Junk head

Section through the cylinder head of a Knight sleeve valve engine. The valve sleeves are open to the inlet port. Between and above the sleeves is the junk head.
Section through the junk head of a Knight sleeve valve engine

A junk head is a form of piston engine cylinder head, where the head is formed by a dummy piston mounted inside the top of the cylinder. In most other engine designs, the cylinder head is mounted on top of the cylinder block. That form has also been termed a "poultice head".

It is obviously essential for any piston engine to seal the joint between block and head. This is usually done by means of a head gasket, a flat gasket on the surface of the block. In early engines, the high pressures and high temperatures made this a difficult trial for the materials of the day and gasket failures were common. The junk head requires no head gasket and is sealed by piston rings inside the cylinder bore, as for the power piston.[1]

An alternative solution was the monobloc engine, where the block and head were formed as one piece. This solved the sealing problem, but complicated manufacture and maintenance. Particularly when routine maintenance still required frequent head removal for de-coking, on a monobloc engine this required the removal of the pistons from the crankshaft end beneath.

Sectioned cylinder and head of a Bristol Centaurus. Note the copper fins to the junk head

Cooling is difficult with a junk head, with either air or water. Water ports must be connected to the removable head and there is little space available within the cylinder diameter. If the engine uses the common form of overhead poppet valves, these would also be difficult to fit inside the limited space. Air cooling is also difficult, as the shape of the head is deeply re-entrant and it is difficult to arrange airflow to the deep well around the spark plug or injector. Bristol developed a two-part head to address this problem, with copper conducting fins.[2]

Origins of the term

The term "junk head" originates from these sealing rings or "junk rings". The term was previously in use with steam engines. Whereas a piston ring must slide within the cylinder and so be made of the best quality long-lived materials, where a fixed cylinder cover was sealed by a ring, this stationary ring could be of the lowliest materials or "junk", often a greased or graphited rope or oakum packing. Although the high cylinder temperature of an internal combustion engine requires high quality materials even here, the term stuck.

Sleeve valve engines

The junk head was only widely used with sleeve valve engines. These sealed on the inside of the sleeve, also sealing the sleeves themselves from the combustion pressure. It would also have been difficult to arrange a flat head gasket on the top of the moving sleeves.

Sleeve valves were rarely used in road vehicles, although the Knight engine did enjoy some limited popularity in luxury cars.[3] These used a junk head.

Radial engines

Radial engines, almost universally air-cooled aero engines, almost all use single-cylinder blocks, with a separate head for each cylinder. Most use monobloc blocks and heads, referred to as 'barrels'. The single-cylinder arrangement of each head, together with air-cooling, remove some of the restrictions on the use of a junk head. Accordingly, most of the junk head designs or number of heads manufactured have been for air-cooled radial engines.

Where radial engines have used sleeve valves (notably those of the Bristol Engine Company), the junk head was the usual design of head.[1][4] Individual cylinder junk heads, sealed by a single ring, were also used on the inline H-block sleeve valve Napier Sabre engine.[5]

References

  1. 1 2 White, Graham (1995). "Bristol Hercules". Allied Aircraft Piston Engines of World War II. Airlife. pp. 136–137. ISBN 1-85310-734-4.
  2. Ricardo, Harry R. Sir (1953). "Piston Aero-engines". The High-Speed Internal Combustion Engine (4th ed.). Glasgow: Blackie. pp. 310–311.
  3. Autocar Handbook (Ninth ed.). The Autocar. c. 1919. pp. 36–38.
  4. Bingham, Victor (1998). "Bristol Hercules". Major Piston Aero Engines of World War II. Airlife. pp. 52–53. ISBN 1-84037-012-2.
  5. "The Napier Sabre Aero Motor". The Aeroplane. 24 March 1944.
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