Abstract: A method for operating an internal combustion engine includes increasing engine drag torque, transitioning from a cylinder deactivation state to an all-cylinder state, and decreasing engine drag torque immediately subsequent to transitioning to the all-cylinder state.

Abstract: Disclosed herein is a hybrid renewable energy system having an underground heat storage apparatus. A solar collector is provided on or around a building structure and collects solar heat to heat a heat medium. A transfer pipe transfers the heat medium, heated by the solar collector, into the underground. The heat storage apparatus stores heat received from the heat medium and heats, using the stored heat, both cold water supplied from the building structure through a supply pipe and air supplied from an inlet duct. A return pipe returns the heat medium from the heat storage apparatus to the solar collector. An inlet pipe supplies hot water produced by the heat storage apparatus to the building structure. A connection duct supplies air heated by the heat storage apparatus into the building structure to heat the room of the building structure.

Abstract: A hydraulic soft-start system includes a first flow valve in fluid communication with a pressure source and an inlet of a motor. A first restricting orifice is disposed between the first valve and the inlet. A second flow valve is in fluid communication with the first valve and the inlet. A pilot for actuating the second valve is in fluid communication with the inlet. A second restricting orifice is disposed between the pilot and the inlet. Upon actuation of the first valve, a first flow is passed from the pressure source via the first orifice to the inlet, placing the motor in a partially-actuated state. The second valve being actuated after a threshold pressure of the pilot is reached allowing a second flow to pass from the pressure source to the inlet. The second flow being higher than the first flow, thereby placing the motor in a fully-actuated state.

Abstract: A vehicle control system is programmed to stop the vehicle's internal combustion engine upon certain conditions including the vehicle being stopped and engine temperature having reached a minimum operating level. On vehicles equipped with air brakes and having an engine driven air compressor, engine restarts are provided by an air pressure supported hydraulic motor once triggered by operator actions such as releasing the brake and/or depressing the vehicle's accelerator indicative of the driver's intention to move the vehicle.

Abstract: Improvements in the device and method of providing portable electrical, hydraulic and compressed air power to a variety of job site applications requiring the use of hand held industrial tools.

Abstract: A prime mover is shown which can be used in supplying power for a variety of roles in industrial applications, including oil and gas well operations, such as the prime mover which is used to operate a pump jack at a well site. It includes an internal combustion engine having an output shaft, the engine being cooled by engine oil supplied from an oil reservoir to the engine and circulated by an oil pump. A housing framework encloses the engine and supports an associated jack shaft bearing assembly, and includes a base, a hood and a plurality of upright supports which extend upwardly from the base in the direction of the hood. One or more of the uprights is a specially designed compartment having a plurality of opposing sides which define an initially open interior space, the interior space comprising an integral oil reservoir for storing and supplying oil to the engine during normal engine operation.

Abstract: A system and method for starting a large diesel engine using at least one hydraulic motor includes an auxiliary power unit having a hydraulic pump for driving a hydraulic motor coupled to the diesel engine. The hydraulic pump may automatically pump oil from the diesel engine into a pressure reservoir until a pressure set point is exceeded. When the pressure set point is exceeded, a relief/check valve positioned between the pressure reservoir and the hydraulic pump may open to divert some lubrication oil through a heater and back into the diesel engine. To start the diesel engine, a solenoid-controlled valve, positioned between the pressure reservoir and a hydraulic motor coupled with the diesel engine, may be opened to release pressurized oil to the hydraulic motor. After energizing the hydraulic motor, the oil may be diverted back to a sump of the diesel engine.

Abstract: A motor vehicle kinetic energy recovery system uses one or more cylinders of an internal combustion engine as the first or primary stage in a multi-stage high pressure air compression system, a compressed air storage system, compressed air operated drive train boosters and vehicle management electronics to provide cooperation between the air compression, storage and booster systems. The multi-stage, high pressure air compressor system is operable through engine compression braking allowing kinetic energy of a vehicle to be recaptured during retardation of vehicle speed.

Abstract: A multi-cylinder diesel engine provides split mode operation in which one or more cylinders function as air pumps. Compressed air supplied by the cylinders is amplified and stored to a high pressure air tank from which it may be used to run air brakes or other systems. Improved energy density is achieved over prior art vehicle air systems and an auxiliary air compressor is eliminated.

