50L Automatic Vertical Autoclave ZXD-AV50-IV with LED display
Features:
- Built with a fully stainless steel body for long-term reliability
and easy cleaning.
- Equipped with an intuitive LED panel and touch controls for simple
operation.
- Automated processes for air removal and final steam venting ensure
consistent results.
- Cycle completion is signaled by an automatic beep and power-off
function.
- Designed for safety with multiple protection systems and fail-safe
mechanisms.
- Comes with two durable sterilization baskets to maximize load
capacity.
- Microcomputer-controlled heating ensures precise temperature
management.
- Perfect for clinics and research labs requiring dependable
instrument sterilization.
Specification:
| Model | ZXD-AV50-IV |
| Chamber volume | 50L(φ340*550)mm |
| working pressure | 0.22MPa |
| Working temperature | 134℃ |
| Max working pressure | 0.23 Mpa |
| Heat average | ≤±1℃ |
| Timer | 0~99min or 0~99hour59min |
| Adjustment of temperature | 105~134℃ |
| Power | 3Kw,AC220V/50Hz |
| Overall dimension | 520*520*980(mm) |
| Transport dimension | 590*590*1110(mm) |
| G.W/N.W | 68Kg/50Kg |
Introduction about autoclave
An autoclave is a critical sterilization device that operates on
the principle of moist heat under pressure. It functions as a
sealed chamber where water is boiled to produce saturated steam. By
containing this steam under pressure (e.g., 15-30 psi), its
temperature is elevated to standardized levels like 121°C (250°F).
This environment is maintained for a specific duration to ensure
microbial death through protein coagulation. The cycle is
meticulously designed: air is first removed, steam then penetrates
the load, and finally pressure is released and items are dried. Its
utility spans healthcare (surgical tools), dentistry (instruments),
and laboratories (glassware, media, biohazard waste). Industrial
applications include rubber curing and crystal growth.
The autoclave is superior to many alternatives because saturated
steam provides faster and more uniform heat distribution than dry
air. This allows for effective sterilization at lower temperatures
than dry heat requires. Its broad-spectrum efficacy eliminates all
microorganisms, including spores, and its ability to penetrate
porous materials and complex instruments makes it uniquely capable
of ensuring complete sterility for a diverse range of loads.
