IT201800010244A1 - Fluid separation device. - Google Patents

Description

BRIEF DESCRIPTION OF THE INVENTION

The present invention relates to a device for separating fluids, applicable in the automotive, nautical, aeronautical, industrial, agricultural, civil, military, chemical and / or domestic fields.

The device for the separation of fluids of the present invention has been conceived both for the separation of different fuels (for example natural gas and LPG) inside the same tank of a car, and for the separation of fluids in the industrial, civil, military or agricultural, such as for the storage of different substances in industrial tanks or silos, both for use in the home, therefore on a reduced scale (small size) such as for the separation of the air from a carbonated drink contained in the inside of a bottle, to prevent said carbonated drink from collapsing when coming into contact with the air. Furthermore, said fluid separation device could also be necessary to prevent the fluid and the walls of the tank (or container) from coming into contact with each other: for example, think of corrosive fluids that can be corrosive to the walls of the tank (or container), thus damaging said walls of the tank (or container). Or think of fluids that can themselves be damaged or contaminated by contact with the walls of the tank (or container). This may also apply to domestic applications, for example in the case of a drink or water contained in a plastic bottle which, when separated from contact with the plastic container, would not risk contamination by phthalates contained in the plastic walls of the bottle, released by the degradation of plastic over time.

It is clear from now on how wide is the multiplicity of possible fields of application of the fluid separation device of the present invention, well beyond the examples given below, which are therefore to be considered by way of non-limiting example.

FIELD OF THE INVENTION

In physics, the term fluids indicates a material (generally made up of a substance or a mixture of several substances) that deforms (flows) unlimitedly when subjected to a shear stress. A fluid is a particular state of matter which includes liquids, gasses, plasma and, in some cases, plastic solids.

Differences between solids and fluids

It is commonly used to distinguish fluids from solids by the fact that the latter have their own shape, while the fluids take the shape of the container that contains them. In solids the stresses generated as a consequence of a deformation are a function of the deformation itself, while in fluids the stresses are proportional to the deformation rate. The fluid behavior is characterized by viscosity while the solid one by the modulus of elasticity (or Young's). At the molecular level this means that two initially contiguous fluid particles can be indefinitely distanced from each other by even a small and constant force; once the deforming cause has ceased, the particles do not tend to approach each other (elastic return) and this is due to the different entity of the intermolecular forces acting inside a solid or liquid.

This clear distinction is actually an approximation, the truth is that in all real materials the stresses are a function of both the strain and the strain rate. The clear prevalence of one behavior over the other determines belonging to one or the other category. There are also materials for which both behaviors coexist and neither one nor the other can be neglected; in this case we speak of viscoelastic fluids (or solids). The science that studies the constitutive link between stresses and strains is called rheology.

Difference between liquids and aeriforms

Liquids differ from aeriforms in that they form a free surface (not created by the container in which the liquid is located), which does not happen in gases. The definition of plastic solids as fluids is not so simple, and the viscosity of the material can be considered in this regard.

Newtonian and non-Newtonian fluids

Depending on how the stress depends on the deformation rate of the fluid, they can be classified as:

• Newtonian fluids: for which the stresses are directly proportional to the deformation rate;

• non-Newtonian fluids: where the stress is not directly proportional to the deformation rate.

The behavior of fluids is described by a series of partial differential equations, based on the laws of mass conservation, momentum balance and energy conservation (these equations for Newtonian fluids are called Navier-Stokes equations).

DESCRIPTION OF THE FIGURES

The device for separating the fluids of the present invention will now be described, for illustrative but not limitative purposes, according to a preferred embodiment, with particular reference to the figures of the attached drawings.

Figure 1 shows the device for separating the fluids of the present invention, applied to a "classic" car tank, which allows to contain methane, natural gas (CNG or LNG), LPG, biomethane or other fluid fuels, comprising :

• a membrane (1), placed inside the tank (3) and connected to the five-way valve (6). Said membrane (1) is useful for containing fuel in a fluid state (such as natural gas or LPG); • a micro-perforated tube (2), rigid, made of metal, placed inside the membrane (1) and connected to the five-way valve (6). Said micro-perforated tube (2) is useful:

- the insertion and extraction of fuel in the fluid state, inside the membrane (1);

- when inserting the membrane (1) inside the tank (3);

- maintaining the membrane (1) in an adequate position while using the system;

• a tank (3), made of metallic or composite material, useful for containing fuel in a fluid state (such as natural gas or LPG); • a five-way valve (6) with coupling for a single membrane (1), useful for introducing fuel in the fluid state, inside the tank (3) and / or the membrane (1).

