ITVI20110335A1 - DEVICE FOR SEPARATION OF LIQUIDS FROM IMPURITIES AND / OR HARMFUL SUBSTANCES AND EQUIPMENT FOR THE DISTRIBUTION OF WATER EQUIPPED WITH THIS DEVICE - Google Patents

Description

DEVICE FOR THE SEPARATION OF LIQUIDS FROM IMPURITIES AND / OR HARMFUL SUBSTANCES AND DISPENSING APPARATUS

OF THE WATER EQUIPPED WITH THIS DEVICE

The present invention generally refers to a device for separating liquids, in particular drinking water, from impurities and / or harmful substances and to an apparatus for dispensing water equipped with this device.

More specifically, the invention relates to a device for the separation of liquids, in particular drinking water, from impurities and / or harmful substances, equipped with some technical devices to allow optimization of the use of the filtering material and guarantee a flow and a constant efficacy over time, and improved with respect to what is already known.

Systems for separating water from impurities and / or harmful substances, for domestic or industrial use, are still known and comprise a support casing and a filter material inside it.

Some of these systems, particularly industrial level systems, have a very high water pressure, due to the high flow rate of the water system to which they are connected. For this reason, they have a mainly vertical development, in order to prolong as much as possible the contact of the water with the filtering material.

However, these systems have the drawback of creating preferential paths for the flow of water, making only a part of the filter material inserted inside the casing work, and in fact wasting all the surrounding material.

Other systems, particularly for domestic use, have a substantially horizontal development, and a subdivision, inside the casing itself, of the water flow in two.

However, these systems have the drawback of being deformable due to the insertion of the filter cartridge in its seat; furthermore, also in this case the constant flow rate or the uniformity of distribution of the water inside the enclosure is not guaranteed, nor the consequent uniformity of use of the material.

Another drawback found in some known systems is given by the minimal leakage of filter material inside the filtered water container, with the obvious consequences of the case. Some water dispensing apparatuses are equipped with a device for the separation of liquids, in particular drinking water, from impurities and / or harmful substances, and also include a flow regulation valve integrated with the device itself; in this case, however, since the device for separating liquids, in particular drinking water, from impurities and / or harmful substances is an element subject to consumption and deterioration, it must be changed often, resulting in the consequent frequent replacement of the valve regulation itself or parts of it.

This also involves a waste of the valve material, which is not subject to the same wear as the chemical components of the device.

Furthermore, in the event of a defective valve, in this type of equipment it is necessary to replace the entire device, including the valve itself, with the consequent waste of resources.

The aim of the present invention is, therefore, to obviate the drawbacks of the known art referred to above and in particular to provide a device for the separation of liquids, in particular drinking water, from impurities and / or harmful substances, which allows a uniform distribution of the flow of the liquid that passes through it.

Another purpose of the present invention is that of realizing a device for the separation of liquids, in particular drinking water, from impurities and / or harmful substances, which can be replaced independently from the wear of other components of a dispensing apparatus and / or filtration of the water to which it is applied.

A further object of the invention is that of realizing a device for the separation of liquids, in particular drinking water, from impurities and / or harmful substances that is easy and economical to make.

Still, an object of the present invention is that of realizing a device for the separation of liquids, in particular drinking water, from impurities and / or harmful substances which has a limited number of elements that compose it.

These and other purposes are achieved by a device for separating liquids, in particular drinking water, from impurities and / or harmful substances, according to the attached claim 1, and by an apparatus for dispensing water, according to enclosed claim 10, to which reference is made for the sake of brevity; further detailed characteristics are reported in the dependent claims.

Advantageously, the device of the invention has a containment body having a cellular structure with a mainly horizontal development, comprising a plurality of filtering cells, each having its own volume, so as to uniformly distribute the water to be treated.

Equally advantageously, it is possible to determine a predetermined flow rate of water, simply by providing, in each of the filtering cells, a through outlet opening, with dimensions proportional to the respective volume of the relative filtering cell.

Another advantage is given by the presence in the device of a first and a second micrometric mesh, placed respectively as a mechanical filter at the inlet and outlet of the device of the invention, in order to block any impurities present in the water to be treated. , but also to avoid the leakage of the filter material.

Furthermore, an advantage of the invention is given by the fact that at least one of these micrometric nets is fixed respectively at the inlet and / or outlet openings by means of a co-molding operation.

Preferably, the covering element of the device of the invention has a substantially pyramidal shape, presenting a tip and a plurality of faces; in particular, the inlet openings of the device comprise slots uniformly distributed on each of these faces. Preferably, in correspondence with this tip of the pyramidal shape, there are one or more through openings to facilitate the passage of air and, at the same time, advantageously block the passage of particles of impurities.

