Low Temperature Plasma Cleaner Price - Plasma Treatment Equipment for LED Packaging PT-DW30
Model
PL-DW30
PL-DW60
PL-DW80
Cavity Material
316 Stainless Steel Surface Treatment
Cavity dimensions
300 ×335×300mm
L×W×H
350 ×430×400mm
L×W×H
400 ×450×450mm
L×W×H
Chamber Capacity
30L
60L
80L
Dimensions
700×650×1200mm
L×W×H
750×700×1250mm
L×W×H
800 ×750×1400mm
L×W×H
Power Frequency
13.56MHz (Automatic Matching Integrated)
Power Rating
0-500W (continuously adjustable)
0-600W (Continuous adjustable)
0-800W (Continuous Variable)
Flow meter
Ultra-high 4-way electronic flow meter
Vacuum Gauge
High-vacuum gauge with real-time display
Control Process
Fully Automatic Control and Manual (PLC Human-Machine Interface)
Cleaning Time
0- 99,999S adjustable
Vacuum level
1-30pa
Chamber Temperature
<30℃
Supply Voltage
380V
Vacuum Pump
BSV30 (Flow Rate 10 L/S)
BSV40 (Flow Rate 13 L/S)
BSV60 (Flow Rate 20 L/S)
After plasma cleaning, the items are dry and do not require additional drying before being sent to the next process. This can improve the overall efficiency of the production line.
II. Plasma cleaning allows users to stay away from the harm of toxic solvents to the human body, and also avoids the problem of easily damaging the cleaning object during wet cleaning; III. By avoiding the use of harmful solvents like trichloroethane (ODS), there are no harmful pollutants produced after cleaning, making this cleaning method an environmentally friendly green cleaning method. Its importance is increasingly evident in the global focus on environmental protection.
Four, the plasma generated by high-frequency radio waves is different from direct light such as lasers. The plasma has weak directional properties, allowing it to penetrate into the fine pores and recesses of objects to perform cleaning tasks, thus, the shape of the object being cleaned is not a major concern. Moreover, the cleaning effect on these difficult-to-clean areas is similar to, if not better than, that of Freon cleaning.
Five, using plasma cleaning can enhance the cleaning efficiency. The entire cleaning process can be completed within a few minutes.
Six, plasma cleaning requires a vacuum level of approximately 100 Pa, which is easily achievable. Thus, the equipment cost for this device is low, and since it does not require expensive organic solvents during the cleaning process, the overall cost is significantly lower than traditional wet cleaning methods.
Seven, plasma cleaning is used, avoiding the handling measures for the transportation, storage, and discharge of cleaning solutions, thus making it easy to maintain cleanliness and hygiene at the production site.
Eight, Plasma cleaning can be applied to a wide range of materials without discrimination, including metals, semiconductors, oxides, and high polymers such as polypropylene, polyvinyl chloride, polytetrafluoroethylene, polyimide, polyester, and epoxy resins. It is particularly suitable for materials that are not heat-resistant or solvent-resistant. Additionally, it allows for selective partial cleaning of materials, whether it's the entire piece, specific areas, or complex structures.
IX. While completing the cleaning and stain removal, it also enhances the material's surface properties, such as improving the surface wetting performance and the film's adhesion, which is crucial in many applications.