The configuration described in figure 1 allows you to modify the CNG tanks already installed on cars; to make this change it is necessary to use the five-way valve (6) with hooking for a single membrane (1).

Figure 2 shows the device for separating the fluids of the present invention, applied to a "classic" car tank, which allows to contain methane, natural gas (CNG or LNG), LPG, biomethane or other fluid fuels, comprising :

• a membrane (1), placed inside the tank (3) and connected to the five-way valve (6). Said membrane (1) is useful for containing fuel in a fluid state (such as natural gas or LPG); • a micro-perforated tube (2), flexible, possibly corrugated to increase its compressive strength, placed inside the membrane (1) and connected to the five-way valve (6). Said micro-perforated tube (2) is useful:

- the insertion and extraction of fuel in the fluid state, inside the membrane (1);

- when inserting the membrane (1) inside the tank (3);

- maintaining the membrane (1) in an adequate position while using the system;

• a tank (3), made of metallic or composite material, useful for containing fuel in a fluid state (such as natural gas or LPG); • a five-way valve (6) with coupling for a single membrane (1), useful for introducing fuel in the fluid state, inside the tank (3) and / or the membrane (1).

The configuration described in figure 2 allows you to modify the CNG tanks already installed on cars; to make this change it is necessary to use the five-way valve (6) with hooking for a single membrane (1).

Figure 3 shows the device for separating the fluids of the present invention, applied to a tank of an automobile, suitable for containing methane, natural gas (CNG or LNG), LPG, biomethane or other fluid fuels, comprising:

• a membrane (1), placed inside the tank (3) and connected to the three-way valve (5). Said membrane (1) is useful for containing fuel in a fluid state (such as natural gas or LPG); • a micro-perforated tube (2), rigid, in metal material, placed inside the membrane (1) and connected to the three-way valve (5). Said micro-perforated tube (2) is useful:

- the insertion and extraction of fuel in the fluid state, inside the membrane (1);

- when inserting the membrane (1) inside the tank (3); - maintaining the membrane (1) in an adequate position while using the system;

• a tank (3), made of metallic or composite material, useful for containing fuel in a fluid state (such as natural gas or LPG); • a three-way valve (4), connected to the tank (3), useful for inserting the fuel in the fluid state outside the membrane (1);

• a three-way valve (5), connected to the membrane (1), useful for inserting the fuel in the fluid state inside said membrane (1).

The configuration described in figure 3 allows the creation of a new type of tanks to be installed on cars, on land traction systems, on agricultural vehicles, on operating machines and, in general, on all systems or machines equipped with fuel tanks, in any area.

Figure 4 shows the device for separating the fluids of the present invention, applied to a tank of an automobile, suitable for containing methane, natural gas (CNG or LNG), LPG, biomethane or other fluid fuels, comprising:

• a membrane (1), placed inside the tank (3) and connected to the three-way valve (5). Said membrane (1) is useful for containing fuel in a fluid state (such as natural gas or LPG); • a micro-perforated tube (2), flexible, possibly corrugated to increase its compressive strength, placed inside the membrane (1) and connected to the three-way valve (5). Said micro-perforated tube (2) is useful:

- the insertion and extraction of fuel in the fluid state, inside the membrane (1);

- when inserting the membrane (1) inside the tank (3); - maintaining the membrane (1) in an adequate position while using the system;

• a tank (3), made of metallic or composite material, useful for containing fuel in a fluid state (such as natural gas or LPG); • a three-way valve (4), connected to the tank (3), useful for inserting the fuel in the fluid state outside the membrane (1);

• a three-way valve (5), connected to the membrane (1), useful for inserting the fuel in the fluid state inside said membrane (1).

The configuration described in figure 4 allows the creation of a new type of tanks to be installed on cars, on land traction systems, on agricultural vehicles, on operating machines and, in general, on all systems or machines equipped with fuel tanks, in any area.

Figure 5 shows the device for separating the fluids of the present invention, applied to a tank of an automobile, suitable for containing methane, natural gas (CNG or LNG), LPG, biomethane or other fluid fuels, comprising:

• a tank (3), made of metallic or composite material, useful for containing fuel in a fluid state (such as natural gas or LPG); • a tank (15), made of metallic material, contained inside the tank (3), useful for containing fuel in a fluid state (such as natural gas or LPG);

• a three-way valve (4), connected to the tank (3), useful for inserting the fuel in the fluid state inside said tank (3);

• a three-way valve (5), connected to the tank (15), useful for inserting the fuel in the fluid state inside said tank (15).

