ITGE20130013A1 - "BORRACCIA EQUIPPED WITH A SYSTEM FOR THE PURIFICATION OF WATER BY OZONE" - Google Patents

Description

"Bottle equipped with a system for water purification using Ozone",

Description

The present invention relates to a device that can be used to purify water from microorganisms (bacteria, fungi, viruses, viroids, etc ...) and / or chemical substances. It is known to the international scientific community that Ozone (unstable gas with the chemical formula O3 <),> is a strong oxidant which, over time, spontaneously transforms itself back into Oxygen. For this reason it is produced at the time of need, generally causing very high voltage electrical discharges capable of converting Oxygen, for example atmospheric, into Ozone. This gas, having the chemical formula "O3 <",> strongly oxidizing, has a strong disinfectant action. It is used to purify swimming pool water, to treat drinking water, to purify industrial and civil waste water but also in numerous other activities that exploit both the oxidizing power of the ozone molecule and its rapid decomposition into substances. harmless to human health, a consideration that makes this gas particularly suitable for use in sectors where there is the presence of human beings. The present invention makes it possible to use the sterilization and chemical decontamination of water by means of ozone gas, directly in portable systems, for example in "flasks" or in bottles used, for example, in the military and / or civil sector. The device object of the present invention allows to produce the "Ozone" gas in any climatic and environmental situation, at any time of the day and makes water purification and sterilization, whatever its own, directly inside the flask, the bottle or in any case of the portable container in which the device was installed. Think, for example, of a soldier who needs to drink wherever he is and in potentially dangerous situations and for whom, the possibility of using an efficient and effective purification system could represent an element of survival of undoubted utility. However, this device can be used by anyone, for example during camping activities but also during excursions or tourism in areas of the world where drinking water is difficult to find or, in any case, there is no certainty of the chemical and bacteriological quality. of the water available for human activities.

In the present invention, in one or more parts, for example in the one below, of a water bottle (or bottle), a space is obtained in which an ozone generator is inserted (for example for the "Corona" effect) which , electrically powered as indicated in the rest of the present description, makes it possible to purify the water. By operating the device, the Ozone gas is generated which is then bubbled into the bottle and, in this way, an effective and efficient water purification is obtained.

In this case, the present invention is based on the use of a device according to claim 1. Other advantageous aspects are the subject of the dependent claims. Further characteristics and advantages of the present invention will be better understood in the course of the present description, considered by way of non-limiting example and referring to the attached drawings in which:

Figure 1 represents a container for liquids, for example a flask (or a bottle), in the bottom of which a device capable of generating Ozone is inserted; this gas is then blown into the bottle when a person blows into a special cannula.

Figure 2 represents a container for liquids, for example a water bottle (or a bottle), in the bottom of which is inserted a device capable of generating Ozone which is made to bubble in the water by means of an electrically operated pump. - figure 3 represents a container for liquids, for example a water bottle (or a bottle), in the bottom of which is inserted a device capable of generating Ozone which is made to bubble in the water by means of a manually operated pump. With reference to these attached drawings and with particular reference to figure 1 of the same, the number 1 indicates, in section, a normal flask (or bottle), made of any material, for example of a plastic type. This bottle comprises a hollow cylindrical body (101), bearing a bottom (201) having a predetermined shape and a threaded neck (301) from which liquids can flow and onto which a cap (14) can be screwed. Thanks to a sheet (15), in a portion of the container, for example in the bottom, a "double bottom" is obtained, the volume of which is included between the sheet 15 and the bottom of the container itself (201). In said double bottom there are housed an ozone generator (3), a current accumulator such as, for example, a rechargeable battery (4), an electric current generator of the "dynamo" type (5), an electrical management system and / or electronics of the system (16) capable, for example, of treating the current produced by the dynamo by transforming it into electrical energy with characteristics suitable for powering the ozone generator, recharging the battery, etc. This electrical / electronic device (16 ) Consists of different components positioned where necessary, in the electrical circuit of the device object of the present invention, and able to manage the current flow generated following the operation of the dynamo (5) and / or the energy accumulated in the battery ( 4). Air can flow through the cannula (12) which, after passing through a non-return valve (8), enters the ozone generator (3). A tube 10 comes out of this ozone generator which carries the air, enriched with the ozone produced in the generator 3, inside the container for liquids (1). The cannula (10) is intercepted by a non-return valve that prevents the water from flowing from the bottle towards the ozone generator (3). At the end of the cannula is connected an Ozone diffuser (9) capable of effectively dispersing the Ozone in the water (2). AI through said diffuser (9), the Ozone (11) gurgles in the water (2) and carries out its own decontaminating activity. The battery (4) can be charged by activating the dynamo (5). Instead of the dynamo, the device can be connected, through the connectors (6), to any source of electricity, for example through the cigarette lighter of a car or through a solar panel of any size and shape, for example installed on the external walls of the container (1).

