Design and Cutting Technology of Grinding Pump

  • This article is written by Chenyangpump, a professional pump manufacturer. The article mainly introduces the design and cutting technology of the Grinding Pump. I hope it can help you better understand Grinding Pump.

    Introduction to Grinding Pump

    The Grinding Pump includes a cutting mechanism that cuts harder solids into smaller pieces, creating a slurry that is easier to pass through the pipe. Because the conveying medium is ground or cuts relatively finely, it can be pumped to a higher height than the general sewage pump. For this reason, Grinding Pumps tend to use more power and are more expensive.

    A key feature of Grinding Pumps is their cutting mechanism, which tends to come in two forms: axial and radial. The radial cutting mechanism is a more traditional cutter type, and the axial is the newer cutting-edge technology.

    Grinding Pump Design

    A floating system is the most common way to start and stop a pump. When the sewage reaches a specified level in the wet well, the pump starts. After evacuation to the desired level, the pump is turned off. Some Grinding Pumps are designed so that when the pump is turned off, all of the cut debris remains inside the dip ring. 

    Pump

    When the pump was turned back on, the unit had to fight against the rags being pulled into the pump. These units are more likely to be blocked. Additionally, the extra pressure on the Grinding Pump and motor may require additional maintenance or shortened life. Instead of constant contact with the waste, the Grinding Pump's rotating and stationary cutters provide only two points of contact. The first set of knives is located outside the pump, below the impeller. Therefore, when the Grinding Pump is closed, the debris falls off the cutter, rather than being pulled halfway through the pump. When the Grinding Pump restarted, no debris remained in the pump.

    The durability of the Grinding Pump

    Sewage often contains sand and grit, which can cause the Grinding Pump to wear and increase the tolerance between the suction cover and the impeller. The use of high-quality materials ensures the durability of Grinding Pump knives.

    Grinding Pump Cutting Technology

    Fragments should be cut down to approximately 5 mm (approx. 0.2 in) before being discharged into the input tube. The expelled debris needs to easily pass through a 10 cm diameter pipe. If the debris field is too fine, the solids will settle in the main line. Some Grinding Pumps impregnate the waste to an acceptable size.

    The dip ring consists of a number of teeth on the outer diameter of the rotating element. Unfortunately, the grooves between the teeth fill with debris, reducing the effectiveness of the Grinding Pump and eventually clogging. Additionally, these units require periodic adjustments to ensure cutting tolerances are maintained. Breaking the crumbs into small pieces is more effective than grinding or chewing. A grinding Pump with a double-acting cutting system is required. Because the close tolerance of the tool prevents larger items (such as 2×4) from entering the pump. However, the cutter will "bite" out of a large rag until it can fit through the pump.

    The above is the whole content of the design and cutting technology of the Grinding Pump brought to you by Chenyangpump, the manufacturer of the Grinding Pump. I hope it will be helpful for you to know about Grinding Pump. See you in the next issue.