GR1009152B - Portable device for molecular hydrogen production - Google Patents

Abstract

Novelty: a portable device designed for the production of molecular hydrogen is disclosed. Constitution: the protective cover 10 bearing the operation control screen 1, the operation switches 3, the power input 4, the central power supply unit positioned in the interior of the device 5 with an incorporated ac-to-dc converter 6, the tube 6 conveying the molecular hydrogen and atomic oxygen , the fans 7, the molecular hydrogen and atomic oxygen production unit comprising two electrodes 11, the relief container 9 and the tube 12 which is projecting outside the device, connected to the above relief container 9 and having at its end desired nozzles (13,14,15) which can be alternatively utilized for varying applications, according to use.

Description

PORTABLE MOLECULAR HYDROGEN PRODUCTION DEVICE

DESCRIPTION

Technical field

The present invention refers to a molecular hydrogen (H2) production device, which is characterized by being portable, simple in its construction, particularly economical in its operation and which, through mild electrolysis of water, produces molecular hydrogen (H2) and atomic oxygen ( THE).

Technological background

To date, no similar product of molecular hydrogen production for direct human use has been known. In particular, many studies have been published that certify that the use of molecular hydrogen has many beneficial and therapeutic properties for the human body, since it can easily diffuse into the subcellular compartments and rid them of cytotoxic oxygen radicals, thereby protecting the way DNA, RNA and proteins from oxidative stress. It has also been shown that the use of molecular hydrogen causes the activation or upregulation of additional antioxidant enzymes and cytoprotective proteins of the body. However, until now the only way to produce molecular hydrogen was chemically through industry, which required complex processes and high costs of production, storage and transportation of the product.

All the above disadvantages prompted me to find a solution, the result of which is the subject of this description. With my invention, the disadvantages I described above were eliminated, since the device I invented is simple in construction in its structure and operation, but also particularly economical in its operation and maintenance, making the production of molecular hydrogen a particularly easy task. Also, the invented device enables the production of molecular hydrogen and atomic oxygen without the need to compress them but through a free-flow process during their production, while it also operates at ambient temperature.

Disclosure of Invention

My invention will become apparent to those skilled in the art by reference to the drawings accompanying this description, in which certain industrial applications of the invention are illustratively illustrated.

In particular, Figure 1 shows a perspective view of the invented device externally.

Figure 2 shows the invented device from a side view. Figure 3 shows the interior of the invented device. Figure 4 shows the invented device with nozzles for application in water hydrogenation.

Figure 5 shows the invented device with nozzles suitable for hydrogen inhalation.

Figure 6 shows the invented device with nozzles suitable for enriching normal saline with hydrogen.

Referring to a selected illustrative example of the application of the invention, I then proceed to a numbering of its main parts, with reference to a corresponding numbering of these parts in the attached drawings, where they are shown in an indicative descriptive illustration, without scale but simply in proportion to the sizes of the the parties.

According to the selected industrial application of the invention, the invented device is surrounded by a protective cover (10) made of metal or other suitable material, which has an integrated operation control display (1), operation indicator lights (2) and operation switches (3). . It also has a current input (4) of electrical voltage from 110 to 240 volts e/c. Inside the device, the central power supply unit (5) with built-in current converter from alternating (a/c) to direct (d/c), the tube (6) for transporting molecular hydrogen (H2) and atomic oxygen (O ), fans (7), the production unit (8) of molecular hydrogen (H2) and atomic oxygen (O) containing two electrodes (11), the relief vessel (9) and the pipe (12), which is connected to relief container (9) on the edge of which the desired nozzles are attached.

In order to operate the device, through the current input (4) the central power supply unit (5) is supplied with a current of voltage from 110 to 240 V. After the device is activated through the switches (3), the central unit 5, converts the alternating current voltage from 110 to 240 V DC, voltage from 5 to 2.5 V and then supplies the molecular hydrogen and oxygen production unit (8), which has two electrodes (11) and contains water. The gases (H2) and (O) produced in the production unit (8) with a mild electrolysis process are transported through the pipe (6) to the relief vessel (9) and from there through the pipe (12) the molecular hydrogen (H2) ends up outside the device. Various nozzles can be fitted to the end of the tube depending on the desired use or application, such as, for example, nozzles (13) for hydrogenation of water, nozzles (14) for hydrogen inhalation or nozzles (15) for enrichment of saline with hydrogen.

It should be appreciated that the subject matter of the invention is not limited to the above example. The achievement of the invention is also possible with other manufacturing methods and components which remain within the scope of the present description.

Claims (4)

1. A portable molecular hydrogen generator, characterized by being surrounded by a protective cover (10) and having inside a central power supply unit (5) with a built-in AC (a/c) to DC (d/ c), tube (6) for transporting molecular hydrogen (H2) and atomic oxygen (O), fans (7), production unit (8) of molecular hydrogen (H2) and atomic oxygen (O) containing two electrodes (11), container relief (9) and pipe (12), which is connected to the relief container (9) exits the device and the desired nozzles are connected to its end. 2. A portable molecular hydrogen production device, according to claim 1, which is characterized in that it has a built-in operation control display (1), operation indicator lights (2), operation switches (3) and a current input (4) of electrical voltage from 110 to 240 volts e/c. 3. A portable molecular hydrogen production device, according to claim 1, which is characterized in that at the end of the tube (12) various nozzles are alternately connected, such as nozzles (13) for hydrogenating water, nozzles (14) for inhaling hydrogen or nozzles (15) for enrichment of normal saline with hydrogen. 4. A portable molecular hydrogen production device according to claims 1 to 3, characterized in that in order to operate, the central power supply unit (5) is supplied with a voltage current of 110 to 240 V through the current input (4) and after activating the device through the switches (3), the central unit (5), converts the alternating current from 110 to 240 V into direct current from 5 to 2.5 V and then supplies the molecular hydrogen production unit and oxygen (8), containing water, where through a process of mild electrolysis, the gases (H2) and (O) produced are transported through the tube (6) to the relief vessel (9) and from there through the tube (12) the molecular hydrogen (H2) ends up outside the device and is channeled through nozzle (13) for hydrogenation of hydrogen or nozzle (15) for filling water, or nozzle (14) for inhalation of saline with hydrogen.