Mercedes Box Type
Ambulance Specification
The Mercedes Box Type Ambulance Specification was designed to provide more interior space for the rescued patient. Doctors frequently require a large amount of space to treat their patients. The box is assembled on a Mercedes chassis and it is made up of lightweight polyurethane panels with high strength and great insulation, which successfully minimizes heat, cold, and noise transfer.
About Mercedes Box Type Ambulance Specification
Mercedes Box Type Ambulance Specification
The framework of the box is constructed of ST-37 steel profiles which are welded precisely and securely to the car’s chassis, ensuring that any future disassembly and repair may be done easily and without problems. Stone-wool insulating material is inserted into the framework gaps to effectively protect its interior against external heat, cold, and noise transmission from the ground, consequently keeping a steady and comfortable interior temperature.
The cabinets and drawers in the internal areas are made of Vekaplan S free-foam material, which is highlighted for its exceptional lightweight qualities and excellent durability. This careful material selection was done with the primary goal of lowering the weight of the box with the objective to ensure that it has no affect on the vehicle’s acceleration. As a way to improve the overall aesthetics and practicality of the cabinets, polymer glass panels have been featured into the design.
DESIGNATION | CARACTERISTICS | |
---|---|---|
Type I | Box | |
Brand | Mercedes Sprinter 317 Chassis L2 RWD | |
Fuel | Diesel | |
Transmission | Manual | |
Cylinder Arrangement | 4cyl 16v | |
Gear Box | ||
Wheelbase length | 3,924mm | |
Length | 5,986mm | |
Height (unladen) | 2,292mm | |
Width (inc. wing mirrors) | 2,345mm | |
Gross Vehicle Weight | 3,500Kg | |
EU Exhaust Emission Standard | Euro 6 | |
Output, Max. At 3,800rpm | 170hp | |
Torque, max. | max. 340 Nm at 1,500 – 2,400 rpm | |
Fuel tank capacity RWD | 71 liters | |
Battery | Heavy-duty battery (12v 92 ah) | |
Cubic Capacity | 1,950cc | |
Patient Compartment Length | 3,700mm | |
Patient Compartment Height | 1,900mm | |
Patient Compartment Width | 2,070mm | |
Patient Compartment Area | 7659000mm^2 | |
Braking System | ABS braking system with EBV, and Emergency Brake Assist (EBA). |
OXYGEN SYSTEM | DESCRIPTION | |
---|---|---|
Oxygen Cylinder | 2 Cylinder of 20 liter | |
Pressure Regulator | Pressure from 150 bar, flow 0-15 liters/minute | |
Pneumatic Connector | Tee Connector and normal Pipe Connector | |
Valve | Opening and Closing Oxygen Cylinder | |
Humidifier Jar | Oxygen Concentrator | |
Suction Jar | Used as a drainage system. |
CONFIGURATIONS | MATERIALS VS DESCRIPTION | |
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Main External Body | The external body of this structure is meticulously crafted using Polyurethane panels for both the body and doors. Polyurethane is chosen for its exceptional mechanical properties, boasting high strength, lightweight characteristics, and excellent insulation, effectively preventing the transfer of heat, cold, and noise. To reinforce durability and structural integrity, aluminum 5254 is utilized for the construction of corners and edges. This combination of materials ensures a robust and thermally efficient exterior body. | |
Interior Cabinets and Drawers | The cabinets and drawers are constructed from Vekaplan material, a freefoam variant known for its exceptional lightweight properties and high strength. This deliberate material selection was made with the primary objective of minimizing the weight of the storage unit to ensure that it exerts minimal influence on the vehicle’s acceleration. Additionally, plastic glass sheets have been incorporated into the design to enhance the overall aesthetics and functionality of the cabinetry. | |
Chassis Base Structure | The framework is constructed using ST-37 steel profiles that are expertly welded and securely fastened to the car’s chassis, ensuring that any potential disassembly and reassembly can be achieved with ease and without complications. Within the framework, stone-wool insulation will be integrated to effectively insulate against external heat, cold, and noise transmission from the ground, thereby maintaining a consistent and comfortable interior temperature. Flanges welded upon the platform structure and will be fastened on the car’s chassis with 12mm grade 9.8 bolts (5480kg load carry capacity per bolt) and nuts. | |
Chassis Gaps | Within the platform structure gaps, stone wool insulations are integrated to effectively insulate against external heat, cold, and noise transmission from the ground, thereby maintaining a consistent and comfortable interior temperature. | |
