An axial piston type internal combustion engine of novel three cycle variety, wherein the complete combustion process within the combustion chamber consists of three distinct cycles, accomplished over two distinct strokes of each piston, the three cycles being: the high pressure charging cycle, the
An axial piston type internal combustion engine of novel three cycle variety, wherein the complete combustion process within the combustion chamber consists of three distinct cycles, accomplished over two distinct strokes of each piston, the three cycles being: the high pressure charging cycle, the power cycle, and the postive total exhaust expulsion cycle. The aspiration is controlled by a rotary disc valve, while the fresh gas charge is pre-compressed to high pressure by a separate high pressure charger. The conventional intake stroke and compression stroke, normally directly or indirectly carried out by the power piston in conventional two stroke or four stroke engines, is entirely divorced from the functions of the power piston and its power train components. Intended to replace conventional engines when high specific output, high power to weight ratio, and economy of operation are paramount.
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An axial cam driven, axially opposed piston type internal combustion engine comprising in combination two symmetrical but opposite and opposing cylinder blocks defining a first cylinder block and a second cylinder block, each cylinder block defining axially disposed cylinders arranged in parallel, a
An axial cam driven, axially opposed piston type internal combustion engine comprising in combination two symmetrical but opposite and opposing cylinder blocks defining a first cylinder block and a second cylinder block, each cylinder block defining axially disposed cylinders arranged in parallel, annularly and symmetrically spaced about a common long axis, all cylinders of each block terminating at a flat plane which is square with said long axis and the cylinders of the cylinder blocks being axially aligned with a cylinder of the opposed cylinder block and separated therefrom by a short distance, an axially disposed main shaft, concentric with said long axis, said main shaft axially and radially supported by main bearings axially and concentrically arranged in said cylinder blocks on said long axis, said main shaft having a hollow portion which functions as a high pressure charge distribution means, said hollow portion being disposed in said first cylinder block, a piston in each of said cylinders disposed to form opposing piston pairs, an axially profiled first axial cam and an axially profiled second axial cam, said first axial cam mounted securely and concentrically on an outward portion of said hollow portion of said main shaft and operatively connected to said pistons in said first cylinder block, said second axial cam mounted securely on an outward portion of said main shaft in said second cylinder block and operatively connect to said pistons in said second cylinder block, said axial cams cooperating with said pistons to convert any reciprocating motion of said pistons to rotational motion of said main shaft, said first axial cam and said second axial cam being symmetrically opposed to impart opposed reciprocating motion to said piston pairs, a rotary disc valve housing defining a cylindrical housing spanning between said cylinder blocks and forming a rigid structural connection between said cylinder blocks, said rotary disc valve housing including at least one exhaust duct communicating between said housing and surrounding atmosphere, each of said pistons being movable within one of said cylinders from a top center portion adjacent said rotary disc valve housing to a bottom center position, a valving means, defining a rotary disc valve comprising a thick flat, circular disc, concentrically and securely mounted on said main shaft between said piston pairs, said disc valve having a thickness closely matching said short distance between said opposing cylinder blocks, said disc valve having a diameter large enough to completely cover said cylinders thereby forming individual combustion chambers therein, said rotary disc valve further including an exhaust port defining a radial opening spanning through the thickness of said disc valve and communicating continuously radially outwardly with said rotry disc valve housing and said atmosphere, said exhaust port being of such annular extent as to be brought into axial alignment with said cylinders during movement from said bottom center position to said top center position of said pistons, said rotary disc valve further including a high pressure charging port defined by a radial opening spanning through the thickness of said disc valve and communicating continuously radially inwardly with said hollow portion of said main shaft, said high pressure charging port being of such annular extent so as to be brought into axial alignment with said cylinders only while said pistons are in the top center position in said cylinders, said high pressure charging port forming a terminating portion of said high pressure charge distribution means, a gas charge high pressure pre-combustion means, defining a reciprocating piston compressor means for compressing a gas charge to a precombustion pressure, disposed at an end of said first cylinder block, said piston compressor means operatively connected to and driven by said main shaft, said piston compressor means communicating with said hollow portion of said main shaft via a compressor outlet valving means and communicating with a gas charge intake means via a compressor inlet valving means, said gas charge intake means, defining a means to pre-condition the gas charge including fuel and air mixing means, an ignition means, defining a means of sequentially igniting the high pressure gas charge in successive ones of said combustion chamber after said high pressure charging port has sequentially been brought out of alignment with successive ones of said combustion chambers; each combustion chamber is sealed by a first sealing element in the form of a rotary disc valve inner seal, a second sealing element in the form of a rotary disc valve outer seal, and a third sealing elements in the form of cylinder separation seals, said first sealing element defining a first annular ring of cylindrical shape and disposed in a first annular groove concentrically arranged in said cylinder block, said annular ring being biased axially towards and bearing against a flat surface of said rotary disc valve; said second sealing element defining a second annular ring, cylindrically shaped, and disposed in a second annular groove, concentrically arranged in said cylinder block, said second annular ring being biased axially towards and bearing against a flat surface of said rotary disc valve; said third sealing elements defining straight bars, rectangular in sectional outline, and disposed in straight grooves, radially arranged in each cylinder block between said cylinders and spanning from said first annular groove to said second annular groove, said third sealing elements being biased axially towards, and bearing against, a flat surface of said rotary disc valve; said first cylinder block and said second cylinder block are provided with straight, smooth bored holes to contain said main shaft, and wherein said first sealing element has an outside diameter equal to the inside diameter of said smooth bored holes, said first sealing element being disposed in a separate annular ring, L-shaped in cross section, with an outside diameter equal to an inside diameter of said smooth bored holes.
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Ferrell Arthur T. (#2008 5600 Orangethorpe La Palma CA 90620), Internal combustion engine.
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