A 500kg n n mixer with high encapsulation and mixing performance is a mechanical device that uses mechanical force and gravity to mix two or more materials. It is widely used in the mixing of chemical, ceramic powders, pesticides, dyes, food, feed, building materials, rare earths and other materials. Commonly used mixers are divided into four categories: gas and low viscosity liquid mixers, medium high viscosity liquid and paste mixers, and powder and granular solid material mixers.
High coating mixing performance mixer 500kg
A mixer is a mechanical device that uses mechanical force and gravity to mix two or more materials. It is widely used in the mixing of chemical, ceramic powders, pesticides, dyes, food, feed, building materials, rare earths and other materials. Commonly used mixers are divided into four categories: gas and low viscosity liquid mixers, medium high viscosity liquid and paste mixers, and powder and granular solid material mixers.
The mixers on the current market do not have high coating mixing performance, and most mixers only have one mixing shaft, which often cannot fully stir the materials and often causes bottom settling. Moreover, the materials heated at high temperatures cannot be immediately cooled, which makes it difficult to collect the materials immediately. Therefore, we have made improvements and proposed a mixer with high coating mixing performance.
To address the drawbacks of uneven mixing and lack of high coating mixing performance in existing technology, this utility model provides a mixer with high coating mixing performance.
The utility model relates to a mixer with high encapsulation mixing performance, comprising a conical hopper and a seat plate. The top of the conical hopper is equipped with a motor, and the output end of the motor is connected to one end of a rotating shaft for transmission. The rotating shaft is placed inside the conical hopper, and the surface of the rotating shaft is provided with several corresponding stirring blades. The top of both sides of the conical hopper is respectively provided with a feeding pipeline and a second feeding pipeline. The bottom of both sides of the conical hopper is equipped with a second motor, and the output ends of the two second motors are connected to one end of the second rotating shaft for transmission. The second rotating shaft is placed inside the conical hopper, and the second rotating shaft is installed inside the conical hopper. The surface of the shaft is equipped with several corresponding second stirring blades, The discharge port of the conical hopper is connected to the feed port of the cooling chamber through a pipeline, and a butterfly valve is installed on the pipeline. A blower is embedded in one side wall of the cooling chamber, and a second butterfly valve is installed at the discharge port of the cooling chamber. Heating plates are installed on both sides of the inner wall of the conical hopper. The middle parts of the two sides of the conical hopper are fixedly connected to the two sides of the top of the seat plate through a fixed rod. One side of the seat plate is provided with a material collection groove, and the middle part of the top of the material collection groove is provided with a through hole. One side of the seat plate is provided with a control panel, which is respectively equipped with a blower control button, a heating plate control button, a motor control button, and a second motor control button. Button, the hair dryer, heating plate, first motor, and second motor are respectively controlled by the hair dryer control button, heating plate control button The first motor control button and the second motor control button are electrically connected to an external power source.