In particular, equally advantageously, these through openings have a cross section less than or equal to 300 µm.

In detail, advantageously, unlike osmotic membrane systems in which the actual separation of impurities from the liquid takes place, in this type of device, which uses filter material comprising carbon and resin, the impurities remain trapped in it.

Further objects and advantages of the present invention will become clear from the following description, which refers to a practical example of embodiment, exemplary and preferred, but not limiting, of the device for separating liquids, in particular drinking water, from impurities and / or harmful substances, object of the invention, and the accompanying drawings, in which:

Figure 1 shows an exploded perspective view of the device for separating liquids, in particular drinking water, from impurities and / or harmful substances, according to the present invention;

Figure 2 shows an exploded front view of the device Figure 1;

- figure 3 shows a top view of the device of figure 1;

- figure 4 shows a bottom view of the device of figure 1.

With reference to the aforementioned figures, the device 10 for separating liquids, in particular drinking water, from impurities and / or harmful substances comprises a containment body 1, a cover element 2, having a plurality of slots 3, a first net micrometric 4 and a second micrometric mesh 5.

The containment body 1 is filled with filter material, in particular comprising silver activated carbon and ion exchange resin. The particle size of one of the two components is proportional to the particle size of the other, so that the materials can be suitably mixed and form a uniform filter bed.

Preferably, the covering element 2 has a pyramidal shape, with the tip facing upwards. According to a preferred embodiment, the co-molding of the first micrometric mesh 4 is provided inside the slots 3, with a pitch less than or equal to 300 µm, effective as a mechanical filter for any impurities contained in the liquid to be treated.

This first micrometric mesh 4 allows the liquid to enter the device and prevents the filtering material contained inside from escaping.

According to a further preferred embodiment of the invention, additional to or alternative to the one described above, in the center of the pyramidal roof there is a rectangular structure 6, equipped with vertical openings 7.

The vertical openings 7 favor the venting of air inside the containment body 1 and - at the same time - prevent the filter material from being expelled from the cover element 2 and pouring into the water.

In detail, the truncated pyramid structure facilitates the thrust of the air towards the vertical openings 7, during the filling phase of the water device.

Advantageously, the slots 3 are arranged in a uniform quantity on each face of the pyramid which constitutes the covering element 2. In particular, the slots 3 are oriented substantially parallel to the base of the pyramid of the covering element 2, extending on each face almost from one edge to the opposite.

This arrangement guarantees correct water entry with a constant flow rate, and uniformly distributes the water flow in all areas of the containment body 1 of the device 10.

In a further preferred embodiment of the invention, in addition to or as an alternative to those mentioned above, the vertical openings 7 have a cross section less than or equal to 300 µm, to ensure that the filtering material does not escape from these in the phase air vent when filling with water.

In this way the formation of air pockets on the sides of the covering element 2 is avoided and furthermore, thanks to its square shape, the device 10 can be manufactured with higher precision than for example a cylindrical shape.

Above the rectangular structure 6 there are gripping means 11, which can be used to grip the device to insert it or extract it from its seat inside a water filtration apparatus.

The containment body 1 is preferably equipped with a cellular structure, comprising a plurality of filtering cells 8, as shown in figure 1. In particular, this structure maximizes the resin exchange efficiency and the distribution of water to the € ™ inside the filter bed.

Each single filter cell 8 is equipped with an outlet opening 9 (figure 4), with a diameter calibrated to have a certain predetermined flow rate. Inside the filter cells 8 there is the second micrometric net 5. This device allows to introduce pressure drops in the water flow, and to ensure that the filter material has time to act on the water . In particular, the opening 9 has a negligible diameter with respect to the base surface of the filtering cell 8, making the latter act as a funnel.

Furthermore, the second micrometric mesh 5, in addition to providing mechanical filtering of the water, freeing it from any impurities, prevents the filtering material from leaking out, contained inside the containment body 1.

Advantageously, therefore, the device 10 described above has a large filtering capacity and can remain effective for the treatment of up to 1000 liters of water. In particular, based on the average value for frequency of use of a family, which consumes about 3 liters per day of drinking water, and on the chemical composition limits of the drinking water to be treated, imposed by current Italian law, the times replacement of a device 10 according to the invention takes around 6 months.

The filter material is evenly distributed in the containment body 1.

The subdivision of the material inside the individual filter cells 8 allows, in particular, a greater uniformity of distribution of the water which, in this way, passes through each filter cell 8 uniformly. In other words, preferential paths are not created that risk making only a part of the filter material work.

In a preferred embodiment of the invention, the subdivision of the structure takes place in infinitesimal filter cells 8, as large as a grain of filtering material, constituting the best solution to the technical problem of obtaining a uniform distribution and exploitation of the material.