Flooring | The flooring will be coated with epoxy, a durable, antibacterial material that offers a smooth, easily cleanable surface with zero humidity retention. Epoxy outperforms conventional flooring systems in terms of longevity, as it is highly resistant to cracking and chipping. This superior resilience ensures that accidental tool drops or impacts will not cause damage to the floor. | |
Roof Structure | The framework consists ofST-37 30*20 profiles steel meticulously welded and securely bolted to the roof’s polyurethane panel. This design facilitates the seamless routing of electrical components, including cables, for connection to vital systems such as air conditioning, fans, and lighting. | |
Cabinet’s Glass | Plexiglass is selected for fast visibility, light weight, toughness, under high stress bendable but it does not crack or break and it’s easy cleaning, all crucial for saving lives on the go. | |
Medical Equipment Placement | Medical equipments are placed on these sheet metal boxes; these sheet metals are designed according to the dimensions of the medical devices such as Defibrillator, Patient Monitor, Nebulizer and other remaining devices like Infusion Pump, Ventilator and Portable Vacuum Aspirator have their own accessory which will be fastened on these sheet metals plates. The sheet metal boxes assembled on the sheet metal plates are equipped with rails, allowing for smooth sliding of the devices within the patient compartment. This design enables doctors to easily adjust the placement of the medical equipment according to their preferences. The rails are mounted on the wall patient compartment with bolts. | |
Main External Body | The external body of this structure is meticulously crafted using Polyurethane panels for both the body and doors. Polyurethane is chosen for its exceptional mechanical properties, boasting high strength, lightweight characteristics, and excellent insulation, effectively preventing the transfer of heat, cold, and noise. To reinforce durability and structural integrity, aluminum 5254 is utilized for the construction of corners and edges. This combination of materials ensures a robust and thermally efficient exterior body. | |
Stretcher Platform | The Stretcher Platform facilitates staff interventions and offers patients a sturdy and comfortable means of transportation. Designed for stretchers loading and unloading conveniently. This stretcher base is made of stainless-steel alloy materials and can load 250kg. The stretcher base can slide backward on guide rail which is convenient for the stretcher loading& unloading. |
ELECTRICAL SYSTEM | DESCRIPTION | |
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Battery | A battery of 100A 12V~, 50/60 Hz for alimenting the patient compartment purpose | |
Inverter | 2000 Watt Sine regulate and boost the battery’s voltage | |
Sockets And Light Sockets | For medical equipment utility purpose | |
Patient Compartment Lighting | The patient’s cabin is equipped with advanced LED lighting, providing a well-illuminated and comforting environment for both patients and medical professionals. Additionally, spotlight LED lights strategically placed around the stretcher area offer enhanced visibility during medical procedures, enabling medical teams to work efficiently even in low-light conditions. 4 spotlights night lights, 2 batten lights. | |
Camera | Located at the box’s rear step, that camera is used for the ambulance’s safe driving. | |
Air Condition | We understand that patient comfort is paramount during emergency transportation. Our ambulance is equipped with a sophisticated air conditioning system, maintaining a controlled and comfortable temperature within the patient’s cabin. This ensures that patients receive the care they need without compromising on their well-being during transit. | |
Beacon Lamps | Front and back beacon lamps featuring energy-efficient LED technology. These powerful lights enhance visibility during emergency responses, ensuring that the ambulance can navigate through traffic swiftly and safely. | |
Siren Announce Device | Our ambulance can convey urgent warnings to surrounding traffic effectively. The variable siren modes adapt to different traffic conditions, enabling the ambulance to announce its presence clearly and confidently, ensuring a clear path to the scene of the emergency. | |
Side Warning Lights | With the side warning lights ambulance enhances its visibility from all angles. | |
Exhaust fan | Cleaning and removing dirty air inside the patient compartment. | |
Airtronic Heater | Use a fan to heat the air inside the vehicle, this spreads the heat very quickly in the patient compartment. | |
Control Panel | Boasts a state-of-the-art electrical system, managed through a digital control panel. | |
Safety Measures | To guarantee the safety of both the vehicle and its occupants |