Vacuum Pressure Impregnation Plant



Vacuum Pressure Impregnation (VPI) is a process that uses vacuum and pressure to seal porous materials with varnish or resin. The process is used primarily for high-voltage motors and generators to fill gaps in materials to create a void free insulation in various devices.

 

The Vacuum Pressure Impregnation Process

AR Engineering specializes in vacuum pressure impregnation, which is more effective than traditional dip-and-bake methods and is better suited to high voltage motors and generators. Our basic vacuum pressure impregnation motor repair process comprises several steps.

 

Preheating
We place the equipment in an oven that heats the equipment and allows moisture to evaporate. This helps the resin better penetrate the material.

 

Vacuum Drying
We remove the equipment from the oven and place it into a vacuum chamber, which removes air and any remaining moisture.

 

Filling
We fill the chamber with resin, coating the part and filling in all the gaps and pores in the piece of equipment.

 

Wet Vacuuming
We reduce the vacuum levels and hold it for a set period of time.

 

Pressure/Soaking
We increase pressure within the chamber using dry air, nitrogen, or other gases. This allows for even deeper penetration of the resin.

 

Draining
We then vent the pressure, drain the chamber of excess resin, and remove the part.

 

Curing
Finally, the equipment is placed into an oven to cure the resin.

 

Vacuum Pressure Impregnation Plant

Vacuum Pressure Impregnation (VPI) is a process that uses vacuum and pressure to seal porous materials with varnish or resin. The process is used primarily for high-voltage motors and generators to fill gaps in materials to create a void free insulation in various devices.

The Vacuum Pressure Impregnation Process

AR Engineering specializes in vacuum pressure impregnation, which is more effective than traditional dip-and-bake methods and is better suited to high voltage motors and generators. Our basic vacuum pressure impregnation motor repair process comprises several steps.

 

Preheating

We place the equipment in an oven that heats the equipment and allows moisture to evaporate. This helps the resin better penetrate the material.

 

Vacuum Drying

We remove the equipment from the oven and place it into a vacuum chamber, which removes air and any remaining moisture.

 

Filling

We fill the chamber with resin, coating the part and filling in all the gaps and pores in the piece of equipment.

 

Wet Vacuuming

We reduce the vacuum levels and hold it for a set period of time.

 

Pressure/Soaking

We increase pressure within the chamber using dry air, nitrogen, or other gases. This allows for even deeper penetration of the resin.

 

Draining

We then vent the pressure, drain the chamber of excess resin, and remove the part.

 

Curing

Finally, the equipment is placed into an oven to cure the resin.

 

Impregnation Types:

  • Varnish Impregnation
  • Oil Impregnation
  • Casting Impregnation

 

The Benefits of VPI

In traditional impregnation, varnishes can lose up to 50% of their volume in the curing process. The reduced volume leads to air pockets and gaps, making it more susceptible to damage and wear. The vacuum used in a VPI creates a more solid structure that can withstand:​

  • Leaks
  • Cracks
  • Corrosion
  • Moisture

 

VPI also accommodates longer insulation life and greater heat dissipation. Vacuum pressure impregnation is a more cost-effective solution as it extends the lifetime of products while saving energy.​


Specifications

Type Vacuum Pressure Impregnation Plants
Use Sealing Meterials
Weight 1000-2000kg
Color Black
Voltage 110V
Condition New




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