AUTOMOBILE HYDROGEN AND OXYGEN GENERATOR

Abstract

An automobile hydrogen oxygen generator includes an electrolytic hydrogen-oxygen generator, a motor, a battery, a filter and a circuit board. The electrolytic hydrogen-oxygen generator has water therein, an electrolytic tank connected to the battery, a relay sandwiched between the electrolytic tank and the battery and connected to the circuit board which is connected to an ignition switch. The filter is connected to the motor via air inlet and the electrolytic hydrogen-oxygen generator is connected to the air inlet via an air conduit.

Claims

1. An automobile hydrogen oxygen generator having an electrolytic hydrogen-oxygen generator, a motor, a battery, a filter and a circuit board, characterized in that: the electrolytic hydrogen-oxygen generator has water therein, an electrolytic tank connected to the battery, a relay sandwiched between the electrolytic tank and the battery and connected to the circuit board which is connected to an ignition switch; the filter is connected to the motor via air inlet and the electrolytic hydrogen-oxygen generator is connected to the air inlet via an air conduit.

2. The generator as claimed in claim 1, wherein an electrolytic tank containing therein water is provided inside an enclosed casing of the hydrogen oxygen generator and includes at least two parallel baffles, at least two proton exchange membrane and water guides respectively sandwiched between the at least two baffles and the at least two proton exchange membranes; on two opposite sides of each of the baffles and each of the proton exchange membranes, a plate is provided and connected to the battery of direct current in nature; at bottom of the plates and water guides, holes are defined; outlets are formed on top of the plates and water guides, periphery of each of the plates, proton exchange membranes and water guides is sealed in a watertight manner so that water is able to flow through the holes, exits from the outlets and returns to the casing; the plates are fixed under the baffles and respectively have a height of 10%˜90% the height of the baffles; ribs are alternately installed inside each of the water.

Description

BRIEF INTRODUCTION OF THE DRAWINGS

[0011] FIG. 1 is a schematic structural view of the present invention;

[0012] FIG. 2 is a schematic structural view of the electrolytic cell of the present invention;

[0013] FIG. 3 is a schematic structural view of the baffles of the present invention; and

[0014] FIG. 4 is a schematic structural view of the baffles of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0015] The preferred embodiment of the present disclosure would be clear with the following description along with the attached drawings.

[0016] With reference to FIG. 1, it is to be noted that the automobile hydrogen-oxygen generator constructed in accordance with the present disclosure includes an electrolytic hydrogen-oxygen generator 1, a motor 2, a battery 3, a filter 4 and a circuit board 5. An electrolytic tank 6 containing therein water is also provided and connected to the battery 3 with a relay 7 sandwiched there between. The relay 7 is connected to the circuit board 5 which is connected to the ignition switch 8. The filter 4 is connected to the motor 2 via an air inlet 9. The electrolytic hydrogen-oxygen generator 1 is connected to the air inlet 9 via an air conduit 10.

[0017] With reference to FIGS. 2, 3 and 4, the electrolytic tank 6 is installed inside the enclosed electrolytic hydrogen-oxygen generator 1 and includes at least two parallel baffles 6-1, at least two proton exchange membrane 6-2 and water guides 6-3 respectively sandwiched between the at least two baffles 6-1 and the at least two proton exchange membranes 6-2. On two opposite sides of each of the baffles 6-1 and each of the proton exchange membranes 6-2, a plate 6-4 is provided and connected to the battery 3 of direct current in nature. At the bottom of the plates 6-4 and water guides 6-3, there are provided with holes 6-5. On the top, outlets 6-6 are formed. The periphery of each of the plates 6-4, proton exchange membranes 6-2 and water guides 6-3 is sealed in a watertight manner so that water is able to flow through the holes 6-5, exits from the outlets 6-6 and returns to the case. The plates 6-4 are fixed under the baffles 6-1 and respectively have a height of 10%˜90% the height of the baffles 6-1. Ribs 7-1 are alternately installed inside the space inside each of the water guides 6-3.

[0018] Without the use of the traditional addition of electrolyte in the battery, the electrolytic hydrogen-oxygen generator constructed in accordance with the embodiment of the present invention uses water to produce essential hydrogen and oxygen.

[0019] The use of proton exchange membranes applies nanotechnology to boost the generation of oxygen more readily and easily.

[0020] The implementation of electrolytic hydrogen-oxygen generator as well as other novel elements listed in the embodiment of the present invention accomplishes two major goals, i.e., reduce emission and cost saving. In the aspect of reduce emission, the application of the novel electrolytic hydrogen-oxygen generator in a normal car is able to achieve 13.6 and 120 times lower than the fifth European Emission Standards and the commercial automobile is able to achieve 6.5 and 30 times lower than the Standards. In the aspect of fuel saving, with the use of the hydrogen-oxygen generator of the embodiment of the present invention, a normal automobile is able to save up to 15˜25% of fuel consumed and the horsepower may also boost up to 10%. The lifespan of the generator may well be prolonged.

[0021] The disclosure of the preferred embodiment is introduced without any prejudice and those skilled in the art would easily understand from the disclosure the technology used therein and readily develop a modification, amendment or improvement of what is disclosed. Therefore, the disclosure above is not in a limited sense and the scope of the disclosure should be defined in the following claims.