Toyota Hino 300
Blood Donation Specification
Blood Donation Hino 300: The Toyota Hino 300 is a light-duty truck produced by the Hino Motors division of Toyota. Introduced as part of the Hino Dutro lineup, the Hino 300 series is known for its reliability, fuel efficiency, and versatility. It is designed to meet the demands of various industries, such as logistics, transportation, and delivery services.
About Blood Donation Hino 300
Blood Donation Toyota Hino 300 Specification :
In a community-driven initiative to bolster blood donation efforts, a local blood bank partnered with a fleet of Toyota Hino 300 trucks to enhance their mobile donation units. The aim was to make the process more accessible, efficient, and to reach a wider audience.
The Toyota Hino 300, known for its reliability and adaptability, was retrofitted to serve as a mobile blood donation center. The cargo compartment was transformed into a state-of-the-art, sterile environment equipped with all the necessary facilities for blood collection. The truck’s mobility allowed the blood donation unit to travel to various neighborhoods, corporate offices, and community events, bringing the opportunity to donate blood closer to potential donors.
Blood Donation Hino 300 Specification
DESIGNATION | CARACTERISTICS | |
---|---|---|
Brand | TRUCK HINO 300 4×2 | |
Model | Diesel | |
Transmission | Automatic | |
Cylinders | 4-cylinders | |
Number of Valves per Cylinder | 4 Valves | |
OL – Overall Length | 5-speed 7250 mm | |
Wheelbase length | 4200 mm | |
WB – Wheel Base (Min-Max) | 4200 – 5200 mm | |
CA – Cab to Axle | 2525 mm | |
OVH – Overall Vehicle Height | 2235 mm | |
HF – Frame Height Front Axle | 700 mm | |
HR – Frame Height Rear Axle | 795 mm | |
MGC – Minimum Ground Clearance | 210 mm | |
CW – Cab Width (excl. Mirrors) | 1990 mm | |
WARW – Width Across Rear Wheels | 1985 mm | |
FW – Frame Width (Outside) | 750 mm | |
FOH – Front Overhang | 1115 mm | |
ROH – Rear Overhang | 1970 mm | |
FT – Front Track | 1655 mm | |
RT – Rear Track | 1520 mm | |
Max. Homologated Body Width (Min-Max) | 1995 – 2500 mm | |
Max. Body Length | 5000 mm | |
Suggested Body Length | 4200 mm |
ENGINE | SPECIFICATIONS | |
---|---|---|
Model | N04C – WH | |
4 Stroke Compression Ignition | Yes | |
Aspiration | Turbo Intercooled | |
Bore x Stroke (mm) | 04 X 118 | |
Piston Displacement (cc) | 4009 | |
Compression Ratio | 18 :1 | |
Configuration | In-line | |
Engine Oil Cooler | Yes | |
Euro Emission Status | Euro 3 | |
Firing Order | 1 – 3 – 4 – 2 | |
Max Eng. Speed (rpm) | 3100 | |
No. of Main Bearings | 5 | |
Power (EEC/ISO NET) (kW @ rpm) | 110 @ 2800 | |
Torque (Nm @ rpm) | 420 @ 1400 | |
Type of Cylinders | Dry Liners | |
Valve Configuration | Over Head |
CLINIC 20FT | SPECIFICATIONS | |
---|---|---|
External Length | 6,10 m | |
Internal Length | 5,86 m | |
External Width | 2,44 m | |
Internal Width | 2,35 m | |
External Height | 2,59 m | |
Internal Height | 2,39 m | |
Inside Cubic Capacity | 33,20 m3 | |
Max. Gross Weight | 30480 kg |
CONFIGURATION | MATERIALS VS DESCRIPTION | |
---|---|---|
Sections And Doors Dimensions Of the Section: | The dimension of the section to be made in the container is determined by the height and width of the doors and windows standard for houses, and for the height and width of the metal reinforcement that these must carry. To execute the section plasma cutting subtractive method will be used. | |
Height: | Total Height of the Door THD = 2,050 mm Total Height of the Window THW = 500 mm |
|
Width: | Total Width of the Door TWD = 900 mm Total width of the window TWW = 1,500 mm |
|
Welding: | The reinforced profile is fixed to the container by the welding method. This will be done in all sections of the container. For the weld bead to be resistant to corrosion, as well as to the material. of the container (Corten Steel), a filler material with a 2.5% Ni content, approximately, or similar in composition to that of the metal base is used. | |
Metal reinforcing profiles: | To reinforce the section that will be made to the container, it is necessary to install a rectangular metal tube 20 x 40 profile, which will give more stability and consistency to the section made. | |
Cabinet’s Glass | Plexiglass is selected for fast visibility, lightweight, toughness, and under high stress but it does not crack or break and it’s easy to clean, all crucial for saving lives on the go. | |
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. |
CONFIGURATION | MATERIALS VS DESCRIPTION | |
---|---|---|
Exterior Coating: | The containers will be exposed to the salinity of the seawater, in case of being transported by sea, and to tropical climates which will cause acceleration of container corrosion. That is why, although the container is made of corten steel (anticorrosive), an insulating ceramic paint will be used on the ceiling and on the four walls of the containers to guarantee better protection against corrosion. The outside of the container is covered with composite panels according to the customer’s preference so that the outside of the container has a smoother appearance. | |
