Application: | air conditioner |
---|---|
Nature of Source Flow: | Passive inverter |
Output Power: | >1000W |
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There are numerous applications in almost any industry where some form of plasma
treatment can be of benefit. Almost all international automotive manufacturers have used plasma
treatments for bonding headlight housings, seats, and even windshields since 1995 (15). Modern
aircraft construction even utilizes plasma treatment before any paint is applied to ensure it is of
the highest quality. Not to mention all of the instrument displays have a plasma coating to
prevent reflection (15).
All of the different plasma treatment systems have their specific benefits. Air plasma can
treat most types of plastics as well as some other materials with few limitations. Flame plasma is
a fast process due to the high temperatures; however it cannot treat as wide a variety of materials
for the same reason. Atmospheric chemical plasma is an incredible break-through because it
removes any previous limitations created by previous methods of surface treatment.
Within the packaging industry treatments have to be homogenous and consistent in every
way imaginable. Plasma facilitates a method of surface treatment so advanced that it does not
matter whether the process is to print on a glass bottle, a plastic grocery bag, or the side of an
airplane. Plasma technology has enabled us to create an optimum surface anywhere
Model |
PL-V1 |
PL-V2 |
PL-V3 |
Input power supply |
AC220V(±20%) |
AC220V(±20%) |
AC220V(±20%) |
Output power |
1000VA*1 |
1000VA*2 |
1000VA*3 |
Output frequency |
15-25KHZ |
15-25KHZ |
15-25KHZ |
Air supply pressure |
2-3bar |
2-3bar |
2-3bar |
Nozzle |
One head |
Two heads |
Three heads |
Treatment width |
6-10mm |
20mm |
30mm |
Weight |
60kgs |
90kgs |
120kgs |
Overall dimension(L×W×H) |
500*300*1000 |
500*300*1000 |
500*300*1000 |