To gauge the flow rate of liquids, gases, and slurries, metering pumps are employed in a wide range of industries. They are also utilized in chemical, refinery, and mining operations. The configuration of a metering pump in double beam non woven making machine will be covered in this article.
What is a metering pump?
A tool used to regulate the flow of liquids or gases is a metering pump. It can be applied to pipeline, filtration, and liquid and gas systems.
What are the different types of metering pumps?
There are several different kinds of metering pumps on the market today. Before making a purchase, it's critical to know what you're looking for because each one has different advantages and disadvantages. The many kinds of metering pumps are as follows:
1. Pumps that employ a diaphragm to transfer fluid through them are known as fluid displacement or diaphragm pumps. These are the most used type of metering pump. They don't provide the highest performance, but they are inexpensive and simple to use.
2. Pumps that are spring-loaded or cam-driven: These pumps use a spring to force fluid through the non woven machine and perform better than displacement pumps. Although they are more expensive, they are also more robust.
3. The performance of pulsating or rotary metering pumps is superior to other types of metering pumps because they use a rotor to circulate the fluid through the pump. Despite being expensive, they provide reliable readings because of their precise processes.
How to configure a metering pump in double beam nonwoven equipment.
It's crucial to adhere to the instructions specifically for your machine when installing a metering pump in double beam non woven fabric machine. Here are some general pointers to get you going:
1. Put the pump in a spot where it won't be obstructed by other parts.
2. Make that the pump is connected to power and has the right wiring.
3. By monitoring the discharge from the outlet port, you may determine the pump's flow rate.
4. Utilize the pump's proper valve control to alter the flow rate.