Labzee Digital Cooling Incubator BZDL-504 offers a spacious 250-liter chamber, and a precise temperature range from 0°C to 60°C. It is equipped with a high-quality imported compressor and a PID controller with 0.1°C resolution, ensuring ±0.5°C heating stability, ±1°C cooling stability, and ±1°C temperature uniformity. The double-door design includes a tempered glass inner door for clear viewing and a magnetic-sealed outer door for secure insulation. Its advanced digital interface enables accurate parameter control and continuous real-time monitoring. Our Digital Cooling Incubator BZDL-504 is ideal for laboratory applications that demand precise thermal stability and a contamination-free incubation environment.
| Chamber Volume | 250L |
| Temperature Range | 0 to 60℃ |
| Display Resolution | 0.1 ℃ |
| Heating Temperature Stability | ±0.5℃ |
| Cooling Temperature Stability | ±1℃ |
| Temperature Uniformity | ±1℃ |
| Timing Range | 1 to 9999min |
| Refrigerant | R134a |
| Power Supply | AC 220V, 50Hz |
| Power Consumption | 350W |
| Chamber Size (W×D×H) | 48×49×107 cm |
| Exterior Size (W×D×H) | 62×70×159 cm |
| Package Size (W×D×H) | 78×84×178 cm |
| Net Weight | 103 Kg |
| Gross Weight | 147 Kg |
3 Grids (Expandable to 16)
Labzee Digital Cooling incubator BZDL-504 is ideal for applications requiring reliable, repeatable incubation under high ambient temperature conditions, such as research, diagnostics, quality control, and testing laboratories.
Frequently Asked Questions
1: What temperature control capabilities does the BZDL-504 offer?
The Digital Cooling Incubator BZDL-504 provides precise temperature regulation from refrigeration to incubation conditions (0°C to 60°C) with laboratory-grade accuracy. Its advanced PID control system maintains temperature stability within ±0.5°C for heating and ±1°C for cooling operations, ensuring reliable performance for sensitive applications.
2: How does the forced convection system work
A high-performance fan continuously circulates air throughout the 250L chamber, creating uniform temperature distribution (±1°C variation) across all shelf levels. This active airflow system prevents hot or cold spots that could compromise experimental results.
3: What materials are used in construction?
The interior features medical-grade 304 stainless steel with polished surfaces for easy cleaning and contamination resistance. The exterior utilizes powder-coated steel panels that resist corrosion and maintain a professional laboratory appearance.
4: What safety redundancies are built into the system?
Dual protection systems include an automatic shutoff for gas leaks and a backup mechanical thermostat that activates if electronic controls fail during heating cycles. The double-door design with magnetic seals provides additional thermal protection.
5: What data recording capabilities are included?
Standard RS485 connectivity enables temperature logging and export to computers for GMP documentation. Optional built-in printers are available for immediate hardcopy records of incubation parameters.
6: How energy efficient is Digital Cooling Incubator BZDL-504?
The 350W system uses R134a refrigerant and optimized insulation to minimize power consumption. Energy-saving features include automatic door sensors that reduce fan speed when opened.
7: How quickly can the incubator recover temperature after door opening?
The combination of forced air circulation and high-performance compressor allows the BZDL-504 to recover 90% of set temperature within 5-7 minutes after door closure, with full stabilization achieved in under 10 minutes - significantly faster than conventional incubators.
8: What are Labzee Digital Cooling Incubators used for in laboratories?
Labzee Digital Cooling Incubators are designed to maintain low and stable temperatures, making them ideal for cultivating microorganisms, storing reagents, and preserving temperature-sensitive biological samples such as enzymes, vaccines, and plant tissue cultures.
9: How do Labzee Digital Cooling Incubators differ from standard incubators?
Unlike standard incubators that typically provide only heating, Labzee Digital Cooling Incubators offer both heating and refrigeration. This enables precise control over a wider temperature range—often from -10°C to 75°C—making them suitable for experiments requiring sub-ambient conditions.
10: What is the typical temperature range of Labzee Digital Cooling Incubators?
Most Labzee Digital Cooling Incubators offer a temperature range from approximately -10°C to +75°C, supporting both cooling and warming cycles for a wide variety of laboratory applications.
11: Which lab applications require Labzee Digital Cooling Incubators?
Labzee Digital Cooling Incubators are used in microbiology, molecular biology, pharmaceutical testing, food safety, and environmental studies. They’re essential for low-temperature incubation, stability testing, and shelf-life assessments.
12: Can Labzee Digital Cooling Incubators maintain temperature stability over long periods?
Yes, Labzee incubators ensure long-term temperature stability with typical precision of ±0.5°C and uniformity across the chamber, providing consistent and reliable conditions for sensitive experiments.
13: Do Labzee Digital Cooling Incubators come with digital or programmable controls?
Yes, all Labzee Digital Cooling Incubators feature intuitive microprocessor-based digital control panels with programmable temperature settings, alarms, timers, and data logging for precise operation and regulatory compliance.
14: What chamber capacities are available in Labzee Digital Cooling Incubators?
Labzee offers a wide range of chamber sizes, from compact 80-liter models to high-capacity units exceeding 1600 litres—suitable for routine lab work as well as large-scale research and production needs.
15: Is forced air circulation important in Labzee Digital Cooling Incubators?
Labzee Digital Cooling Incubators use forced air circulation to ensure uniform temperature distribution and rapid recovery after door openings—critical for sample protection and accurate testing.