The configuration described in figure 5 allows the creation of a new type of tanks to be installed on cars, on land traction systems, on agricultural vehicles, on operating machines and, in general, on all systems or machines equipped with fuel tanks, in any area.

Figure 6 shows the device for separating the fluids of the present invention, applied to a tank of an automobile, suitable for containing methane, natural gas (CNG or LNG), LPG, biomethane or other fluid fuels, comprising:

• a membrane (16), placed inside the tank (3) and connected to the five-way valve (13). Said membrane (16) is useful for containing fuel in a fluid state (such as natural gas or LPG); • a membrane (1), contained within the membrane (16) and connected to the five-way valve (13). Said membrane (1) is useful for containing fuel in a fluid state (such as natural gas or LPG);

• a micro-perforated tube (2), flexible, possibly corrugated to increase its compressive strength, placed inside the membrane (1) and connected to the five-way valve (13). Said micro-perforated tube (2) is useful:

- the insertion and extraction of fuel in the fluid state, inside the membrane (1);

- inserting the membranes (1 and 16) inside the tank (3);

- maintaining the membranes (1 and 16) in an adequate position while using the system;

• a tank (3), made of metallic or composite material, useful for containing fuel in a fluid state (such as natural gas or LPG); • a three-way valve (4), connected to the tank (3), useful for inserting the fuel in the fluid state outside the membrane (16);

• a five-way valve (13) with coupling for double diaphragm (1 and 16), connected to the diaphragm (1) and to the diaphragm (16), useful for inserting the fuel in the fluid state inside said membranes (1 and 16).

The configuration described in figure 6 allows you to create a new type of tanks, inside which up to three different types of fuel can be stored.

Figure 7 shows the device for separating the fluids of the present invention, applied to a tank of an automobile, suitable for containing methane, natural gas (CNG or LNG), LPG, biomethane or other fluid fuels, comprising:

• a membrane (1), placed inside the tank (15) and connected to the five-way valve (6). Said membrane (1) is useful for containing fuel in a fluid state (such as natural gas or LPG); • a micro-perforated tube (2), rigid, made of metal material, placed inside the membrane (1) and connected to the five-way valve (6). Said micro-perforated tube (2) is useful:

- the insertion and extraction of fuel in the fluid state, inside the membrane (1);

- when inserting the membrane (1) inside the tank (15);

- maintaining the membrane (1) in an adequate position while using the system;

• a tank (3), made of metallic or composite material, useful for containing fuel in a fluid state (such as natural gas or LPG); • a tank (15), made of metallic material, contained inside the tank (3), useful for containing fuel in a fluid state (such as natural gas or LPG);

• a three-way valve (4), connected to the tank (3), useful for inserting the fuel in the fluid state inside said tank (3);

• a five-way valve (6) with coupling for single membrane, connected to the membrane (1), useful for inserting the fuel in the fluid state inside and outside of said membrane (1).

The configuration described in figure 7 allows you to create a new type of tanks, inside which three different types of fuel can be stored.

Figure 8 shows the device for separating the fluids of the present invention, applied to a tank of an automobile, suitable for containing methane, natural gas (CNG or LNG), LPG, biomethane or other fluid fuels, comprising:

• a membrane (1), placed inside the tank (15) and connected to the five-way valve (6). Said membrane (1) is useful for containing fuel in a fluid state (such as natural gas or LPG); • a micro-perforated tube (2), flexible, possibly corrugated to increase its compressive strength, placed inside the membrane (1) and connected to the five-way valve (6). Said micro-perforated tube (2) is useful:

- the insertion and extraction of fuel in the fluid state, inside the membrane (1);

- when inserting the membrane (1) inside the tank (15);

- maintaining the membrane (1) in an adequate position while using the system;

• a tank (3), made of metallic or composite material, useful for containing fuel in a fluid state (such as natural gas or LPG); • a tank (15), made of metallic material, contained inside the tank (3), useful for containing fuel in a fluid state (such as natural gas or LPG);

• a three-way valve (4), connected to the tank (3), useful for inserting the fuel in the fluid state inside said tank (3);

• a five-way valve (6) with coupling for single membrane, connected to the membrane (1), useful for inserting the fuel in the fluid state inside and outside of said membrane (1).

The configuration described in Figure 8 allows you to create a new type of tanks, inside which up to three different types of fuel can be stored.

