In the current use of vacuum fixtures, as long as the tool is cooled with coolant, there is no way to avoid that the cutting fluid will be sucked into the vacuum fixture and then pumped into the vacuum pump. Therefore, a portable device that can realize the fully automatic separation of cutting fluid comes into being. By virtue of its unique working principle and excellent performance, the vacuum automatic liquid separator has stood out in many fields and become an important tool for improving work efficiency and safeguarding safety. In this article, we will discuss in depth the working principle, performance and wide range of application scenarios of the vacuum automatic liquid separator, and bring you a taste of the charm of this innovative technology.
Working Principle of Vacuum Automatic Cutting Fluid Separator
Vacuum Automatic Cutting Fluid Separator, as the name suggests, is a device that can automatically complete liquid discharge in a vacuum environment. Its core structure consists of cylinder separated into upper and lower chambers, head, gas-liquid inlet and outlet, internal and external liquid discharge valves, atmospheric switching valve, vacuum switching valve and liquid level meter and other precision components. Its workflow is subtle and efficient:
1. **Initial state**: At the beginning of work, the atmospheric switching valve is closed, the vacuum switching valve is open, and the liquid discharge port is also in a closed state to ensure that the vacuum state of the upper and lower chambers is the same. At this time, the liquid to be treated enters the upper chamber through the inlet port.
2. **Liquid entry and transfer**: With the rising liquid level in the upper chamber, the liquid is pushed by the vacuum and enters the lower chamber through the liquid discharge valve. In this process, the vacuum state ensures the liquid transfer without leakage and improves the overall efficiency of the system.
3. **Automatic liquid discharge**: When the liquid level in the lower chamber reaches the set maximum point A, the atmospheric switching valve automatically opens and the vacuum switching valve closes. At this time, the upper chamber continues to maintain the vacuum state, while the lower chamber is connected to the atmosphere. Under the action of gravity, the liquid in the lower chamber is quickly discharged through the discharge port.
4. **Cycle restart**: As the liquid level in the lower chamber drops, when it reaches the set minimum point B, the atmospheric switching valve closes again, the vacuum switching valve re-opens, the liquid discharge port is also closed, and the whole system enters the next working cycle.
Performance: Efficient, safe and stable.
Vacuum Automatic Cutting Fluid Separator has won wide recognition in the market for its excellent working performance. Its high efficiency is reflected in its high degree of automation, easy operation and fast processing speed. Whether it is continuous production or intermittent operation, it can ensure the fast and accurate discharge of liquid, which greatly improves the working efficiency. At the same time, the operation under vacuum environment effectively avoids liquid splash and leakage, which guarantees the safety and hygiene of the production site.
In addition, the Vacuum Automatic Cutting Fluid Separator offers a high degree of stability and reliability. Its precise design and high-quality materials ensure the stable operation of the equipment during long-term use, which reduces the possibility of malfunction and lowers the maintenance cost. For enterprises pursuing efficient, safe and stable production, vacuum automatic liquid discharger is undoubtedly the ideal choice.
Vacuum pump
