LUGA ENRICO S (PH)
LUGA ENRICO S (PH)
| WO2006116849A1 | 2006-11-09 |
| DE8815513U1 | 1989-05-24 | |||
| CN101476745A | 2009-07-08 | |||
| CN2830919Y | 2006-10-25 | |||
| CN1196464A | 1998-10-21 | |||
| CN2177902Y | 1994-09-21 | |||
| CN2138760Y | 1993-07-21 | |||
| CN2393001Y | 2000-08-23 |
| 1. A cooking apparatus comprising: an eiectrolyzer which produces a combustible fuel from a water source, a burner downstream from the eiectrolyzer, a main scrubber unit in flow communication with the eiectrolyzer, a series of conditioning chambers which manage and condition the flow of the combustible gas with a compressed air from an air tank before the combustible gas flows upstream to the burner, an air pump to supply said compressed air to the air tank, and a powen control module connectible to a power supply by a power cord, said · power control module supplying power to said air pump and eiectrolyzer. 2. A cooking apparatus as set forth in claim 1 , wherein said power control module includes a bridge rectifier to supply DC power source to the eiectrolyzer. 3. A cooking apparatus as set forth in claim 2, wherein said power control module further includes a dry cell in series connection with the DC power source. 4. A cooking apparatus as set forth in claim 3, wherein the eiectrolyzer, air tank, main scrubber unit, series of conditioning chambers and power control module are lodged in a single housing module, and said burner being disposed on top of said housing module. A cooking apparatus as set forth in claim 4, wherein said water source includes a water reservoir having a filler port disposed outside the housing module to facilitate easy water refilling. Ί |
TECHNICAL DESCRIPTION
This utility model generally relates to a cooking apparatus and more specifically to a cooking apparatus having water as fuel by using an electrolyzer to produce the combustible gas from water.
BACKGROUND OF THE UTILITY MODEL
Various types of cooking apparatus are known. Known cooking apparatus utilize liquefied petroleum gas (LPG) that is stored in a tank as fuel. When LPG tanks went empty after a certain amount of usage, delivery of a filled-up tank is necessary to replace the empty tank. This exercise has been proven impractical yet inevitable since no other convenient way of refilling the tanks are known. Another disadvantage of using LPG as burner fuel is safety since leaks can happen in the LPG line and since the LPG is a heavy gas and highly combustible, the gas leak may settle in the environment and may explode with open flame.
And due to high demand for LPG, shortage of supply forces the price of LPG to soar which results in higher food prices.
Moreover, the use of LPG and other fossil fuels emit compounds which are harmful to the environment. The flame coming from LPG is also proven to be unclean that it produces carbon muck and soot under the cooking pan or kettle.
OBJECTS OF THE UTILITY MODEL
The main object of the present utility model is to provide a cooking apparatus which uses water as the raw fuel for use as heating medium eliminating the use of LPG by employing an electrolyzer which produces combustible hydrogen and oxygen from water.
Another object is to provide a cooking apparatus which produces a cleaner and more efficient flame than the prior art since the flame from hydrogen and oxygen are denser and does not produce carbon muck and soot.
Another object is to provide a cooking apparatus that is safer since leaking of hydrogen or oxygen is not hazardous to any accidental explosion since hydro gas is about 14 times lighter than air and will quickly dissipate back into the atmosphere and becomes inert. Compared to LPG, a leak in this system will not pose any danger to safety in terms of air pollution or fire hazards
Other and allied objects will be apparent to those skilled in the art after a careful perusal, examination, and study of the accompanying illustrations, the present specification, and the appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS
To facilitate understanding, reference will be made to the herein below- described figures, in which: FIG. 1 is a perspective view of a cooking apparatus of the present utility model;
FIG. 2 is a front view of the cooking apparatus showing the elements comprising the same;
FIG. 3 is a diagram showing the structural interconnections of the elements; and
FIG. 4 is a circuit diagram of the power control module and its outside connection to other elements.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
Referring now to the several views of the drawings wherein like reference numerals designate same parts throughout, there is shown my utility model for a cooking apparatus generally designated as 0.
The cooking apparatus 10 uses electrolytic process to extract from water combustible gases hydrogen and oxygen to be used as fuel instead of the conventionally used LPG. Electrolyzed water which forms gases of hydrogen and oxygen, also known as HydrOxy or Oxy-hydrogen enriched gas, which is a full reformation of water rom its non-combustible liquid state to a highly combustible and implosive diatomic gas state through electrolysis by applying electricity on a clean tap or distilled waterwith a small amount of electrolyte.
The apparatus 10 comprises of an electrolyzer 11 which extracts the hydrogen and the. oxygen from water coming from a water source. The water source is stored in a water reservoir 12. The electrolyzer is powered by a DC electricity 30. The water flowing to the electrolyzer flows through and from a main scrubber unit 13 wherein the primary condensation and recirculation takes place.
The hydrogen and oxygen gases then passes through a series of conditioning chambers 14 wherein compressed ambient air is injected into the system. The ambient air is supplied from an air pump 15 and is stored in an air tank 16. The ambient air mixes in a proportional ratio with the scrubbed hydrogen and oxygen gases. The compressed air also manages and conditions the flow of the combustible gases upstream to a burner 17.
A power control module 18, being provided with a power cord 19 connectible to a wall electrical source, supplies power to the air pump 15 and DC supply 30 to the electrolyzer 11 via a bridge rectifier 31. A dry cell 32 is provided in series connection with the DC source 30. This electrolytic cell has a very low resistance and the cell acts like a "Kinetic Magnetic Current Inducer" which allows electrons to pass through the resistive water solution cavity at a much higher velocity. The higher electron speed creates a resonant vibration or frequency which allows the cell to extract or push out hydrogen and oxygen gas at a much higher rate.
All the elements making up the system such as the electrolyzer 11 , reservoir 12, main scrubber 13, conditioning chambers 14, air pump 15, air tank 16 and power control module 18 are lodged in a single cabinet-type housing module 20 except for the burner 17 which is disposed at the top of the housing module 20. The cabinet housing allows the present cooker to be easily transported from one location to another.
The water reservoir 12 has an extended filler port 21 which is disposed outside the housing module 20 to facilitate easy water refilling to the system. The cooking apparatus further includes a circuit breaker 33 disposed inside the power control module 18 to provide electrical safety from abnormal conditions such as overcurrent and overvoltage. Pressure sensor and pressure switch module 34 are provided to cut-off system flow when very large pressure develop.
The embodiment of the present utility model specifically described herein is exemplary only, and is not intended to limit the scope of the present utility model to the precise form disclosed, and many modifications and variations are possible in light of the above teaching without deviating from the spirit and the scope of the utility model.