Get To Know Your Car Better: An Detailed Guide To Automotive Terms — Engine Head

The term “engine head” typically refers to the cylinder head in an internal combustion engine. The cylinder head is a crucial component of the engine that sits on top of the engine block and covers the cylinders. It contains various components and performs important functions within the engine system. Take a trip down the technical lane to know everything about the engine head.

The engine head sits above the engine block and contains the valves, which control the flow of air and fuel into cylinders and the release of exhaust gases from the cylinders. The camshaft opens and closes the valves at precise intervals, allowing the air-fuel mixture in and expelling burnt gases out. The head also has chambers where a part of the combustion of the air-fuel mixture occurs, which is responsible for generating power to move the vehicle. This makes the engine head an integral part of a vehicle with an internal combustion engine.

Engine heads are typically made from materials that can withstand high temperatures, pressures, and mechanical stresses while providing good thermal conductivity. Aluminum, Cast Iron, and Composite Materials are some of the most common materials used to manufacture engine heads.

The cylinder head houses the combustion chambers where the air-fuel mixture is ignited and burned, generating the power that drives the engine.

Valve seats are machined surfaces in the cylinder head where the valves make contact when closed. They provide a tight seal to prevent combustion gases from escaping during the compression and combustion phases.

These are passages that allow the intake of fresh air and fuel and the expulsion of exhaust gases. The design and shape of these ports significantly affect the engine’s performance characteristics.

Many engines have coolant passages in the cylinder head to help regulate the engine’s operating temperature. Coolant flows through these passages to absorb and dissipate excess heat.

Cylinder heads also have oil passages that supply lubrication to various components, such as the camshaft and valve train.

Here are the main components and areas found in an engine cylinder head:

Cylinder heads contain intake and exhaust valves that control the flow of air and exhaust gases into and out of the combustion chambers. These valves are opened and closed by the camshaft, allowing fuel and air in and expelling exhaust gases after combustion.

Valve springs are responsible for returning the valves to their closed position after they have been opened by the camshaft. They ensure proper sealing and functioning of the valves.

Valve guides are cylindrical sleeves that guide the valves’ movement within the cylinder head, ensuring they stay aligned and move smoothly.

The camshaft is responsible for controlling the opening and closing of the valves. It is driven by the crankshaft and features lobes that push against the valve lifters, causing the valves to open and close at specific times.

Timing Chain and Timing Belt are both components used in internal combustion engines to synchronize the rotation of the crankshaft (which controls piston movement) and the camshaft (which controls valve movement). However, they have different materials, construction, and characteristics. Here’s a comparison:

In engines with spark ignition, the spark plugs are located in the cylinder head. They ignite the air-fuel mixture within the combustion chamber.

Fuel injectors will spray a mist of fuel to complete the air-fuel mixture required for combustion. The injectors are placed in the intake manifold or directly into the intake ports of the engine head. The specific location can vary depending on the engine’s design and fuel injection system. 

Gaskets are used to seal the cylinder head to the engine block, preventing leakage of coolant, oil, and combustion gases.

Bolts and fasteners secure the cylinder head to the engine block and ensure proper sealing and alignment.

The basic necessity of an engine is to have a minimum of two valves in its head: one for the inlet and another for the exhaust. As engine technology evolved, using multiple valves per cylinder was found to be beneficial. This enhances the efficiency and performance of the engine. 

In layman’s terms, the faster the exhaust gases go out, the faster the fresh air-fuel mixture comes in, the faster the combustion. So a four-valve engine head performs better compared to a 2-valve setup. Generally, a four-valve setup can be found in cars while a 2-valve or a 3-valve setup can be found in smaller two-wheelers. 

VVT is an engine technology that allows the timing of an engine’s intake, exhaust or both valves to be adjusted while the engine is running. This optimization of valve timing helps improve engine efficiency, power output, and emissions across a range of engine speeds and load conditions.

In a traditional fixed valve timing system, the valves open and close at a fixed time based on a predetermined camshaft profile. However, this timing might not be ideal for all operating conditions and engine speeds. VVT systems use various mechanisms, such as hydraulic actuators or electronically controlled solenoids, to alter the position of the camshaft in relation to the crankshaft.

Over the years, various configurations and valve placement designs in an internal combustion engine have resulted in various engine head designs and types. Here are some common engine valve configurations.

Examples:

In this configuration, the valves are located within the engine block, and pushrods and rocker arms are used to actuate them. This design is known for its simplicity but may have limitations in terms of high RPM performance.

Examples:

A single camshaft is positioned in the cylinder head to control both the intake and exhaust valves. It’s directly driven by the crankshaft through a timing belt or chain. This design offers better valve control than pushrod systems. 

Examples:

In a DOHC configuration, there are two separate camshafts, one for the intake valves and another for the exhaust valves. This allows for precise control of valve timing and higher engine RPMs. This particular configuration can implement the variable valve timing (VVT) technology for enhanced performance and efficiency.

Examples:

In a crossflow configuration, the intake and exhaust ports are positioned on opposite sides of the cylinder head. This design promotes efficient airflow and better combustion characteristics.

Examples:

In flathead engines, both the intake and exhaust valves are located within the engine block, and they are often positioned in the engine block’s flat “head.” This design is simpler but can have efficiency limitations.

Examples:

Radial valves are commonly used in motorcycle engines. The valves are positioned in a circular or radial pattern around the combustion chamber. This arrangement allows improved port size and shape, valve-included angle, and improved combustion chamber shape. It may also contribute to better cooling.

Examples:

Some engines use rotary valves that rotate to control the intake and exhaust flow. These valves can provide efficient and precise control but are less common. They are also generally found in motorcycles rather than cars.

There is your complete guide on the engine head of an internal combustion engine. We will be posting detailed blogs on other components of an internal combustion engine. Keep an eye on the DubiCars Blog section for more such guides. Here is a beginner’s guide to generic automotive terms.

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