Molecular pump application energy - saving lamp production technology
The application of molecular pump in the manufacture of energy saving lamp round platoon car instead of roots pump has been proved to be effective by experiments. In this way, it can promote the application of molecular pump in lighting industry, improve production efficiency, reduce energy consumption and manufacturing cost, and guarantee product quality.
Today's rapid economic development has brought huge energy consumption and threats to the living environment of human beings. Increasing efficiency and reducing consumption, energy conservation and emission reduction are urgent global issues for environmental protection. The application of molecular pump, replacing diffusion pump or roots pump on many occasions, has achieved a good effect of energy saving and consumption reduction.
At present, in the production of energy-saving lamps in enterprises, most of the round machine automatic line, high production efficiency, product quality consistency. However, the general configuration of the circulator adopts the direct-connected vacuum pump and the roots vacuum pump as the unit, which brings new problems. Student: it makes a lot of noise; So, theta takes up a lot of space. Therefore, all lighting equipment enterprises and lighting manufacturers are actively looking for new technology and new methods to improve these conditions. A molecular pump unit is used to replace the roots pump unit.
Molecular pumpin China to adopt whole rotor machining process, greatly improves the overall strength of the rotor, and greatly reduces the move between different levels of gas reflux, faster to get a better vacuum performance; The clever cavity design in the center of the rotor greatly reduces the chance of the foreign body falling into the pump causing damage. The above characteristics enable the molecular pump to operate in a severe environment, such as large airflow impact or foreign matter (broken glass) falling in; Meanwhile, it has the advantages of low noise, low energy consumption, small footprint, low maintenance cost, high vacuum degree, high pumping speed and no oil pollution. Preliminary test results show that the design meets the requirements.