But here is the common pain point: An undersized ejector leads to dropped parts; an oversized one wastes massive amounts of compressed air.
$$t = \fracVQ_s \times \ln\left(\fracP_aP_a – P_v\right)$$ vacuum ejector calculation
Have a specific application? Drop the specs (part size, material, cycle time) in the comments, and we will run the numbers for you. But here is the common pain point: An
Vacuum technology is the silent workhorse of modern automation. From picking up a silicon wafer to lifting a heavy cardboard box, vacuum ejectors (also known as vacuum generators) are the devices making it happen. cycle time) in the comments