Interior Painting: | On the walls and ceiling of the interior part, modified, antibacterial, epoxy resins will be used. It provides low odor, and high stain resistance, thus allowing easy cleaning. This paint is ideal for combating bacteria and fungus formation. | |
Approximate Weight of Interior Load: | An empty 20-foot container weighs 2155 kg and supports a load of about 30 tons (30000 kg). Although the container can handle the weight of the equipment, an approximate study of the weight of the equipped container has been conducted to know what type of transport it needs. On the one hand, the equipment has been considered (also a generator, tank, etc.), and on the other hand, the internal structure of the container. | |
Plasterboard Mount: | The assembly of the plasterboard covering will be done in the same way as it is done in houses. which in this case, the composite panels. The composite panels will be placed to secure the plane and achieve a perfect finish. For proper fixing screws will be used. | |
Plumbing Installation: | The plumbing installation is carried out with a gravity feed, avoiding the pump altogether. This provided advantages such as: – Lower energy expenditure. – Less difficulty in plumbing maintenance. – Less complexity in the system. | |
Thermal Installation: | For the air conditioning installation, it is necessary to perform thermal calculations of the area where it will be installed, to choose the one that best adheres to the conditions and surface of the area. After carrying out thermal calculations of the area, the air conditioning will be selected. |
ELECTRIC SYSTEM | DESCRIPTION | |
---|---|---|
Electrical Installation Proposal: | The installation will be made in such a way that it can be connected to the public distribution. Solar panels can be placed to help with the electrical supply, but they cannot be relied on to be the sole source of power. There will be a generator set for supply failures or in case of impossibility of connection to the power grid. | |
Sockets And Light Sockets | For medical equipment utility purposes Within the unit, two 220v output sockets cater to devices requiring such power, with a total capacity of 2000w. | |
The Roof Lighting | The ceiling is adorned with 4 LED lights and 2 spot lamps, creating an illuminated and soothing atmosphere. | |
Doors Locking System | The operating room automatic door works with a card password. At the entrance, there is a closet and a computer desk Right next to it there are counter cabinets and drawers in the clinic too. There is a 2-meter awning canopy on one side of the vehicle The entrance of the clinic is made of an automatic shutter system door. | |
Air Condition | We understand that patient comfort is paramount during emergency transportation. Our clinic 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 their well-being during the treatment. | |
AirTrack Heater | Use a fan to heat the air inside the vehicle, this spreads the heat very quickly in the patient compartment. | |
Control Panel | Boasts an advanced system, managed through a digital control panel. | |
Safety Measures | To guarantee the safety of both the vehicle and its occupants |
MEDICAL EQUIPMENT | DESCRIPTION | |
---|---|---|
Blood Donation Chairs: | Purpose: These specially designed chairs allow donors to sit comfortably during blood donation. Function: Donors recline or sit in these chairs while the blood collection process takes place. | |
Blood Pressure Monitor: | Purpose: To check the donor’s blood pressure before donation. Function: Measures the donor’s blood pressure to ensure they are fit for donation. | |
Temperature Monitor : | Purpose: To measure the donor’s body temperature. Function: Ensures the donor is not ill or running a fever. | |
Blood Bags and Tubing: | Purpose: Used to collect, store, and transport donated blood. Function: Safely collects blood during donation and ensures proper storage. | |
Hematology Analyzer: | Purpose: Analyze blood samples. Function: Determines cell counts, hemoglobin levels, and other parameters to ensure the safety of the donated blood. | |
Blood Typing Kit: | Purpose: Determines the donor’s blood type. Function: Helps match blood types for transfusion compatibility. | |
Coagulation Analyzer: | Purpose: Assesses blood clotting ability. Function: Ensures safety during and after donation. | |
Refrigeration Units: | Purpose: Stores donated blood at the required temperature. Function: Maintains blood quality until it’s used for transfusion. | |
Personal Protective Equipment (PPE): | Purpose: Ensures staff hygiene and safety. Function: Includes gloves, masks, gowns, and face shields worn by medical staff during blood collection. | |
Sterilization and Disinfection Supplies: | Purpose: Maintains a sterile environment. Function: Used for cleaning surfaces and equipment to prevent infection. | |
Antiseptics and Disinfectants: | Purpose: Prevents infection. Function: Applied on skin and equipment surfaces. | |
Sterile Gauze and Dressings: | Purpose: Post-donation care. Function: Applied to the puncture site to aid clotting and prevent infections. |