50%-60% of potassium feldspar mining is used as raw material for the glass industry, and 30% is used to make ceramics. The pulverizer plays an important role in the ore processing of potassium feldspar, which directly affects the use of stone powder in various industries in the later period.
The application industry of potassium feldspar powder does not require very high fineness, and it is generally below 400 mesh. According to the normal production process of crushing - grinding - grading - dehydration - stone powder, the material standard can be reached.

Potassium feldspar mill is an important equipment for grinding and processing potassium feldspar using industrial mill technology. In addition to potassium feldspar, the potassium feldspar mill can also process calcite, barite, dolomite, talc and other metal ores with Mohs hardness not greater than 9 and non-metallic ores with adjustable fineness.  

The performance advantages of potassium feldspar mill

1. Strong systematicness and high screening rate
The whole machine is a three-dimensional structure, with a small footprint and strong systemicity. It can be an independent production system from rough processing of raw materials to transportation to milling and final packaging. The fineness of the finished powder is uniform, and the sieving rate is as high as 99%. 2. Smooth transmission and high wear resistance
The transmission device of the machine adopts a closed gear box and pulley, and the transmission is stable and the operation is reliable. The core components are made of high-performance wear-resistant materials, which have high wear resistance and save costs. 3. Easy to control and easy to maintain
Using the centralized control electrical system, the workshop can basically realize unmanned operation. The electromagnetic vibrating feeder is used for feeding, which is continuous and uniform, easy to adjust, saves fuel and electricity, and is easy to maintain.

 

The working principle of potassium feldspar mill

Limestone is calcined to form massive potassium feldspar, which is put into fine crushing equipment. After crushing, it enters the storage silo through the bucket elevator, and then is transported to the main machine of the mill through the electromagnetic vibrating feeder for grinding. Driven by high-pressure airflow, the products after grinding are sorted by the powder separator. Qualified finished powder will be sent to the powder collector through the pipeline for collection, and the unqualified powder will be beaten back for regrinding.