Essential details
Shipping:Ocean freight
Product Introduction
Introduction to the air flow mixer produced by Jiangyin Haoya Machinery Manufacturing Co., LTD.
1. Structural design
It is composed of a gas transmission device, a mixing device and a steel platform. The mixing device is on a steel platform, and the gas transmission device is connected to the mixing device through gas transmission pipelines. The mixing device includes a mixing chamber with a top-mounted dust collector and a manual feeding port at the top, and an air inlet ring pipe connected to the gas injection device at the bottom. The inner surfaces of the mixing chamber and related components are lined with inner linings to prevent material contamination.
2. Working Principle
The gas delivery device provides compressed air, which is processed and then enters the air injection device through the air intake ring pipe. It is sprayed into the mixing chamber in a pulse circulation manner from the nozzle, forming a fluidized mixing state of the material. After several pulse blowing and pause intervals, uniform mixing is achieved. The consumed compressed air is sucked and discharged under negative pressure through the environmental dust collector and fine particles are recovered.
3. Performance advantages
a. Good mixing effect: Gas mixing is adopted, with high uniformity, no pollution to the powder, and no change to the particle morphology.
b. High efficiency: The structure is simple and compact, operation is convenient, and the work is stable. Compared with mechanical mixers, it can complete tasks in a shorter time.
c. Long service life: With inner lining and no mechanical rotating parts, it has low wear, no risk of powder entering the seal or bearing seizing, and no need for mechanical repair and maintenance, reducing maintenance costs.
d. Environmental protection and safety: Sealed mixing, no dust leakage, meeting relevant safety standards.
4. Application fields
It is mainly used for the mixing of powder materials of electronic substrates and is suitable for the production process of powder mixing of electronic substrates, especially in situations where there is a high requirement for preventing iron and nickel element contamination in the powder mixing of magnetic materials. It is also widely applied in industries such as ceramics, pigments, medicine, agrochemicals, food, fertilizers, and building materials
1. Structural design
It is composed of a gas transmission device, a mixing device and a steel platform. The mixing device is on a steel platform, and the gas transmission device is connected to the mixing device through gas transmission pipelines. The mixing device includes a mixing chamber with a top-mounted dust collector and a manual feeding port at the top, and an air inlet ring pipe connected to the gas injection device at the bottom. The inner surfaces of the mixing chamber and related components are lined with inner linings to prevent material contamination.
2. Working Principle
The gas delivery device provides compressed air, which is processed and then enters the air injection device through the air intake ring pipe. It is sprayed into the mixing chamber in a pulse circulation manner from the nozzle, forming a fluidized mixing state of the material. After several pulse blowing and pause intervals, uniform mixing is achieved. The consumed compressed air is sucked and discharged under negative pressure through the environmental dust collector and fine particles are recovered.
3. Performance advantages
a. Good mixing effect: Gas mixing is adopted, with high uniformity, no pollution to the powder, and no change to the particle morphology.
b. High efficiency: The structure is simple and compact, operation is convenient, and the work is stable. Compared with mechanical mixers, it can complete tasks in a shorter time.
c. Long service life: With inner lining and no mechanical rotating parts, it has low wear, no risk of powder entering the seal or bearing seizing, and no need for mechanical repair and maintenance, reducing maintenance costs.
d. Environmental protection and safety: Sealed mixing, no dust leakage, meeting relevant safety standards.
4. Application fields
It is mainly used for the mixing of powder materials of electronic substrates and is suitable for the production process of powder mixing of electronic substrates, especially in situations where there is a high requirement for preventing iron and nickel element contamination in the powder mixing of magnetic materials. It is also widely applied in industries such as ceramics, pigments, medicine, agrochemicals, food, fertilizers, and building materials