However, even with larger dimensions of these filter cells 8, the structure is still effective. Furthermore, the cellular structure is advantageously more rigid than the containment bodies adopted in the known devices, and - in particular - avoids the deformation of its base, due to the insertion of the device in its seat inside an apparatus for dispensing and / or filtering water.

As already mentioned above, each single filter cell 8 has a single outlet opening 9. Also this solution, advantageously, optimizes the contact time between water and filtering material, leaving the filtering material inside the 8 filter cell works with efficiency and uniform flow rate. The diameter of the outlet opening 9 can be sized by calculating the desired pressure drop, in order to determine the ideal flow rate of the water to be treated.

Advantageously, the outlet opening 9 is given exclusively by a through hole, without the need for an external duct, as in other known devices. The presence of an outlet opening 9 for each single filter cell 8, in combination with the adoption of the co-molding technique of the second micrometric mesh 5, which has a pitch less than or equal to 150µm, overlapping the Outlet opening, allows to achieve the aforementioned purposes in a much simpler way with respect to the known art. In particular, this combination makes it possible to obtain the pressure drop required to slow down the flow of water and, at the same time, to prevent the filter material from escaping from the containment body 1.

The co-molding technique is also used for the slots 3 in the cover element 2, with the advantages seen for the holes in the filter cells 8, ie uniformity of the flow and retention of the filtering material. Furthermore, by adopting this technique, it is possible to make the device more simple than the known technique, and also to achieve greater precision in the plastic molding phase of the element.

Preferably, the device 10 is applied to an apparatus for dispensing and / or filtering water (not shown), which comprises a support base for one or more containers to be filled with filtered and / or purified water. and an external structure or body.

The device 10 is housed inside at least one compartment of the body.

In particular, a filling tank is coupled by means of a regulating valve to the device 10, so as to make the drinking water contained in the filling tank flow inside the containment body of the device 10.

Alternatively, this apparatus consists of a filter jug for the sterilization of drinking water.

From the above description, the characteristics of the device for separating liquids, in particular drinking water, from impurities and / or harmful substances and of the water dispensing apparatus, which are the subject of the invention, are clear. just as the advantages are clear.

Finally, it is clear that numerous other variations can be made to the device for the separation of liquids, in particular drinking water, from impurities and / or harmful substances in question, without departing from the principles of novelty of the inventive idea, thus ¬ as it is clear that, in the practical implementation of the invention, the materials, shapes and dimensions of the illustrated details can be any according to requirements and they can be replaced with other technically equivalent ones.

Claims (10)

CLAIMS 1. Device (10) for separating a liquid, in particular drinking water, from impurities and / or harmful substances, comprising a covering element (2) having inlet openings (3) for the passage of said liquid into a flow direction, a containment body (1) for containing filter material and having outlet openings (9) for the passage of said liquid in said flow direction, and a first net (4) equipped with micrometric openings, interposed between said filter material and said cover element (2), said device (10) being characterized by the fact that said containment body (1) has a mainly horizontal cellular structure, comprising a plurality of filter cells (8), each having its own volume. 2. Device (10) according to claim 1, characterized in that said outlet openings (9) of said containment body (1) comprise through openings (9) present in each of said filter cells (8), each of said through openings (9) having dimensions proportional to the respective volume of said filtering cell (8), so as to determine a predetermined flow rate of said fluid. 3. Device (10) according to one of claims 1-2, characterized in that it presents a second mesh equipped with micrometric openings (5), interposed between said filter material and said outlet openings (9) of said containment body (1 ). 4. Device (10) according to one of the claims 1-3, characterized in that at least one of said first (4) and second net (5) is fixed respectively in correspondence of said inlet (3) and € ™ exit (9) through a co-molding operation. Device (10) according to one of claims 1-4, characterized in that said first network (4) has openings having at least a dimension substantially less than or equal to 300 µm. 6. Device (10) according to one of claims 1-5, characterized in that said covering element (2) has a substantially pyramidal shape, comprising a tip and a plurality of faces, and being oriented with the tip opposite to said direction flow of said liquid. 7. Device (10) according to claim 6, characterized in that said inlet openings (3) comprise a plurality of through slots (3) arranged in a uniform quantity on each face of said covering element (2). 8. Device (10) according to one of claims 6 or 7, characterized in that it presents, in correspondence with said tip of said covering element (2), one or more through openings (7), suitable for facilitating the passage of the ™ air. Device (10) according to claim 8, characterized in that said through openings (7) have at least a dimension less than or equal to 300 µm. 10. Apparatus for dispensing water, characterized in that it comprises a device (10) for separating a liquid from impurities and / or harmful substances according to one of claims 1-9.