WCO Explanatory Notes reproduced for reference. © World Customs Organization. Verify against official WCO publication.
84.12 Other engines and motors. 84 12.10 - Reaction engines other than turbo-jets - Hydraulic power engines and motors : 8412.21 - - Linear acting (cylinders) 8412.29 - - Other - Pneumatic power engines and motors : 8412.31 - - Linear acting (cylinders) 8412.39 - - Other - 8412.80 Other 8412.90 - Parts This headin covers en ines and motors not included it1 the preceding headings (headings 84.06 to 84.08, 8 d l 0 or 84.1K) or in headin 85.01 or 85.02. It therefore covers non-electric engines and motors other than steam tur ines and other vapour turbines, spark-ignition and compression-ignition internal combustion piston engines, hydraulic turbines, water wheels, turbo-jets, turbo-propellers or other gas turbines. f The heading includes reaction en ines (other than power engines and motors, wind engines (windmillsf spring-operated motors, etc., certain hydraulic power engines and motors, and certain steam or other vapour power units. (A) REACTION ENGINES OTIIER THAN TURBO-JETS (1) Ram-jets. This is a mechanically simple engine, which can function only on rapidly moving machines. It has no turbo-compressor, the feed air being forced in by the speed of motion alone and compressed in the combustion chamber under the effect of a duct. The motive force is provided by the reaction of the exhaust gases expanding through a nozzle. This engine differs from the ram-jet in that its outlet nozzle emits a pulsating flow of gas instead of a continuous et, due to the fact that combustion takes lace intermittently. Unlike the ram-jet, it can e started fiorn rest, the pulsing action proviBing for the intake of air. b Pulse-jets are used in aircraft mainly as an auxiliary take-off. (3) Rocket engines. These are reaction en ines in which combustion is independent of external air supply, the charge comprising bo fuel and the combustion agents. L There are two main types : (i) Liquid propellant engines. These engines consist of a combustion chamber lus one or more tanks for the storage of propellants, interconnected by a system o tubes and pumps, and a jet-pipe. The pumps are powered by means of a turbine which is fed by a e of rocket en ine is formed by the separate gas generator. An important part of this P f injection-system. The fuels used include ethyl alco 01, hydrazine ydrate, etc., and the combustion agents are hydrogen peroxide, potassium permanganate, liquid oxygen, nitric acid, etc. (ii) Solid propellant engines. These engines consist of a cylindrical pressure chamber and a jet-pi e. The combustion chamber and the supply of propellant form a whole. The e of en ine consists of a combustion agent (usually ammonium prope lant in this perchlorate) and a el (usual y polyurethanes). Certain types employ solid fuels of the nature of the propellants of Chapter 36. P $ f I .F7 Rockets are classified in this heading only when forming pro ulsiye units proper e auxiliary or take-off *enginesfor alrcrafi, or for fithng to ~ L Ued mssiles or for sa el ite or spacecraft launch vehicles). B This group excludes : (a) Anti-hail rockets, life-line rockets and similar rockets of a pyrotechnic type (heading 36.04). (b) Satellite or spacecrafl launch vehicles (heading 88.02). (c) Guided missiles incorporating power-units (heading 93.06). (B) HYDRAULIC POWER ENGINES AND MOTORS This group includes : (1) Certain engines, other than turbines or wheels of heading 84.10, producing mechanical power by utilising the energy of the waves or sea swell (Savonius rotor with two semicylindrical bladings) or of the tides. (2) Water column machines operating by the pressure of water on pistons. The water acts on two or more pistons moving inside the cylinders which in turn dnve a shaft. , for example, of a brass or steel barrel and a piston under pressure applied on one side (single-acting) or on e piston, the energy of the liquid under pressure being converted into a linear motion. These cylinders are used on machine-tools, construction machinery, steering mechanisms, etc. (4) Hydraulic valve actuators, presented separately, consisting of a metal casing containing a piston which, by means of a pin pe endcular to the piston rod, converts the linear mohon caused by the action of a liquid un er pressure into a rotary motion, in order to operate a plug valve or other appliance with a rotating mecharlism. 'S (5) Hydraulic servomotors which perform the role of final or intermediate actuators in feedback control systems or regulating systems. These servomotors are used, e.g., in aircraft. (6) Hydraulic systems consisting of a hydraulic power unit (comprising essentially a hydraulic pump, an electric motor, control valves and an oil tank), hydraulic cylinders and the pipes or hoses needed to connect the cylinders to the hydraulic power unit, the whole forming a functional unit within the meaning of Note 4 to Section XVI (see the General Explanatory Note to that Section). These systems are used, e.g., to operate civil engineering structures. (7) '' Hydraulic "jet engines (" hydrojets ") for motor boats. These consist of a powerful pump taking in the sea or nver water and ejecting it as a high speed jet &om an adjustable tube (or tubes) under or behind the boat. (C) PNEUMATIC POWER ENGINES AND MOTORS These engines use an external source of compressed air (or other gases) and, in principle, resemble a steam piston engine or, in some cases, a steam turbine. In suitable cases they may have burners or other heating devices to increase the air pressure (and hence the expansion energy) and also to prevent the cylinders from frosting due to a rapid drop in temperature. These en 'nes are mainly used in mines for haulage tractors and winches because of their safety as regarc sr fire-damp explosion. They are also used in certain locomotives, on aircraft, in submarines, etc., as auxiliary starting motors for internal combustion engines, and for propelling torpedoes. This group also includes : (I) Vane