1) Always double-check that every connection is secure and functioning properly. If you notice anything unusual, contact maintenance staff immediately to avoid any potential issues.
2) Regularly inspect key components like bearings and piston rods, ensuring all moving parts remain clean and well-lubricated for smooth operation.
3) Test the electrical control system periodically for both insulation and reliability. Should any electrical components show signs of reduced accuracy or stiffness, repair or replace them as soon as possible.
4) Maintenance of the hydraulic system primarily focuses on checking and maintaining the seals of hydraulic components and connections.
5) Frequently inspect the sealing surfaces of the filter plates to ensure they are smooth and free of debris. Before pressing, carefully examine the filter cloth to confirm there are no folds, damages, or foreign materials, ensuring it remains flat and intact for optimal filtering performance. Rinse the filter cloth often to maintain its effectiveness.
6) If the filter press is not going to be used for an extended period, clean the filter plates thoroughly, arrange them neatly on the press frame, apply pressure of 1~5MP, clean the filter cloth, let it dry, and coat the exposed parts of the piston with butter.
7) Use hydraulic oil of grade HM46 or HM68, keeping it clean at all times. When operating a new machine, change the oil weekly. During oil changes, ensure all hydraulic filters and tanks are emptied thoroughly. Replace the oil monthly after initial use and consider doing so every three months thereafter to ensure the proper functioning of the filter.
The oil filter operates by drawing oil into a strong magnetic filter under atmospheric and vacuum pressure, removing large impurities. The oil then heats up via a heater and passes through a multi-stage coalescing water separator. The water separator uses advanced oil-loving and water-hating technology to enhance the interaction between oil and water. Small water droplets coalesce into larger ones, separating from the oil and settling in a water reservoir. The purified oil enters a three-dimensional vacuum flash tower where a spray device increases the oil's exposure to air, enhancing the separation of oil and gas. Trace amounts of water and gas are removed during this process.
The evaporated water vapor, light hydrocarbons, and other gases go through a powerful air condenser. Water vapor and condensable gases are condensed, while non-condensable gases move to the vacuum buffer chamber. Cooled water exits through a drainage system, and non-condensable gases are expelled via a Vacuum pump. Particulate impurities are pumped back into the oil and sent through a precision filter, resulting in clean, purified oil, completing the filtration cycle.
The micro peristaltic pump is suitable for many general fields such as laboratories, pharmaceutical industry, fine chemicals, water treatment, environmental protection engineering, food and beverage production dosage additives, acid supplementation and alkali defoaming in technological fermentation systems, scientific experiments, etc. The mini peristaltic pump is pollution-free, the liquid only touches the pump tube, the transmission accuracy is high, and it is easy to clean. It can work again only by replacing the pump tube.
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Changzhou Yuanwang Fluid Technology Co., Ltd. , https://www.ywfluid.com