Figure 9 shows in detail the five-way valve (6) with coupling for a single membrane, comprising:

• a fitting (7), useful for connecting and fixing the membrane and the micro-perforated pipe to the valve body (12);

• a sealing ring (8), useful for tightening the o-ring (9) in order to ensure the hydraulic seal between the internal and external part of the membrane;

• two o-rings (9), useful for guaranteeing:

- the hydraulic seal between the internal and external part of the membrane;

- the hydraulic seal between the valve body (12) and the fitting (7);

• two knobs (10), useful for moving the two sealing elements (11), for the purpose of opening / closing the fluid inlet / outlet ducts.

Figure 10 shows in detail the five-way valve (13) with coupling for double diaphragm, comprising:

• a fitting (7), useful for connecting and fixing the membrane and the micro-perforated pipe to the valve body (12);

• two sealing rings (8), useful for tightening the o-rings (9) in order to guarantee the hydraulic seal between the internal and external part of the membranes;

• three o-rings (9), useful for guaranteeing:

- the hydraulic seal between the internal and external part of the membranes;

- the hydraulic seal between the valve body (12) and the fitting (7);

• two knobs (10), useful for moving the two sealing elements (11), for the purpose of opening / closing the fluid inlet / outlet ducts.

Figure 11 and Figure 12 respectively represent a three-dimensional view and a sectional view of the device for separating the fluids of the present invention, applied to an industrial tank (silos) usable in civil, industrial, military, chemical, agricultural and / or industrial clothing. or agri-food, suitable for containing fluid substances, comprising:

• a membrane (1), placed inside the industrial tank (3) and connected to the microperforated tube (2). Said membrane (1) is useful for containing substances in a fluid state;

• a micro-perforated tube (2), placed inside the membrane (1) and connected to the taps (20 and 21). Said micro-perforated tube (2) is useful:

- when inserting and extracting fluids, inside the membrane (1);

- inserting the membrane (1) inside the industrial tank (3);

- keeping the membrane (1) in an adequate position during filling and emptying of fluids;

• a micro-perforated tube (17), placed inside the industrial tank (3) and connected to the taps (18 and 19). Said micro-perforated tube (17) is useful for the insertion and extraction of fluids, inside the industrial tank (3);

• an industrial tank (3), made of metal, plastic or composite material, useful for containing various types of substances in a fluid state, even at high pressure;

• a tap (21), connected to the micro-perforated tube (2), useful for inserting fluids inside the membrane (1);

• a tap (18), connected to the micro-perforated tube (17), useful for inserting fluids outside the membrane (1);

• a tap (20), connected to the micro-perforated tube (2), useful for emptying the fluid contained within the membrane (1); • a tap (19), connected to the micro-perforated tube (17), useful for emptying the fluid contained outside the membrane (1);

• four support brackets (14), useful for supporting the industrial tank (3).

Figure 13 shows the device for separating fluids of the present invention, applied to a bottle, suitable for containing liquids, comprising:

• a membrane (1), placed inside the bottle (27) and connected to the microperforated tube (25). Said membrane (1) is useful for containing liquids; • a micro-perforated tube (25), placed inside the bottle (27). Said micro-perforated tube (25) is useful:

- when inserting and extracting the liquid, inside the membrane (1);

- inserting the membrane (1) inside the bottle (27);

- the maintenance of the membrane (1) in an adequate position during gravity emptying of the bottle (27);

- to guarantee the seal between the external part of the membrane (1) and the bottle (27) through the compression of the sealing gasket (26);

- to hermetically close the liquid contained within the membrane (1) when closing the cap (28);

• a sealing gasket (26);

• a cap (28), useful for closing the bottle (27).

Figure 14 shows a detail of the micro-perforated tube (25), comprising:

• two fins (22), useful to prevent the microperforated tube (25) from slipping out of the bottle during use, especially when emptying the liquid by gravity;

• a ring (23), useful for compressing the seal gasket; • two centering fins (24), useful for centering the microperforated tube (25) inside the bottle neck.

A device equal or similar to that object of the present invention has not been found in the art.

DESCRIPTION OF THE INVENTION

The present invention relates to a device for separating fluids applicable in the automotive, nautical, aeronautical, industrial, agricultural, civil, military, chemical and / or domestic fields.

Therefore, an object of the present invention is a device for separating fluids, comprising:

• at least one membrane (1), placed inside the tank (3) and connected to the five-way valve (6).

• at least one micro-perforated tube (2), placed inside the membrane (1) and connected to the five-way valve (6);

• at least one tank (3);

• at least one five-way valve (6) with coupling for single diaphragm (1);

as shown in Figures 1 and 2.

