JP 58-202352 - Hydrogen Gas Injection Apparatus for Internal Combustion Engine
Japanese Patent Office (JP)
Publication Number: JP 58-202352 (A)
Publication Date: November 25, 1983International Classification (Int. Cl.): F 02 M 21/02
Application Number: JP 258-23867
Filing Date: February 15, 1983
Priority Claim: US February 17, 1982 (US) 349185Title: Hydrogen Gas Injection Apparatus for Internal Combustion Engine
Applicant:
Stanley A. Meyer
3792 Broadway, Grove City, Ohio, USAInventor:
Stanley A. Meyer
3792 Broadway, Grove City, Ohio, USAAgent:
Law Firm: Nakamura & Associates (with 4 additional attorneys)
Scope of the Claims:
(1) A housing for storing compressed gas, wherein the gas includes a natural gas mixture. This housing contains a pair of electrodes with non-conductive properties. These electrodes are arranged to apply direct current or high-voltage electric charges to the gas mixture in the housing. The system is designed to dissociate molecules of hydrogen and oxygen from the gas molecules. The residual gas is then collected and stored.
A method to extract hydrogen gas from the housing by controlling the pressure within the housing.
A mechanism to collect hydrogen gas generated within the housing through an outlet connected to the fuel combustion chamber.
A method to separate undesirable gas components from the gas generated, and return the remaining components to the housing.
A system to control the air-fuel mixture entering the combustion chamber by adjusting the volume of undesirable gas released.
(2) A device as described in (1), wherein the housing contains a variable valve to control the air pressure and the amount of hydrogen gas introduced to the combustion chamber.
(3) A method for separating hydrogen gas and oxygen gas within the housing, and transferring the gas through separate outlets.
(4) A system to use the separated hydrogen gas in combination with another fuel to create an air-fuel mixture suitable for combustion.
(5) A combustion device, wherein the rod mechanism connected to the tape-equipped rotating structure described above, and the port to which the tape-equipped rotating structure is connected, causes the displacement of said tape-equipped rotating structure.
(6) The gas mixture chamber, where it includes a hydrogen-oxygen gas injection device and also a non-explosive gas mixing device.
(7) The gas mixture chamber includes a trapping area in the upper and lower sections, and the hydrogen-oxygen gas mixture portion is stored in the trapping area.
(8) The surrounding air intake device includes a control mechanism, and a combustion device as described in claim (1), wherein the surrounding air and non-explosive gas mixture are directed into the chamber.
(9) ???
(10) The surrounding air intake device in claim (8), which allows the combustion chamber to intake oxygen and hydrogen gas into the trapping area for combustion.
(11) The combustion device in claim (1), wherein a control device is provided to connect the burner and the hydrogen-oxygen gas supply device, which controls the on/off operation of the burner to control the flow of gas.
(12) The combustion device in claim (1), wherein the control mechanism connected to the burner is pressure-regulated.
(13) A housing that surrounds the mixture chamber, having a first opening in the housing for air intake and a second opening in the housing to allow hydrogen gas captured in the mixture chamber to release into the atmosphere.
(14) The upper part of the hydrogen-oxygen gas generator includes a sealing area, wherein the hydrogen gas contained in it is stored at a predetermined amount.
(15) The hydrogen-oxygen gas generator in claim (11), wherein it includes a sulfur dioxide or similar gas and is equipped with a sensor switch that shuts off the combustion system when it detects a pressure drop or when the combustion system is not operating.
(16) The method for connecting hydrogen-oxygen gas to the mixture chamber includes a directional valve as stated in claim (11) of the combustion system.
(17) The method for connecting hydrogen-oxygen gas to the mixture chamber, which includes an emergency device as stated in claim (11) of the combustion system.
(18) The gas burner described in claim (11) is an internal combustion engine, and the non-combustible exhaust gases are expelled through the engine's exhaust as stated in claim (11).
(19) The oil supply device, the multiple oil supply sources, and the oil spray are equipped as stated in claim (10) for supplying oil to the mixture chamber.
3. Detailed Explanation of the Invention
This invention relates to a new combustion device.
In U.S. Patent No. 4,302,807, issued on September 6, 1983, a hydrogen generation system is described, where water is dissociated into hydrogen and oxygen gas. The system passes water between two electrically non-conductive and non-oxidizing metallic plates, applies direct current voltage/electric fields of low energy to the water, causing the water molecules to dissociate into hydrogen and oxygen atoms. This process involves non-combustible, non-reactive electrolysis at low voltages, encouraging sub-atomic reactions. This system includes mechanisms that can separate hydrogen and oxygen gases from the water.
Additionally, in U.S. Patent No. 4,724,644, issued on May 5, 1987, a hydrogen-air gas treatment device is described. This patent discusses a system where hydrogen gas, along with non-combustible exhaust gases, is controlled to prevent combustion.