Product Information
TECHNICAL SPECIFICATIONS:
- Type : Vertical Laminar Air Flow Cabinet
- Constructions Material : Cold rolled steel cabinet epoxy powder coating (corrosion-resistant)
- Work surface : SS 304 (with rounded corners and spill-retaining recessed work area
- Side panel : Clear glass for enhanced visibility
- SashType : Front sliding sash
- Front Door : UV-resistant toughened glass (Min. 5 mm thick)
- Work Area Dimensions : 4 x 2 x 2 feet (WxHxD)
- Illumination : Fluorescent lighting (300 Lux)
- UV Lamp intensity : 40 µW/cm² (254 nm)
- Airlow velocity : 0.45 m/s (90 fpm)
- Display : Digital control panel displaying real-time airlow parameters
- HEPA ilter efficiency : 99.99% for particles 0.1–0.3 µm
- Blower Motor : Energy-ef icient DC motor-driven blower system
- Noise Level : Less than 55 dB(A)
- Safety Features : Audible and visual alarm
- Control Features : Minihelic pressure gauge, motor speed regulator, circuit breakers, switches for UV light, illumination, sockets, and blower.
- Mobility : Heavy-duty castor wheels (4 Nos.) with locking arrangement
- Accessories : Gas and air service ittings, 5A/15A electrical sockets, and User Manual
- Documentation : IQ/OQ/PQ, HEPA ilter integrity test, NABL-accredited calibration certificate
LAMINAR AIR FLOW (PSAW-56-03)
Salient Features:
- Recessed spill-retaining work area to contain accidental liquid spills.
- Side panels made of clear tempered glass for enhanced visibility and illumination.
- Sliding sash with counterbalance mechanism for smooth ingertip operation.
- Light source located outside the airlow path to avoid turbulence.
- UV lamp arrangement prevent direct exposure to the operator's eyes.
- Uniform airlow across the entire work zone.
- Separate controls for blower, lighting, UV lamp, and electrical outlets.
- Filter assembly complete with metal guards and leak-proof gasket sealing.
- Continuous-duty Blower operation suitable for laboratory use.
- Alarm feature for improper sash height; alarm/interlock for abnormal pressure conditions to prevent contamination escape.