A further object of the present invention is a device for separating fluids, comprising:

• at least one membrane (1), placed inside the tank (3) and connected to the three-way valve (5);

• at least one micro-perforated tube (2), placed inside the membrane (1) and connected to the three-way valve (5);

• at least one tank (3);

• at least one three-way valve (4), connected to the tank (3);

• at least one three-way valve (5), connected to the membrane (1); as shown in Figures 3 and 4.

A further object of the present invention is a device for separating fluids, comprising:

• at least one tank (3);

• at least one tank (15);

• at least one three-way valve (4), connected to the tank (3);

• at least one three-way valve (5), connected to the tank (15);

as shown in figure 5.

A further object of the present invention is a device for separating fluids, comprising:

• at least one membrane (1), placed inside the tank (15) and connected to the five-way valve (6);

• at least one micro-perforated tube (2), placed inside the membrane (1) and connected to the five-way valve (6);

• at least one tank (3);

• at least one tank (15);

• at least one three-way valve (4), connected to the tank (3);

• at least one five-way valve (6) with coupling for a single membrane (1), connected to the membrane (1);

as shown in Figures 7 and 8.

A further object of the present invention is a five-way valve (6) with coupling for a single membrane (1), comprising:

• at least one fitting (7);

• at least one sealing ring (8);

• at least two o-rings (9);

• at least two knobs (10);

• at least two sealing elements (11);

• at least one valve body (12);

as shown in figure 9.

A further object of the present invention is a five-way valve (13) with coupling for double diaphragm (1 and 16) comprising:

• at least one fitting (7);

• at least two sealing rings (8);

• at least three o-rings (9);

• at least two knobs (10);

• at least two sealing elements (11);

• at least one valve body (12);

as shown in figure 10.

A further object of the present invention is a device for separating fluids, comprising:

• at least one membrane (1), placed inside the industrial tank (3) and connected to the microperforated tube (2);

• at least one micro-perforated tube (2), placed inside the membrane (1) and connected to the taps (20 and 21);

• at least one micro-perforated tube (17), placed inside the industrial tank (3) and at the taps (18 and 19);

• at least one industrial tank (3);

• at least one tap (21), connected to the micro-perforated tube (2);

• at least one tap (18), connected to the micro-perforated tube (17);

• at least one tap (19), connected to the micro-perforated tube (17);

• at least one tap (20), connected to the micro-perforated tube (2);

• at least four support brackets (14);

as shown in figures 11 and 12.

A further object of the present invention is a device for separating fluids, comprising:

• at least one membrane (1), placed inside the bottle (27) and connected to the microperforated tube (25);

• at least one micro-perforated tube (25), placed inside the bottle (27); • at least one sealing gasket (26);

• at least one bottle (27);

• at least one plug (28);

as shown in figure 13.

A further object of the present invention is a micro-perforated tube (25), comprising:

• at least two fins (22);

• at least one ring (23);

• at least three centering tabs (24);

as shown in figure 14.

A further object of the present invention is a device for separating fluids, comprising:

• at least one membrane (16), placed inside the tank (3) and connected to the five-way valve (13);

• at least one membrane (1), contained within the membrane (16) and connected to the five-way valve (13);

• at least one micro-perforated tube (2), placed inside the membrane (1) and connected to the five-way valve (13);

• at least one tank (3);

• at least one three-way valve (4), connected to the tank (3);

• at least one five-way valve (13) with coupling for double diaphragm (1 and 16), connected to the diaphragm (1) and to the diaphragm (16); as shown in figure 6 and in which,

• said device of figure 6, can be modified as follows: - eliminating the membrane (16);

- eliminating the three-way valve (4);

- replacing the five-way valve (13) with the five-way valve (6);

thus obtaining the device described in figures 1 and 2; or,

- eliminating the membrane (16);

- replacing the five-way valve (13) with the three-way valve (5);

thus obtaining the device described in figures 3 and 4; or,

- eliminating the micro-perforated tube (2);

- replacing the membrane (1) with the tank (15);

- eliminating the membrane (16);

- replacing the five-way valve (13) with the three-way valve (5);

thus obtaining the device described in figure 5; or,

- replacing the five-way valve (13) with the five-way valve (6).

- replacing the membrane (16) with the tank (15); thus obtaining the device described in figures 7 and 8; or,

- replacing the three-way valve (4) with the cock (21); - adding a further micro-perforated tube (17);

- adding three further taps (18, 19, 20);

thus obtaining the device described in figures 11 and 12; or,

- replacing the micro-perforated tube (2) with the micro-perforated tube (25);

- replacing the tank (3) with the bottle (27);

- eliminating the three-way valve (4);

- eliminating the five-way valve (13);

- eliminating the membrane (16);

- adding the seal gasket (26);

thus obtaining the device described in figure 13.

