Rice huller system with self-feedback and automatic compensation functions

Abstract

The invention discloses a rice huller system with self-feedback and automatic compensation functions. The rice huller system is characterized in that the first movable compensation rubber roller is parallelly arranged on the top of a second movable compensation rubber roller; the fixed rubber roller is arranged on one sides of the first movable compensation rubber roller and the second movable compensation rubber roller, and cereal processing spaces are reserved between the fixed rubber roller and the first movable compensation rubber roller as well as between the fixed rubber roller and the second movable compensation rubber roller; the movable bearing bases are arranged on the top of the first movable compensation rubber roller and the bottom of the second movable compensation rubber roller; the measuring modules are arranged on one side of the fixed rubber roller, the first movable compensation rubber roller and the second movable compensation rubber roller; the non-uniform feed shedding plate module is arranged on the upper portion of the cereal processing space between the first movable compensation rubber roller and the fixed rubber roller through a fixing frame; and the processing module is connected to the movable bearing bases and the measuring modules in a communication mode. According to the rice huller system, the abrasion situation of the rubber rollers can be detected automatically, the linear speed of the surfaces of the rubber rollers is adjusted, and the spacing between the two rubber rollers is adjusted.

Description

technical field [0001] The invention relates to the technical field of agricultural rice huskers, in particular to a self-feedback automatic compensation rice husker system. Background technique [0002] With the increase of the current population, the demand for food supply is increasing. According to the field survey and the feedback of the personnel in the grain factory, the key components for shelling are two large rubber rollers with the same initial radius, and the working condition of the rice huller It works in three shifts and works 24 hours a day, so it will cause a lot of wear to the rubber roller. Generally, the working life of this kind of rubber roller is 3-6 days, and the staff needs to manually adjust the rotation between the two rubber rollers on a regular basis. The distance between the two rubber rollers should be strictly controlled, because it is related to the husking rate and yield of rice. [0003] According to the relevant technical data and on-site...

AI Technical Summary

Problems solved by technology

The existing rice husker relies on the movement of two synchronous hydraulic cylinders to drive one rubber roller to move closer to the other rubber roller, but the disadvantage is that it cannot ensure that the axes of the two rubber rollers are parallel, and the error of the moving distance is large, because the movement of the synchronous hydraulic cylinder The time error is large; and through consultation with the manufacturer, it is known that the fast roller may make the slow roller speed faster through the action of rice, while the fast roller speed slows down, and the instantaneous speed of the two rollers fluctuates, which also has serious impact on the husking rate and output. Influence; due to the wear of the two rollers during operation, and the degree of wear of the radius of the two rollers will be different, the surface line speed of the two rollers will change under the condition of constant speed

[0004] To sum up, it can be seen that the existing rice huller has low production efficiency, unstable product quality, inconvenient operation, and requires staff to monitor in real time, resulting in a waste of a lot of human resources

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