Cleaning

Since Balaji Commodities have always been a landmark of quality-oriented products, it lays special emphasis on the cleaning process of the products given to the customers. The mechanism used for the cleaning is technologically advanced and is also very efficient at performing cleaning related matters. Since quality has been the key to success for Balaji Commodities, the organization employees the best available and efficient machinery to overcome all the cleaning related issues and has been working very efficiently for years now.

The finest and highest quality of rice cleaning starts at the beginning. Before paddy can be processed in the rice mill, it is necessary to record the input to the mill and clean the product thoroughly by removing impurities such as dust and foreign matter. Machines used in the cleaning sections include weighers, classifiers and destoners. A good cleaning section is a vital part of the rice mill since it has direct impact on the efficiency of the further processes.

  • Efficient cleaning
  • High capacity
  • Adaptable to a variety of applications
  • Dust free aspiration
  • Space saving design

The precision-oriented weigher doses the paddy into the process and at the same time records the weight of the paddy being fed into the mill. The technologically advanced separator is used to remove straw, sand, stones, paper etc. from the paddy. It incorporates design features that make it a highly versatile machine that can be used for a variety of applications. Using an aspiration system and vibrating screen mechanism, the classifier separates out foreign matter with efficiency. The Vibrostoner separates heavy impurities such as stone and glass using the principle of difference in floating velocities of the individual particles. Any residual ferrous items still remaining are removed from the paddy flow by a magnet.

A method for cleaning a cereal grain such as wheat includes the steps of separating a quantity of incoming wheat into a light fraction and a heavy fraction. The light fraction is then cleaned by passing it through a vertically oriented treatment chamber defined between inner and outer chamber walls. The inner chamber wall includes a set of inner abrasive elements and the outer chamber wall includes a set of outer abrasive elements and a screen. One of the sets of abrasive elements is rotated with respect to the other and a gas is forced through the treatment chamber. In this way, a substantial fraction of any oats in the cereal grain is fragmented. The light fraction is aspirated after it is passed through the treatment chamber to clean the light fraction further.