Ink Pump Application in UV Printers | Functions & Maintenance
Functions of the Ink Pump
Ink Supply: The ink pump transfers ink from the main ink tank to the printhead, ensuring continuous and stable ink delivery.
Pressure Control: By regulating pressure, the pump maintains proper ink supply pressure in the system, preventing ink starvation or overpressure that could cause inconsistent jetting.
Ink Circulation: Some UV printers adopt an ink circulation system, where the ink pump keeps ink moving to prevent sedimentation and clogging.
Cleaning Function: During printhead cleaning, the ink pump operates in reverse to draw out cleaning solution or ink, helping to unclog nozzles.
Why Do UV Printers Require Specialized Ink Pumps?
UV inks differ from standard water-based inks because they contain more complex chemical components and are mildly corrosive. Therefore, UV printer ink pumps must have the following features:
Corrosion Resistance: Pump housings and diaphragms must be made of acid-, alkali-, and solvent-resistant engineering plastics or rubber to prevent aging from long-term UV ink contact.
Stable Ink Supply: The pump must consistently draw ink from the tank into the sub-tank while maintaining negative pressure inside the printhead to prevent leaks or ink starvation.
Pressure & Flow: Pumps should be selected according to the number of printheads and ink system design to ensure stable supply.
Reliability: High-quality motors (brushed or brushless) are preferred; brushless motors offer longer service life and more stable performance.
Common Types of Ink Pumps in UV Printers
1. Diaphragm Pump
Structure: Operates through the reciprocating motion of a diaphragm to generate negative/positive pressure that drives ink flow.
Features: No sliding seals, low leakage risk.
Advantages: Can handle liquids with particles or higher viscosity, suitable for UV inks.
Applications: Commonly used in ink extraction and cleaning cycles in some UV printers.
2. Vacuum Pump / Air Pump
Structure: Driven by a motor with blades or diaphragms to evacuate air from the ink path or printhead chamber, forming a stable negative-pressure environment.
Features: Capable of continuous operation with controllable negative pressure; maintains stable negative pressure required for printhead operation.
Advantages:
Ensures stable ink supply, preventing leakage or dripping.
Assists with printhead cleaning by extracting ink or cleaning solution.
Simple structure, easy maintenance, long service life.
Applications: Widely used in UV printers for negative-pressure ink supply systems to keep printheads stable; also applied in printhead cleaning and ink extraction.
Working Principle (Taking a Diaphragm Pump as Example)
Ink Suction Phase: The motor drives the eccentric wheel, pulling the diaphragm backward. Pressure inside the pump chamber decreases, forming negative pressure. The inlet valve opens, and ink is drawn into the chamber.
Ink Pressurization Phase: As the motor continues to rotate, the diaphragm moves forward, increasing chamber pressure. The outlet valve opens, pushing ink toward the sub-tank or cleaning system.
Continuous Cycle: The diaphragm’s repetitive motion creates a stable “suction–discharge” cycle, ensuring continuous ink pumping and circulation.
Ink Pump Maintenance & Care
Regular Cleaning: When the printer is idle for long periods, use dedicated cleaning solution to flush the ink path and prevent ink residue solidification inside the pump.
Avoid Dry Running: Running without ink can damage the diaphragm or motor, shortening pump life.
Check Tubing: Regularly inspect pump tubing for aging, leaks, or blockages.
Use Cleaning Solution Properly: Use the manufacturer-recommended cleaning fluid to avoid corrosion of the pump body or reduced performance.