Hydraulic tappet

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A hydraulic lifter, also known as a hydraulic tappet or a hydraulic lash adjuster, is a device for maintaining zero valve clearance in an internal combustion engine. The Conventional means of adjusting valve actuation always require a small clearance to be left between the valve and its rocker or cam follower to allow for thermal expansion and wear. The hydraulic lifter was designed to ensure that the valve train always operates with zero clearance, leading to quieter operation and eliminating the need for periodic adjustment of valve clearance.

The hydraulic lifter consists of a hollow expanding piston situated between the camshaft and valve. It is operated either by a rocker mechanism, or in the case of one or more overhead camshafts , directly by the camshaft. The lifter is filled with engine oil intermittently from an oil galley via a small drilling. When the engine valve is closed, the lifter is free to fill with oil. When the valve is opening and the lifter is being operated by the camshaft, the oil feed is blocked and the lifter acts just as a solid one would, oil being incompressible.

[edit] History

The first firm to include hydraulic lifters in its design was Pierce-Arrow in the early 1930s. Hydraulic lifters were popular on automobiles designed in the 1980s, but most newer cars have reverted to bucket-and-shim mechanical lifters. Although these do not run as quietly and are not maintenance-free, they are cheaper and rarely need adjustment because the wear caused by operation is spread over a large area.^{[citation needed]}

[edit] Disadvantages

There are a number of potential problems with hydraulic lifters. Frequently, the valvetrain will rattle loudly on startup due to oil draining from the lifters when the vehicle is parked. This is not considered significant provided the noise disappears within a couple of minutes, typically it usually only lasts a second or two. A rattle that does not go away can indicate a blocked oil feed or that one or more of the lifters has collapsed due to wear and is no longer opening its valve fully. The affected lifter should be replaced in the latter circumstances. In extremely rare circumstances, a lifter can "pump up" and create negative valve clearance so that its valve cannot close. This is more serious as burnt valves will result. In all cases it is important to follow the manufacturer's recommendations for oil viscosity and quality.^{[citation needed]}

[edit] External links

• Description of Engine Valve Types

Myths are common about "lifter pump up". The "piston" in most hydraulic lifters measures .625", meaning it has an area of 0.307". If you have oil pressure of 50lbs per sq inch, the maximum force the plunger in a lifter can exert is less than 16 lbs.

Lifter pump up can only occur if the valve spring has less pressure than the piston in the lifter can exert. This can be from spring wear, spring damage or valve seat recession.

Pump up can also occur during extreme high engine RPM's where the valve spring tension is not adequate or harmonics occur. The hydraulic lifter will then do what it is designed to do, make up the clearance and hold the valve open until the spring pressure bleeds the oil back out of the lifter.