Key Aspects to Consider When Installing Marine Engine Bedplates
Engine bedplates are the lower components of marine engines (two-stroke and four-stroke), supporting the engine compartment and are among the most stress-sensitive structural components. Engine mounts for large engines typically have a flat-bottomed structure and a high-quality surface finish. These mounts are assembled during installation, while mounts for smaller engines are entirely manufactured using casting processes.
Large engine mounts can be made of cast steel, precast steel, or a combination of both. A key requirement for large engine bedplates is the use of low-carbon steel with a maximum carbon content of 0.23%. Small engine mounts use cast iron with internal vibration-absorbing properties to reduce the frequency of cracking. The main components of any engine bedplates are the longitudinal beams and transverse beams.
The main functions of engine bedplates include:
- Supporting the static loads of the hull and engine block when stationary.
- Supporting the dynamic loads of operating equipment.
- Supporting the crankshaft and keeping it in an upright position.
- Distributing the static and dynamic loads generated by engine operation onto the hull.
- Lubricating oil is collected from the oil pan and transported to the oil tank, where it is pumped out by a lubrication pump.
- The motor, mounted on top of the oil tank, transmits propeller thrust to the hull.
- By supporting the lower engine room, it contributes to the structural integrity of the vessel.
Regular inspection of the engine blocks is crucial, as they form the foundation of marine engines. Engine block inspections are also included in the regular maintenance schedule.
Marine Engine Components
The following engine block inspections should be performed:
Cracks: Cracks are the most common problem in the engine block structure. Cracks should be carefully inspected in the following areas:
- Transverse and longitudinal joint welds. Below the bearing cap, where radial cracks may appear or extend along the cap line, securing the bearing.
- Radial areas around bolt holes and frame bolts.
- Around the smooth holes on the engine block and crossbeams.
- Bottom of the main bearing bracket.
Welding Defects: Newly delivered engines or engines that have recently undergone welding repairs should be inspected for welding defects.
Casting Defects: Newly purchased engines with cast housings must be inspected for casting defects.
Corrosion: As the engine block is the lowest-mounted structure in the engine room, it comes into contact with various liquids, such as oil and water, making it susceptible to corrosion. A thorough corrosion inspection is essential.
Structural Loosening: The engine mount is secured by tie rods connecting the A-frame and the engine deck. Ensure the tie rods are tight and there are no gaps between the frame and the engine mount.
Mounting Bolt Defects: Mounting bolts secure the engine room to the ship’s substructure. Check for loose bolts; if found, tighten them according to the manual. Additionally, ensure the mounting bolts are free from shear wear or frictional wear.
Oil Leaks: The engine room collects lubricating oil and supplies it to the engine room. Inspect the engine room for leaks or at the connection points between the engine room and the hull.
The ship’s engineer is responsible for ensuring regular inspections of the ship’s engine room and for promptly identifying and repairing any defects. Failure to do so can lead to severe vibrations, crankshaft misalignment, reduced engine efficiency, and component failure.