Abstract: A manifold for housing high-pressure oil on a camless engine includes an extruded aluminum body having first and second ends. First, second and third extruded channels are formed in the body and each extends from the first end to the second end of the body. The manifold has a plurality of switching valve mounting bores configured to receive a plurality of switching valves operative to alternately communicate the channels with intake and exhaust valves of an engine to which the manifold is mounted to affect movement of the valves.

Abstract: A hydraulic engine-starting system for cranking and starting an engine for a vehicle having automatically stopping and starting functions by a hydraulic motor. A hydraulic pressure that operates a hydraulic clutch of a transmission is raised promptly by using a hydraulic motor. The hydraulic motor is driven by a hydraulic pressure supplied thereto through a first oil passage from a hydraulic motor-driving device including an oil pump, an accumulator and a solenoid valve, thereby starting the engine. A transmission is disposed in the middle of a second oil passage for returning an oil discharged from the hydraulic motor to the hydraulic motor-driving device. Thus, the hydraulic pressure in the transmission can be raised simultaneously with the start of the engine to enable the engagement of a hydraulic clutch, thereby starting the vehicle promptly, while avoiding generating a shock from the engagement of the hydraulic clutch.

Abstract: An air turbine starter with an improved seal assembly is provided. A fluid conduit or channel allows higher pressure fluid into one side of a bearing seal. For example, the seal assembly may include a face seal, and a second seal forming a chamber therebetween and a flow passage opens into the chamber for exposing the chamber to the higher pressure.

Abstract: There is provided a starter system for an internal combustion engine, which is capable of preventing wear of a brush of an electric motor ascribable to the combined use of the electric motor with a hydraulic actuator and the resulting increase in the rotational resistance due to friction of the brush, as well as capable of using one of the hydraulic actuator and the electric motor without difficulty even when the other is disabled. The hydraulic motor is driven by hydraulic pressure. A rotational shaft of the hydraulic motor is driven for rotation by the hydraulic motor. A rotational shaft of an electric motor extends in parallel with the rotational shaft of the hydraulic motor, and is driven for rotation by the electric motor. A ring gear rotates in unison with the crankshaft. A pinion gear is brought into meshing engagement with the ring gear, for starting the engine. An output shaft is connected to the pinion gear.

Abstract: A low or no pollution engine is provided for delivering power for vehicles or other power applications. The engine has an air inlet which collects air from a surrounding environment. At least a portion of the nitrogen in the air is removed using a technique such as liquefaction, pressure swing adsorption or membrane based air separation. The remaining gas is primarily oxygen, which is then compressed and routed to a gas generator. The gas generator has an igniter and inputs for the high pressure oxygen and a high pressure hydrogen-containing fuel, such as hydrogen, methane or a light alcohol. The fuel and oxygen are combusted within the gas generator, forming water and carbon dioxide with carbon containing fuels. Water is also delivered into the gas generator to control the temperature of the combustion products. The combustion products are then expanded through a power generating device, such as a turbine or piston expander to deliver output power for operation of a vehicle or other power uses.

Abstract: A low or no pollution engine is provided for delivering power for vehicles or other power applications. The engine has an air inlet which collects air from a surrounding environment. At least a portion of the nitrogen in the air is removed using a technique such as liquefaction, pressure swing adsorption or membrane based air separation. The remaining air is primarily oxygen, which is then compressed and routed to a gas generator. The gas generator has an igniter and inputs for the high pressure oxygen and a high pressure hydrogen containing fuel, such as hydrogen or methane. The fuel and oxygen are combusted within the gas generator, forming water and carbon dioxide with carbon containing fuels. Water is also delivered into the gas generator to control a temperature of the combustion products. The combustion products are then expanded through a power generating device, such as a turbine or piston expander to deliver output power for operation of a vehicle or other power uses.

Abstract: A low or no pollution engine is provided for delivering power for vehicles or other power applications. The engine has an air inlet which collects air from a surrounding environment. At least a portion of the nitrogen in the air is removed using a technique such as liquefaction, pressure swing adsorption or membrane based air separation. The remaining gas is primarily oxygen, which is then compressed and routed to a gas generator. The gas generator has an igniter and inputs for the high pressure oxygen and a high pressure hydrogen-containing fuel, such as hydrogen, methane or a light alcohol. The fuel and oxygen are combusted within the gas generator, forming water and carbon dioxide with carbon containing fuels. Water is also delivered into the gas generator to control the temperature of the combustion products. The combustion products are then expanded through a power generating device, such as a turbine or piston expander to deliver output power for operation of a vehicle or other power uses.