A further object of the present invention is a device for separating fluids, in which the membrane (1) and / or the membrane (16) are made of a material selected from the group comprising: polymers, elastomers, rubber, bioplastic, fiber, resins, composite materials and / or their alloys.

A further object of the present invention is a device for separating fluids, in which the micro-perforated pipes (2, 17 and 25) can be rigid, flexible or corrugated, and are made of a material chosen from the group comprising: metal, plastic material , bioplastic, composite, glass, ceramic and / or their alloys, and in which holes may or may not be present in any number and size depending on the type of application.

A further object of the present invention is a device for separating fluids, in which the reservoirs (3 and 15) are made of a material selected from the group comprising: metal, plastic, composite and / or their alloys.

A further object of the present invention is a device for separating fluids, in which the bottle (27) is made of a material selected from the group comprising: metal, plastic, composite, glass, ceramic and / or their alloys.

A further object of the present invention is a device for separating fluids for use in the automotive, nautical, aeronautical, industrial, civil, military, agricultural, chemical and / or domestic fields. Said device is generally applicable to any type of tank in any field of use.

A further object of the present invention is a device for the separation of two or more fluids in which the separation of the same within the same container occurs through the use of membranes (1 and 16) allowing the user to store them in any percentage, given the elasticity / flexibility of the membrane which allows it to adapt to the different distribution in volume of the same inside the container.

A further object of the present invention is a device for the separation of two or more fluids designed to maintain the same static pressure inside and outside the membranes (1 and 16), in such a way that said membranes (1 and 16) they are not mechanically stressed beyond the resistance limits of which they are made, thus being able to operate even at very high pressures without occurring mechanical stresses for said membranes (1 and 16).

A further object of the present invention is a device for the separation of two or more fluids in which the separation of the same inside the same container occurs through the use of membranes (1 and 16) and in which the insertion of the fluids into the '' inside and outside the membranes (1 and 16) is facilitated by the presence of micro-perforated tubes (2, 17 and 25) which can also perform the function of keeping the membranes (1 and 16) in a suitable position during the use of the system.

The following examples further illustrate the invention without limiting it.

EXAMPLE 1

Operation of the device of Figures 1 and 2

The device of figures 1 and 2 allows you to separate and divide up to two different fluid fuels inside the tank (3). In fact, thanks to the use of the five-way valve (6), it is possible to introduce two different fuels (for example natural gas and LPG): a first fuel (for example LPG) can be stored inside the membrane (1) and a second fuel (for example natural gas) can be stored outside the membrane (1). Since the membrane (1) is elastic / flexible, it is possible to store the two different types of fuel in any percentage: for example, the user can decide to leave the internal part of the membrane (1) empty and completely fill the external part. of the membrane (1) or vice versa, the user can decide to completely fill the internal part of the membrane (1). In this last case, the membrane (1), given its elasticity / flexibility, will expand until it adheres completely to the inner edge of the tank (3). The device is designed to maintain the same static pressure inside and outside the membrane (1), so that said membrane (1) is not mechanically stressed beyond the resistance limits of the material of which it is made. The balancing of the internal and external pressures allows to operate even at very high pressures without any mechanical stress on the membrane (1).

EXAMPLE 2

Operation of the device of Figures 3 and 4

The device of figures 3 and 4 allows you to separate and divide up to two different fluid fuels inside the tank (3). In fact, thanks to the use of the three-way valve (4), it is possible to introduce a first type of fuel (for example natural gas) outside the membrane (1) and, thanks to the use of the three-way valve (5) it is possible to introduce a second type of fuel (for example LPG) inside the membrane (1). Since the membrane (1) is elastic / flexible, it is possible to store the two different types of fuel in any percentage: for example, the user can decide to leave the internal part of the membrane (1) empty and completely fill the external part. of the membrane (1) or vice versa, the user can decide to completely fill the internal part of the membrane (1). In this last case, the membrane (1), given its elasticity / flexibility, will expand until it adheres completely to the inner edge of the tank (3). The device is designed to maintain the same static pressure inside and outside the membrane (1), so that said membrane (1) is not mechanically stressed beyond the resistance limits of the material of which it is made. The balancing of the internal and external pressures allows to operate even at very high pressures without any mechanical stress on the membrane (1).

