With the development of science and technology, people's practical requirements for mechanical equipment are getting higher and higher, including the operation of the device. Too locking operations are easy to cause equipment failure due to improper operation, so the simple operation of the fluidized bed gas crusher has become one of the standards for testing it. This article focuses on the booting and organ methods of the fluidized bed air flow crusher, hoping to help everyone more directly.
If you want to quickly start a new fluidized bed airflow crusher, we need to understand some of the operations and functions of this device, so that we can we In order to achieve the effect we want, only when we know it can we use it. Before understanding the operation of the operation, we must know how to turn on and shut down. Let's take a look. Power: (1) Start the motor first to control the current and time when the startup is started, so that the device can start to run. When the device is running normally, the amount of feeding is started. The amount of feeding can be adjusted appropriately according to the nature of the material. (2) Uniform and continuous feeding should be achieved, which cannot be overlooked, which will affect the separation effect of the crusher, and it is also easy to cause the machine to fail. Stop and check: (1) Stop feeding. After the materials in the crushing machine case are crushed and separated, the motor is turned off. Let the machine run empty for 3 minutes, then press the stop button to stop the machine. (2) After the machine stops completely, open the inspection door and check the wear of the loss of the loss. (3) Fill in the corresponding production records and update the equipment status logo to prepare for the next driving. In addition to the extensive use of industrialization, fluidized bed gas crushing machines are also very important in the field of food equipment. The quality of fluidized bed air flow crusher directly affects the effect of the product. Under the influence of high -speed airflow, the material obtains huge kinetic energy, which causes high -speed collision and severe friction between the material particles in the crushed room. At the same time, the high -speed airflow has shear the material to achieve the purpose of crushing the material. The application of this technology is almost all over all fine processing industries, such as chemical, medicine, food, plastics, mining, metal materials, etc., occupying a special status in many specific powder fields.