Abstract: A low or no pollution engine is provided for delivering power for vehicles or other power applications. The engine has an air inlet which collects air from a surrounding environment. At least a portion of the nitrogen in the air is removed using a technique such as liquefaction, pressure swing adsorption or membrane based air separation. The remaining air is primarily oxygen, which is then compressed and routed to a gas generator. The gas generator has an igniter and inputs for the high pressure oxygen and a high pressure hydrogen containing fuel, such as hydrogen or methane. The fuel and oxygen are combusted within the gas generator, forming water and carbon dioxide with carbon containing fuels. Water is also delivered into the gas generator to control a temperature of the combustion products. The combustion products are then expanded through a power generating device, such as a turbine or piston expander to deliver output power for operation of a vehicle or other power uses.

Abstract: A low or no pollution engine is provided for delivering power for vehicles or other power applications. The engine has an air inlet which collects air from a surrounding environment. The air is compressed through multiple stages of compression with intercoolers between the compressors. The air is then purged of any constituents which have a relatively high freezing point in a scrubber and then expanded in a turboexpander which causes the air to be cooled down to near air liquifaction temperatures. The air is then passed through a rectifier, where nitrogen is removed from the air. The remaining air is substantially entirely oxygen, which is then compressed and routed to a gas generator. The gas generator has an igniter and inputs for the high pressure oxygen and a high pressure hydrogen containing fuel, such as hydrogen or methane. The fuel and oxygen are combusted within the gas generator, forming water and possibly carbon dioxide.

Abstract: An auxiliary power assembly (5) for use with a heavy-duty diesel engine (8) of the type used in the trucking industry and including a small auxiliary diesel engine (9), an air compressor (10), a compressed air accumulator (17) fluid coupled to the air compressor (10), and a pneumatic starter (21) fluid coupled to the accumulator (17) and mechanically coupled to start the heavy-duty diesel engine (8). The auxiliary power assembly (5) further drives: a coolant pump (51) connected to circulate coolant between the auxiliary engine (9) and main diesel engine (8), a refrigerant compressor (41) formed to pump air conditioning fluid from the main diesel engine air conditioning system to the vehicle cab (70), and a pre-oiler pump (83) used to pressurize lubricating oil in the main engine (8). A method of operating the overall assembly and for retrofitting an existing heavy-duty diesel engine (8) with the auxiliary power assembly (5) also are disclosed.

Abstract: A power plant for generating electric power and pneumatic pressure includes an internal combustion engine, an electrical generator, and a compressor and pneumatic supply tanks. Both the electrical generator and the compressor are driven by the engine, however, the engine drive is so coupled and controlled that the engine drives the generator as its primary load, and the compressor as its secondary load and apportions the engine power between these units according to need. When the generator uses all the engine power, pneumatic power is supplied by the pneumatic supply tanks, permitting a smaller than normal drive engine. A quick start and quick kill mechanism is provided for the engine by using the air supply from the pneumatic supply tank and an air motor, and a time delay shut down relay when no power is being used. Also the generator can be used as an electric drive motor for the compressor in place of the internal combustion engine, where 110 volt power is available on the job site.

Abstract: A vehicle engine starter includes a self-contained solenoid-operated valve and a self-contained relay valve which simplify installation of the starter by reducing the number of electrical and pneumatic hook-ups between the starter and the electrical and pneumatic systems of the vehicle.

Abstract: A low-profile internal combustion engine is disclosed, featuring a unitary flywheel spark generation and distributor assembly. A hydraulic starter system is disclosed which may be adapted to such internal combustion engine. The engine of the invention is particularly suitable for use in push-type lawnmowers, to provide a low-profile construction enabling mowing of landscape areas such as under low lying tree branches, beneath bushes, etc., which are otherwise inaccessible to high-profile conventional lawnmowers.

Abstract: In order to avoid the necessity of a conventional electric starter motor a hydrostatic starting system for the engine of a motor vehicle is proposed for the engine whose output shaft is connected with a hydromechanical power transmission, composed of a mechanical part and at least two hydrostatic machines. The starter system comprises its own hydraulic accumulator which as regards its filling capacity and power output is designed for starting the engine at least once and a controller which responds to certain halt and operational states of the vehicle. The charging of the hydraulic accumulator takes place during braking of the vehicle via the hydrostatic machines of the power transmission or, if there is insufficient brake power, of an auxiliary device.

