hot pot conveyor belt is running, the belt misalignment is a very common failure. Therefore, in order to solve this type of failure, it is generally necessary to pay attention to the installation dimensional accuracy and daily maintenance. The reasons for the belt deviation are There are many kinds, so generally need to deal with different situations according to different reasons.

The following are two common causes of deviation of the rotary hot pot conveyor belt and the corresponding treatment methods:
rotary hot pot conveyor belt
1. Self-aligning idler roller sets for rotating small hot pot equipment. There are many types of self-aligning idler roller sets, such as intermediate shaft type, four-link type, vertical roller type, etc., but the principle is generally to use blocking or The rollers rotate in the horizontal direction to block or generate lateral thrust, so that the belt automatically achieves the purpose of adjusting the deviation of the belt. It is best not to use this method for long belt conveyors, because the use of the centering roller group will affect the use of the belt. Life has an impact.

2. The blanking position at the transfer point of the rotary hot pot equipment will also have a great effect on the deviation of the belt. The material falling position will have a great effect on the deviation of the belt, because when the two belt conveyors are perpendicular to the horizontal plane, The impact is greater. So the general need to consider the relative height of the two belt conveyors at the transfer point. The lower the relative height, the greater the horizontal velocity component of the material, the greater the lateral impact on the lower belt, and the more difficult it is to center the material. Deflection of the material on the cross section of the belt will eventually cause the belt to run off. If the material shifts to the right, the belt shifts to the left and vice versa.