motors, gear motors, axial and radial piston motors for pneumatic transmission. (2) Pneumatic cylinders consisting, for example, of a brass or steel barrel and a piston operated by compressed air applied on one side (single-acting) or on both sides (doubleacting) of the piston, the energy of the gas under pressure being converted into a linear motion. These cylinders are used on machine-tools, construcbon machinery, steering mechanisms, etc. (3) Pneumatic valve actuators, presented se arately, consisting of a metal casing containing a piston which, by means of a pin perpen icular to the piston rod, converts the linear motion caused by the action of a compressed gas into a rotary motion, in order to operate a plug valve or other appliance with a rotating mechanism. f @) WIND ENGINES (WINDMILLS) This group includes all power units (wind engines or wind turbines), which directly convert into mechanical energy the action of the wind on the blades (often of variable pitch) of a propeller or rotor. Usually mounted on a fairly tall metal pylon, the propellers or rotors have an arm perpendicular to their plane, forming a vane, or some similar device for orientating the a paratus according to the direction of the wind. The motive force is generally transmitted I! y reduction gearing through a vertical shaft to the ower take-off shall at ground level. Some wind motors (" depression motors ") have hol ow blades in which a pressure reduction is develo ed by mtzbon, and is transmitted to the ground by airtight conduits to drive a small reaction turfine. t' Wind motors are usually of low power, and are mainly used in m a 1 installations for driving irrigation pumps, drainage pumps or small electric generators. Electric generator units composed of wind motors mounted integrally with an electric generator (including those for operation m aircraft slipstreams) are excluded (heading 85.02). (E) SPRINGOPERATED OR WEIGHT-OPERATED MOTORS, ETC. These include mechanisms which, like clockworks, use the energy produced by the release of wound-up springs, or which are operated by gravity (e.g., by a counterweight or any similar device . However, such mechanisms fitted, or adapted for fitting, with escapements are exclu ed (heading 91.08 or 91.09). d The motors of tbis group, particularly those of the spring-driven type, are used to o erate a large variety of apparatus (e.g., musical boxes, automatic turnspits, revolving win ow displays, registering apparatus, engraving tools). B (F) PISTON ENGINES NOT INCORPORATING BOILERS In these t es the mechanical ener is produced by displacement of a piston inside a cylinder by the ap$cation ofthe pressure ifference between the steam produced by the boiler and the atmospheric pressure (non-condensing engines) or the lower pressure of a condenser (condensing engines The reciprocating or oscillating action of the piston is converted into rotary motion throug a connectmg-rod and crank shaft or flywheel. F b. The simplest types are the single-action engines in which the steam pressure acts on one end of the piston on1 ; in other types (double-acting) the steam acts alternately on each end. In the more powerfurengines the steam passes successively into two or more cylinders of increasin diameters, the connecting-rods of the respective pistons being coupled to a single crank sha $compound, double or tnple-expansion engines, etc.). Locomotive engines and ships' engines, or example, belong to this last category. fi (G) STEAM OR OTHER VAPOUR P O m R UNITS INCORPORATING BOILERS The engines of this group comprise a boiler (usually of the firetube type) together with a single expansxon or compound piston- e steam engine equipped with one or two flywheels wh~ch fiequently also act as the power t e-offs. Engines of this kind are essentially of low or medium power output designed for more or less permanent installation but capable, because of their compact sbxcture, of easy dismounting and removal. PARTS Sub'ect to the general provisions regardin the classification of parts (see the General Exp anatory Note to Sechon XVI parts of e engines and motors of this heacling are also classified here (e.g., combustion c ambers and vents for jet engines, fuel feed regulators, he1 nozzles, windrmll airwheels, cylinders, pistons, slide-valves, centrifugal ball or flyweight-type governors, connecting-rods). I h L In general, parts of steam or other vapour power units incorporating boilers fall to be classified .as parts of boilers (heading 84.02) or as parts of steam power wits of this heading. Transmission shafts and crank shafis are, however, excluded (heading 84.83).
1.- This Chapter does not cover : (a) Millstones, grindstones or other articles of Chapter 68; (b) Machinery or appliances (for example, pumps) of ceramic material and ceramic parts of machinery or appliances of any material (Chapter 69); (c) Laboratory glassware (heading 70.17); machinery, appliances or other articles for technical uses or parts thereof, of glass (heading 70.19 or 70.20); (d) Articles of heading 73.21 or 73.22 or similar articles of other base metals (Chapters 74 to 76 or 78 to 81); (e) Vacuum cleaners of heading 85.08; (f) Electro-mechanical domestic appliances of heading 85.09; digital cameras of heading 85.25; (g) Radiators for the articles of Section XVII; or (h) Hand-operated mechanical floor sweepers, not motorised (heading 96.03). 2.- Subject to the operation of Note 3 to Section XVI and subject to Note 11 to this Chapter, a machine or appliance which answers to a description in one or more of the headings 84.01 to 84.24, or heading 84.86 and at the same time to a description in one or more of the headings 84.25 to 84.80 is to be classified under the appropriate heading of the former group or under heading 84.86, as the case may be, and not the latter group. (A) Heading 84.19 does not, however, cover : (i) Germination plant, incubators or brooders (heading 84.36); (ii) Grain dampening machines (heading 84.37); (iii) Diffusing apparatus for sugar juice extraction (heading 84.38);