The dynamo (5) can be operated with a special crank (501) to generate electrical energy. This energy can be used directly for the generation of Ozone or it can be stored in the battery (4) or, depending on the configuration of the electrical / electronic management system (16), also both at the same time.

By closing the electric circuit, with the switch (7), the generator (3) begins to produce the Ozone gas thanks to the electrical energy stored in the battery (4) and / or generated by the dynamo (5). The user (17), exhaling, with sufficient force, through the cannula (12) allows the Ozone gas produced in the generator (3) to disperse in the water through the diffuser (9). In this way, by dissolving in the water (2) present in the container (1), the ozone carries out its purifying action. To avoid overpressure which could hinder the exhalation through the cannula (12), at the top of the container there is a vent valve (13) which can be incorporated in the cap (14) of the container. The non-return valve (8 '), located upstream of the Ozone generator (3) and downstream of the mouthpiece from which the user exhales, guarantees the user himself that he cannot mistakenly suck in the Ozone produced by the generator (3 ). After a certain time has elapsed from the end of the user's exhalation, the water will be purified thanks to the action of the Ozone that has dissolved in it.

Figure 2 represents a system similar to that shown in Figure 1 with the difference represented by the fact that the air is circulated in the system by means of a suitable pump equipped with an electric motor (17 ') instead of thanks to the user's exhalation ( 17). Figure 3 represents a variant of the system described in Figure 2 in which the pump (17 ") which pushes the air through the generator and therefore into the liquid to be purified, is operated manually, simultaneously with the generation of electric current by the dynamo. The user, by turning the handle (501), not only produces the electrical energy necessary for the production of ozone but also activates the pump (17 ") which generates an air flow through the generator (3) and from this the diffusion of the air enriched with Ozone in the water (2) present in the container (1) through the diffuser (9). This variant, with respect to the system represented in figure 2, allows the use of electricity exclusively for the production of ozone while, with respect to the system represented in figure 1, for the same electricity used, it avoids the user having to exhale in the cannula (12). In the device shown in Figure 3, the motion applied to the crank (501) is mechanically transmitted, for example by means of gears and / or belts (18), to the pump (17 ") which has, for example, an axis hinged integrally to the bulkhead of the double bottom (19) in which the device object of the present invention is installed. This axis rotates on itself thanks to the operation of the handle (501) and transmits to the pump (17 ") the necessary movement to ensure that the air can flow through the device without wasting electricity.

In each of the variants described above and shown in the drawings of figures 1, 2 and 3, the battery (4) can also be absent and the generator (3) can be powered in a

Claims (3)

Claims 1. Device, according to figure 1, capable of generating Ozone, installed in a space specially made in a water bottle (or in a bottle) (1), for example by creating a double bottom in the same container for liquids thanks to a special foil (15 ). The device is characterized by the fact that it is equipped with an Ozone generator (3) which is electrically powered thanks to the manual operation of a dynamo (5). Following the activation of the dynamo (5), electric energy is produced which, suitably managed by an electric / electronic system (16), powers a battery (4) and / or the ozone generator (3). The user (17), exhaling with sufficient force into a cannula (12) connected to the generator (3), guarantees the air flow necessary for the operation of the device as well as the bubbling of the Ozone gas in the water through the diffuser ( 9). The system is also characterized by the fact that it is equipped with two non-return valves (8 and 8 ') capable of guaranteeing the flow of gas in the only direction useful for water treatment. A vent valve (13) allows easy exhalation by the user (17). 2. Device according to claim 1 characterized in that the air and ozone are circulated in the system by means of a pump (17 ') driven by an electric motor. 3. Device according to claim 1 characterized in that the air and ozone are circulated in the system by means of a pump (17 ") which is mechanically operated when the crank of the dynamo (501) is operated.