EXAMPLE 3

Operation of the device of Figure 5

The device of figure 5 allows you to separate and divide up to two different fluid fuels inside the tank (3) and the tank (15). In fact, thanks to the use of the three-way valve (4), it is possible to introduce a first type of fuel (for example natural gas) inside the tank (3) and, thanks to the use of the three-way valve (5 ), it is possible to introduce a second type of fuel (for example LPG) into the tank (15). Since the tank (3) and the tank (15) have a predetermined volume, it is possible to store the two different types of fuel in a very specific percentage: the quantity of fuel that can be stored will depend on the size of the two tanks (3 and 15). In this case the storage pressure of the fluid fuel in the tank (3) can be different from the storage pressure of the fluid fuel in the tank (15).

EXAMPLE 4

Operation of the device of Figure 6

The device of figure 6 allows you to separate and divide up to three different fluid fuels inside the tank (3). Indeed:

- thanks to the use of the three-way valve (4), it is possible to introduce a first type of fuel outside the membrane (16);

- thanks to the use of the five-way valve (13), it is possible to introduce a second type of fuel inside the membrane (1);

- and thanks to the use of the five-way valve (13), it is possible to introduce a third type of fuel inside the membrane (16) and outside the membrane (1).

Since the membranes (1 and 16) are elastic / flexible, it is possible to store the three different types of fuel in any percentage. The device is designed to maintain the same static pressure inside and outside the membranes (1 and 16), so that said membranes (1 and 16) are not mechanically stressed beyond the strength limits of the material they are constituted. The balancing of internal and external pressures allows to operate even at very high pressures without occurring mechanical stresses for the membranes (1 and 16).

EXAMPLE 5

Operation of the device of figures 7 and 8

The device of figures 7 and 8 allows you to separate and divide up to three different fluid fuels inside the tank (3). Indeed:

- thanks to the use of the three-way valve (4), it is possible to introduce a first type of fuel inside the tank (3);

- thanks to the use of the five-way valve (6), it is possible to introduce a second type of fuel inside the membrane (1);

- and thanks to the use of the five-way valve (6), it is possible to introduce a third type of fuel outside the membrane (1); The quantity of fuel introduced thanks to the use of the three-way valve (4) is predetermined: this quantity of fuel depends on the size of the tanks (3 and 15) and can be stored at a pressure different from the storage pressure of the other two. fuels introduced using the five-way valve (6).

Since the membrane (1) is elastic / flexible, it is possible to store the remaining two different types of fuel in any percentage. The device is designed to maintain the same static pressure inside and outside the membrane (1), so that said membrane (1) is not mechanically stressed beyond the resistance limits of the material of which it is made. The balancing of the internal and external pressures allows to operate even at very high pressures without any mechanical stress on the membrane (1).

EXAMPLE 6

Operation of the device of figures 11 and 12

The device of figures 11 and 12 allow to separate and divide up to two different types of fluid substances inside the industrial tank (3). In fact, thanks to the use of the tap (18), it is possible to introduce a first type of fluid substance outside the membrane (1) and, thanks to the use of the tap (21), it is possible to introduce a second type of fluid substance to the inside the membrane (1). Since the membrane (1) is elastic / flexible, it is possible to store the two different types of substances in any percentage. The device is designed to maintain the same static pressure inside and outside the membrane (1), so that said membrane (1) is not mechanically stressed beyond the resistance limits of the material of which it is made. The balancing of the internal and external pressures allows to operate even at very high pressures without any mechanical stress on the membrane (1). Depending on the type of fluids to be stored, their physical state (gas, liquid, steam and / or their mixtures) and the storage pressure, the taps (18, 19, 20, 21) can be replaced by inlet valves / n-way output and / or safety valves. Depending on the type of fluids to be stored, their physical state (gas, liquid, steam and / or their mixtures) and the storage pressure, n-way inlet / outlet valves, safety valves, relief valves can be added. overflow, additional taps, etc. If the taps (18, 19, 20, 21) are connected to pipes under pressure, the emptying or filling of the fluid inside the membrane (1) can be controlled by the filling or emptying of the fluid outside the membrane (1) and vice versa. . For example, the introduction of pressurized fluid from the tap (18) would force, if allowed by the opening of the tap (20) and by the retropressions of the duct, the exit of the fluid contained inside the membrane (1) through the tap ( 20). Similarly, the introduction of pressurized fluid from the tap (21) would force, if allowed by the opening of the tap (19) and the retropressure of the duct, the exit of the fluid contained outside the membrane (1) through the tap ( 19). The device therefore allows, in addition to the storage of fluids, the possibility of supplying circuits under pressure without the need to install pumps or compressors on each of the inlet / outlet circuits.

