Emergency ventilator Oxylog 3000 plus - Perfect Condition

Oxylog 3000 plus: A Versatile and Reliable Transport Ventilator

The Dräger Oxylog 3000 plus is a ventilation device designed to meet the critical needs of emergency and patient transport services. Combining advanced technology with a compact and robust design, it ensures optimal performance in challenging environments. With multiple ventilation modes, including volume-controlled and pressure-controlled ventilation, the Oxylog 3000 plus adapts to a variety of clinical situations, from neonatal to adult care.

One of the key features of the Oxylog 3000 plus is AutoFlow, which automatically adjusts the flow to maintain a target tidal volume, ensuring effective ventilation even with changes in the patient's lung compliance. Integrated capnography allows continuous monitoring of CO₂ levels, providing crucial information about the patient's ventilatory status. Additionally, non-invasive ventilation (NIV) is supported, offering a more comfortable treatment option for patients who do not require intubation.

The design of the Oxylog 3000 plus is optimized for easy and intuitive use, with an electroluminescent display that shows key information such as airway pressure, tidal volume, and CO₂ concentration. The device is powered by a lithium-ion battery, providing sufficient runtime for long-duration transports. Compatibility with various gas systems, including oxygen cylinders and pipeline systems, ensures maximum flexibility in different care environments.

The Oxylog 3000 plus is built to withstand extreme conditions, with an operating temperature range from -20°C to +50°C and resistance to varying atmospheric pressures. These features make it an ideal choice for emergency services operating in harsh environments. Additionally, the device complies with electromagnetic compatibility and airworthiness standards, ensuring optimal safety and reliability.

The Dräger Oxylog 3000 plus is a versatile and reliable transport ventilator, offering advanced features for optimal patient ventilation management in emergency situations. Its robust design, multiple ventilation modes, and monitoring capabilities make it an indispensable tool for healthcare professionals.

• Dimensions (W x H x D): 290 x 184 x 175 mm (without handle and protection bracket)
• Weight: Approximately 5.8 kg (including internal battery)
• Gas Supply: Medical oxygen, from a pipeline system or an O₂ cylinder
• O₂ Service Pressure: 270 kPa / 39 PSI to 600 kPa / 87 PSI at 100 L/min
• Gas Consumption for Internal Control: Average 0.5 L/min
• Ventilation Modes: VC-CMV, VC-AC, VC-SIMV, SpnCPAP, PC-SIMV+
• Additional Ventilation Settings: Pressure support, apnea ventilation, AutoFlow, NIV
• CPR Behavior: Pressure-limited, non-constant-volume ventilation during inspiration time when Pmax is reached
• Respiratory Rate: 2 to 60/min (VC-SIMV, PC-SIMV+), 5 to 60/min (VC-CMV, VC-AC), 12 to 60/min for apnea ventilation
• Tidal Volume (VT): 0.05 to 2.0 L; BTPS
• Inspiratory to Expiratory Time Ratio (I:E): 1:100 to 50:1
• Inspiration Time (Ti): 0.2 to 10 s
• PEEP/CPAP: +3 to +55 cmH₂O
• O₂ Concentration: 40 to 100%
• Trigger Sensitivity (Flow Trigger): 0 to 20 cmH₂O
• Pressure Support (ΔPsupp): 0 to 35 cmH₂O (relative to PEEP)
• Slope (Pressure Rise Time): Dampened, normal, accelerated
• Maximum Inspiratory Flow: 100 L/min at supply pressures >350 kPa / 51 PSI; 80 L/min at supply pressures <350 kPa / 51 PSI; 39 L/min at supply pressures <270 kPa / 39 PSI
• Display: Electroluminescence (EL), 240 x 128 pixels, visible area 108 x 56 mm
• Displayed Curves: Airway pressure curve, flow curve, CO₂ curve (optional)
• Electrical Supply: 24 V ± 6 VDC, 100 to 240 V~/ 50 to 60 Hz / 0.9 to 0.4 A⁻
• Battery: Lithium-ion, operating time approximately 9.5 hours (typical ventilation, without CO₂ sensor, reduced display brightness)
• Battery Charging Time: Approximately 4 hours