Hospital basket
Hospital basket has been defined during TRL1.
First drawings have been realized by Estaca Laval Student in 2012/2013
Two chirurgical unit on the back, regular medecine in front, crew rest area in the middle. Single Bed rooms and one four beds room
Bee-Plane Hospital Configuration: Transforming Aerial Medical Services with Detachable Fuselages
Revolutionizing the landscape of aerial medical services, the Bee-Plane project offers an aircraft with a detachable fuselage, akin in size to an Airbus A321. Capable of carrying 200/220 passengers and an overall load of 100 tons, the aircraft presents transformative potential for hospital applications.
Project Specifications: Connect-Plane Version Hôpital - Revision 1-1 –Jan. 21, 2012 Aircraft Capabilities Passenger Capacity: 20 PAX Patient Beds: 8+3 Surgical Units: 2 Radiology Suite: Included Crew Beds: 4 Space Allocation Front Storage Area (AV Zone de stockage): Dedicated space for storing essential medical equipment. Consultation and Radiology Suite (Salle de Consultation et radio AV): A designated area for patient consultation and radiology procedures. Crew Rest Area: 4 beds available for the medical crew to rest. Surgical Units (Bloc 1 & Bloc 2): Two full-fledged surgical units for emergency medical procedures. Rear Consultation and Preparation Room (Salle de consultation et de préparation AR): Additional space for patient consultation and pre-surgery preparation. Sanitary Facilities (WC, Douche): Fully-equipped restrooms and a shower area. Rear Storage Area (AR Zone de stockage): Additional storage for supplies and equipment. Supply Chain Management JIT Replenishment: A digitized supply chain must be maintained to ensure that essential medical supplies are replenished Just-In-Time, optimizing the aircraft's turnaround time.
Quality Control: All equipment and surgical units must meet ISO 13485 standards and undergo regular audits.
Logistics: Utilize a hub-and-spoke distribution model to ensure seamless integration with ground-based medical facilities.
Regulatory Compliance Medical Aircraft Certification: Acquire certification from appropriate aviation and medical regulatory bodies.
Digital Traceability: Implement digital systems to trace all components back to their origins for compliance with both aviation and healthcare standards.
Quality Audits: Set up an audit trail that synchronizes with digital supply chain systems.
Conclusion The Bee-Plane project, with its innovative detachable fuselage, offers an unprecedented opportunity to revolutionize aerial medical services. Through meticulous planning and precise execution, this could well be the future of emergency medical care, providing unparalleled capability to respond swiftly to diverse medical crises.
Next Steps Pilot Testing: Undertake real-world test scenarios for efficacy and efficiency evaluation.
Cost-Benefit Analysis: Conduct an in-depth financial assessment of the project, evaluating the ROI and long-term sustainability.
Collaboration: Forge partnerships with governmental agencies, hospital networks, and technology suppliers to execute the project successfully.
Visit www.bee-plane.com for more information under Lesser Open Bee License 1-3.
By pushing the boundaries of innovation and engineering, the Bee-Plane project could set a new standard in medical response services, proving invaluable in saving lives.