EXAMPLE 7

Operation of the device of Figure 13

The membrane (1) is filled with a carbonated liquid. Whenever the carbonated liquid is used / drunk, the device of the present invention ensures that the air never comes into contact with the carbonated liquid, confining said air to the outside of the membrane (1). In this way, the user can prevent said carbonated liquid from degassing when coming into contact with the air.

EXAMPLE 8

Further example of operation of the device of figure 13

The membrane (1) is filled with a liquid (e.g. soft drink or water, even non-carbonated). The membrane separates the liquid from contact with the bottle (27). In this way the liquid never comes into contact with the bottle (27) which, if made of plastic material, could over time as a result of degradation release phthalates which could not in any case contaminate the liquid which remains protected inside the membrane. (1).

Claims (8)

CLAIMS 1. Fluid separation device, comprising: • at least one membrane (16), placed inside the tank (3) and connected to the five-way valve (13); • at least one membrane (1), contained within the membrane (16) and connected to the five-way valve (13); • at least one micro-perforated tube (2), placed inside the membrane (1) and connected to the five-way valve (13); • at least one tank (3); • at least one three-way valve (4), connected to the tank (3); • at least one five-way valve (13) with coupling for double diaphragm (1 and 16), connected to the diaphragm (1) and to the diaphragm (16) and in which, - the five-way valve (13) comprises: - at least one fitting (7); - at least two sealing rings (8); - at least three o-rings (9); - at least two knobs (10); - at least two sealing elements (11); - at least one valve body (12); and in which, - the membrane (1) and / or the membrane (16) are made of a material selected from the group comprising: polymers, elastomers, rubber, bioplastic, fiber, resins, composite materials and / or their alloys; and in which, - the microperforated tube (2) can be rigid, flexible or corrugated and is made of a material chosen from the group comprising: metal, plastic, bioplastic, composite, glass, ceramic and / or their alloys; and in which, - the tank (3) is made of a material chosen from the group comprising: metal, plastic, composite material and / or their alloys. 2. Device of claim 1, wherein: • the membrane (16) is not present; • the three-way valve (4) is not present; • the five-way valve (13) is replaced with the five-way valve (6) and in which, - the five-way valve (6) includes: - at least one fitting (7); - at least one sealing ring (8); - at least two o-rings (9); - at least two knobs (10); - at least two sealing elements (11); - at least one valve body (12). 3. Device of claim 1, wherein: • the membrane (16) is not present; • the five-way valve (13) is replaced with the three-way valve (5). 4. Device of claim 1, wherein: • the micro-perforated tube (2) is not present; • the membrane (16) is not present; • the five-way valve (13) is replaced with the three-way valve (5). • the membrane (1) is replaced with the tank (15) and in which, - the tank (15) is made of a material selected from the group comprising: metal, plastic, composite material and / or their alloys. 5. Device of claim 1, wherein: • the membrane (16) is replaced with the tank (15) and in which, - the tank (15) is made of a material selected from the group comprising: metal, plastic, composite material and / or their alloys; • the five-way valve (13) is replaced with the five-way valve (6) and in which, - the five-way valve (6) includes: - at least one fitting (7); - at least one sealing ring (8); - at least two o-rings (9); - at least two knobs (10); - at least two sealing elements (11); - at least one valve body (12). 6. Device of claim 1, wherein: • the three-way valve (4) is replaced with the cock (21); • a further micro-perforated tube (17) is added; • three further taps are added (18, 19, 20). 7. Device of claim 1, wherein: • the micro-perforated tube (2) is replaced with the micro-perforated tube (25); • the tank (3) is replaced with the bottle (27); • the three-way valve (4) is not present; • the five-way valve (13) is not present; • the membrane (16) is not present; • the sealing gasket (26) is added; and in which, - the micro-perforated tube (25), includes: - at least two fins (22); - at least one ring (23); - at least three centering tabs (24); And, - the microperforated tube (25) can be rigid, flexible or corrugated, and is made of a material selected from the group comprising: metal, plastic, bioplastic, composite, glass, ceramic and / or their alloys; • and in which, - the bottle (27) is made of a material selected from the group comprising: metal, plastic, composite, glass, ceramic and / or their alloys. 8. Device of the preceding claims, for use in the automotive, nautical, aeronautical, industrial, civil, military, agricultural, chemical and / or domestic fields.