Engine having external combustion chamber

Power plants – Combustion products used as motive fluid – External-combustion engine type

Reexamination Certificate

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Reexamination Certificate

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06490854

ABSTRACT:

FIELD OF THE INVENTION
The invention relates to an engine having positive displacement chambers and an external combustion chamber which utilizes the energy stored in compressed fuel and compressed air in combination with the energy released during combustion of the fuel. Energy expended compressing the fuel and air to high-pressures at an external source, such as a gas station or residence, is recovered and utilized in combination with combustion of the fuel in an external combustion chamber to selectively power the engine on demand.
BACKGROUND OF THE INVENTION
Internal combustion engines provide both portable and stationary power sources that have materially enhanced the development of industry throughout the world. It is well known that internal combustion engines are relatively inefficient and make use of only a portion of the available energy that may be derived from fossil fuels and other fuels available. In recent years, especially in view of the increasing costs of fuels, government regulation, as well as environmentalism, most engine manufacturers have undertaken the development of more efficient and environmentally friendly engine systems. Such developments have been in the nature of improving specific characteristics of internal combustion engines such as fuel metering, carburetor, fuel injection, valve control, fuel ignition, and the like. Although many positive results have been achieved toward fuel economy the cost of fuel to the consumer, as well as emissions to the environment, represent a disadvantage to the practical utilization of internal combustion engines. It is desirable to design and provide an engine energy-producing system that minimizes utilization of various types of fuels, along with emissions, and yet provides an engine system having an energy and power output that may be utilized at or above the current efficiency of the energy and power output of conventional internal combustion engines.
Air pollution (emissions) is an ordinary byproduct of conventional internal combustion engines, which are used in most motor vehicles today. Various devices, including items mandated by legislation, have been proposed in an attempt to limit the emissions, which a conventional internal combustion engine exhausts to the atmosphere. Most of these devices have met with limited success and are often prohibitively expensive as well as complex. A cleaner more efficient alternative to the conventional internal combustion engine is needed to power vehicles and other machinery.
A compressed gas could provide a motive energy source for an engine since it could eliminate most of the usual pollutants exhausted from an internal combustion engine burning gasoline. An apparatus for converting an internal combustion engine for operation on compressed air is disclosed in U.S. Pat. No. 3,885,387 issued May 27, 1975 to Simington. The Simington patent discloses an apparatus including a source of compressed air and a rotating valve actuator, which opens and closes numerous mechanical poppet valves. The valves deliver compressed air in a timed sequence to the cylinders of an engine through adapters located in the spark plug holes. The output speed of an engine of this type is limited by the speed of the mechanical valves and in fact the length of time over which each of the valves remains open cannot be varied as the speed of the engine varies.
Another apparatus for converting an internal combustion engine for operation on steam or compressed air is disclosed in U.S. Pat. No. 4,102,130 issued Jul. 25, 1978 to Stricklin. The Stricklin patent discloses a device, which changes the valve timing of a conventional four (4) stroke engine so that the intake and exhaust valves open once for every revolution of the engine instead of once every other revolution of the camshaft in a four (4) stroke engine. A reversing valve is provided which delivers live steam or compressed air to the intake valves and is subsequently placed in the reversed position in order to allow the exhaust valves to deliver the expanded steam or air to the atmosphere. A reversing valve of this type does not provide a reliable apparatus for varying the amount of motive fluid (gas) to be injected into the cylinders when it is desired to increase the speed of the engine. A device of the type disclosed in the Stricklin patent also requires the use of multiple reversing valves if the cylinders in a multi-cylinder engine are to be fired in a sequential fashion.
Engines having an adiabatic structure have recently come into productive use. These engines employ an adiabatic material such as a ceramic for constructing engine components including the combustion chambers and exhaust pipe. Engines of this type do not require the cooling of the engine by dissipating the internally generated heat. The heat energy possessed by the high-temperature exhaust gas, produced by the conventional combustion engine, is recovered and fed back to the engine output shaft, axles and the like to enhance engine output.
One known method of recovering exhaust gas energy is to reduce the rotational force of a turbine. This turbine is rotated by the exhaust gas using a multi-stage gear mechanism to drive the engine crankshaft. Another method of energy recovery is to effect a series connection between an exhaust turbine having a compressor for intake, and supply the output of the attached generator to a motor provided on the engine output shaft, thereby enabling the exhaust energy to be recovered for rotational energy use. Still another idea is to provide the engine with an exhaust bypass circuit; effect the series connection between the exhaust turbine having the generator and the exhaust turbine having the compressor to intake; supply the output of the generator to a motor provided on the engine output shaft; drive the compressor; and control the amount of exhaust that passes through the exhaust bypass circuit, thus running the engine in a nearly ideal state. These proposals have been disclosed in the specification of Japanese Patent Application Laid-Open (Kokai) No. 59-141712, which describes an engine equipped with an exhaust energy recovery apparatus. This is also elaborate and impracticable. However, the gear mechanisms required for these methods introduces design-specific problems. The transfer efficiency of one stage of a gear mechanism ordinarily is 90-95% and there is a decline in efficiency to about 80% with a three-stage gear mechanism. Furthermore, the nominal rotational speed of an exhaust gas turbine can be as high as 10,000 rpm. Reducing the turbine speed requires a gear mechanism having a greater number of stages, thus resulting in much lower transfer efficiency and a greater amount of frictional loss usually with accompanying increase in assembly weight. Since the rotational speed of the exhaust gas turbine is manufactured to accommodate the rotational speed of the engine, optimum engine turbine performance cannot be achieved.
With proposals described in Japanese Patent Application Laid-Open (Kokai) No. 59-141712, the engine is run in an almost ideal state by controlling the amount of exhaust gas flowing through the exhaust bypass circuit on the basis of data received from an engine velocity sensor and an engine load sensor. No control is performed to optimize the rotational speed of the exhaust turbine or the efficiency of the turbine.
An exhaust brake control system installed in an automotive vehicle equipped with an automatic or possible manual transmission is not new to the industry. The specification of Japanese patent Kokoki Publication No. 58-28414 describes an exhaust brake control system in which an exhaust brake is controlled by signals from an exhaust brake switch usually placed on the vehicle instrument panel, a throttle switch actuated based upon the amount the vehicle accelerator pedal is depressed, and a shift switch actuated by manual control of the automatic transmission. Compressed air generated during brake actuation may be stored in an accumulator for subsequent use during periods of peak power demand or even when the e

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