Abstract: Engine pre-engage starters formed of compactly interfit sections featuring a universally applicable high speed turbine rotor, formed preferably of nylon based plastic, the body of which is distinguished by low tensile strength, high impact resistance, radial growth and adjustment in correspondence with the speed of its rotation, minimal evidence of stress and no material fracture even under the most adverse conditions of its use and a structural composition which reduces to powder form when subjected to friction at such time the speed of its rotation reaches and exceeds a prescribed limit. The rotor is so connected with its power transmission shaft to position beyond and form an axial extension of one end thereof. The rotor is contained by a peripherally encompassing structurally complementary plastic buffer which enhances its fail safe properties. Optionally, the starter housing may be provided with discretely positioned sound deadening inserts.

Abstract: A compressed air starting device includes a starter with a starter motor operated at least indirectly from a pneumatic pressure reservoir and a meshing unit controlled by a signal input. A main valve is provided in the supply line between the pressure reservoir and the starter motor and a signal connection is provided between the meshing unit and the main valve. The compressed air starting device includes a control device with a sensor input for the pressure level in the pressure reservoir, a signal output connected to the signal input of the starter, a signal input for introducing the starter signal as well as an input for supplying the auxiliary energy required for generating signals. The auxiliary energy may be compressed air taken from the pressure reservoir. Electrical, mechanical or hydraulic energy can also be used as the auxiliary energy.

Abstract: An energy storage automotive drive system wherein energy from deceleration of a vehicle is stored, preferably in pressurized fluid form, for use upon acceleration. The drive system is designed primarily for retrofitting of existing vehicles and has control features adapted to facilitate installation, maximize efficiency and protect the system against malfunction, wear and excessive stress.

Abstract: My invention relates to an emergency air jump system for use with motor vehicles having an internal combustion engine that is started by an air type starter. This type of engine is usually started, when on the road, by means of air from an air tank charged from an air compressor actuated by the engine when running. When the air from the tank is depleted a stopped engine cannot be started without outside air. My air jump system provides a means of recharging or re-pressurizing the air tank by utilizing the existing air from a tire normally used or carried by the vehicle, thereby obviating the need for road service. The jump start air line has a coupling adapted to be sealingly connected to the existing outside accessible coupling to the air starter tank, an air line connected to the jump coupling at one end and connected to a female air chuck at the other end.

Abstract: A method for driving a vehicle driven by an internal combustion engine having a plurality of compression chambers divided into a first set and a second set, each of said sets being able to be separately operated and to be convertible in operation so as to take on compression action.

Abstract: An auxiliary starter mechanism for automobile engines and the like for use in starting the engine when the primary starting system provided with the engine is inadequate for the purpose, the mechanism having a reservoir containing a gas such as air under pressure; a control valve operable from a driver's position of the automobile; an air motor mounted on the primary starting system of the engine and operable to drive the primary starting system; and a conduit interconnecting the reservoir, control valve and air motor in series relation for driving the air motor and thus the primary starting system upon opening of the control valve.

Abstract: A method for driving a vehicle driven by an internal combustion engine having a plurality of compression chambers divided into a first set and a second set, each of said sets being able to be separately operated and to be convertible in operation so as to take an compression action.

Abstract: A multi-cylinder diesel internal combustion engine with a supercharger and a charging air starting arrangement which includes a starting air reservoir and a starting air distributor. An additional air reservoir is provided for storing a quantity of supplemental charging air with the additional air reservoir being selectively communicated with air inlet valves during at least an acceleration and/or sudden loading of the engine.

Abstract: A radial motor powered by pressurized gas is disclosed as used for starting the internal combustion engine of a portable implement such as a powered chain saw or lawn mower. The motor is designed for economical manufacture and assembly, durability, and economy of gas used. It includes pistons formed of stiff resilient material that in assembly are snapped onto the outer ends of connecting rods and held in place during operation of the motor without the use of retaining rings, pivot pins or screws. The inner ends of these connecting rods are held in sockets in connecting rod mounting means either by the shapes of the sockets or by the resilience of either or both of the connecting rod and mounting means. The motor includes a rotatable valve driven by a free end of the crankshaft to feed gas to the cylinders.

Abstract: An economical gas powered starting system is provided for relatively small, consumer operated implements powered by two or four cycle internal combustion engines. A low cost, radial piston starter motor is coupled to a liquified gas energy cell by a metering arrangement which charges a predetermined amount of gas to the motor, just sufficient to start the engine in its operating environment. The system and motor design disclosed develops torque-speed-time characteristics insuring excellent starter reliability.