IT201800007982A1 - Fluid tap - Google Patents

Description

DESCRIPTION of the invention entitled:

"Tap for fluid"

FIELD OF THE INVENTION

The present invention relates to a tap for fluids, in particular for water.

BACKGROUND ART NOTE

According to the known technique, a valve for fluids comprises a valve body equipped with an inlet section and an outlet section for the fluid, and a shutter, normally ball-shaped, arranged inside a housing obtained within the valve body and equipped with an internal duct for the passage of fluid. This obturator is rotatably constrained within the housing between a first position, in which the passage of the fluid between the inlet and the outlet section through the internal duct of the obturator is allowed, and a second position, in which the passage is forbidden. of the fluid between the inlet and outlet section. The tap also normally includes two seals of the type, for example, cylindrical, arranged between the shutter and the housing, near the inlet and outlet section of the valve body. These sealing gaskets are arranged in such a position as to define between the external surface of the spherical shutter and the internal surface of the housing a region with a normally cylindrical shape, or composed of a cylindrical section and two substantially truncated ends. where there is no contact between the shutter and the housing. The volume of this region is clearly given by the distance of the two seals, when squeezed between the housing and the shutter.

Unfortunately, when it comes to drinking water, this solution is not without drawbacks, especially of a hygienic nature, without excluding other unwelcome situations when other fluids exposed to possible contamination must be conveyed. In fact, after a certain period of life of the tap, following frequent maneuvers of the shutter, the aforementioned two gaskets begin to decrease their elasticity, with the consequence that small quantities of fluid can filter into the aforementioned region. In practice, in this region the fluid accumulates and stagnates over time, thus becoming a stagnation region for this fluid. This can have rather dangerous effects on people's health since germs can begin to proliferate in the stagnant fluid such as, for example, in the case in which the fluid is water, salmonella, extremely dangerous for the health of living beings.

Therefore, the purpose of the present invention is to provide a tap which is more hygienic than those of the known art, or which in any case avoids the possibility of stagnation fluid forming in the region defined by the two gaskets, the external surface of the 'shutter and the internal one of the housing.

A further object of the present invention is that of realizing such a tap in a simple way, but which at the same time guarantees maximum efficiency.

These and other purposes are achieved by means of a valve for fluid comprising a valve body equipped with an inlet section and an outlet section for said fluid, and a shutter disposed within a housing obtained within said valve body and equipped with an internal duct for the passage of said fluid, said shutter being constrained at least rotatable within said housing between a first opening position, in which a primary stream of said fluid is allowed to pass between said inlet section and said outlet section through said internal duct, and a second closing position, in which the passage of fluid between said inlet section and said outlet section is forbidden, said cock also comprising sealing means between said obturator and said housing of said valve body, said sealing means being arranged in a position such as to define between the external surface of said shutter and the internal surface in said housing a region of stagnation for fluid leakage, characterized in that said obturator comprises at least one narrowing portion disposed within said internal duct, and by the fact that said obturator further comprises at least a first through hole and at least a second through hole for communication fluid flow between said internal duct and said stagnation region, said at least one first through hole and said at least one second through hole being arranged with respect to said narrowing section in such a way that, at least when said shutter is in said first opening position, upon the passage of said primary stream of said fluid within said internal duct, a secondary stream of said fluid is established between said at least one first hole and said at least one second hole through said stagnation region.

In practice, therefore, thanks to the downstream depression that is created when the primary flow of the fluid passes through the internal obturator duct, through the restricting section, and to the upstream overpressure, a portion of the main flow is thus forced to also cross the stagnation region, passing through the first hole and the second hole. This makes it possible to prevent the fluid from stagnating between the internal surface of the housing and the external surface of the obturator since, when the obturator is opened, a small portion of fluid, the aforementioned secondary current, will also cross the stagnation region, passing for said at least one first hole and said at least one second hole and dragging with it the fluid which had remained stationary in the stagnation region since the last opening of the tap.

Still according to the invention, said narrowing section, which clearly has a reduced cross-sectional area of fluid passage compared to that of the internal duct, is functionally arranged between said at least one first hole and said at least one second hole. Therefore, said at least one first hole and said at least one second hole are located upstream and downstream (or vice versa) of the narrowing section.

Furthermore, the tap comprises an operating shaft integrally constrained to said shutter to rotate said shutter between said first position and said second position, and vice versa, in which said at least one first hole and said at least one second hole have a longitudinal axis parallel to the axis longitudinal axis of said operating shaft.

Still, again according to the invention, said sealing means comprise at least a first gasket and at least a second gasket, housed in correspondence, respectively, of said inlet section and of said outlet section. Said stagnation region is therefore defined between said first gasket and said second gasket and, as mentioned above, by the external surface of the shutter and the internal surface of the housing.

According to the invention, said narrowing section is substantially annular in shape, open or closed. In particular, this narrowing section, therefore, can be a closed ring, or it can be represented by an open ring substantially C-shaped or a combination of the two forms. In other embodiments, this open-loop narrowing section can also be obtained by means of a single Seeger ring or two Seeger rings combined, optionally, with a closed ring arranged, in the case, between the two Seeger rings.

According to the embodiment described here, said narrowing section is made in one piece with said shutter.

In accordance with an alternative form of the invention, said narrowing section is separated from said shutter and is integrally and removably bound to said shutter on the internal surface of said duct. For example, this constraint can be obtained by mechanical interference of the narrowing section with said shutter on the internal surface of said internal duct. In other embodiments, this narrowing section can be blocked on the internal surface of the internal duct of the shutter by means of two locking rings of the axial sliding arranged upstream and downstream of the narrowing section, or by means of a locking ring which is housed within a first cavity, obtained on the internal surface of the internal duct of the shutter, and within a second cavity obtained on the external surface of the narrowing section or in another way.

Still, according to a further alternative form of the invention, said narrowing section is separated from said shutter and is fixedly and in a non-removable way, this time, to said shutter on the internal surface of said duct.

In particular, said shrinkage section is made of Teflon. This narrowing section can also be made of other materials such as, for example, brass, steel or other metal alloys or even other plastic materials as long as these materials are resistant to the fluids passing through them. Furthermore, said narrowing section is normally, but not necessarily, arranged halfway along the length of the internal duct, that is, centrally to said internal duct.

In particular, said internal duct is cylindrical.

Furthermore, said shutter is of the ball type.

According to an alternative embodiment of the invention, said shutter is at least partially polyhedral in shape. According to this embodiment, at least one flat face of the shutter should be made on the side of the shutter that faces, either the inlet section, or the outlet section of the valve body, at least when the shutter is in its closed position. Preferably, said shutter is substantially in the shape of a cube or semi-cube.

BRIEF DESCRIPTION OF THE DRAWINGS

Several particular embodiments of the present invention will now be described, by way of non-limiting example only, with reference to the attached figures, in which:

Figure 1A is a longitudinal section view of the tap with shutter in its second closed position;

Figure 1B is a longitudinal section view of the tap with shutter in its first open position; Figure 2 is a longitudinal sectional view of the tap from below when in its closed position;

- Figures 3A-3C are longitudinal section views of the shutter of the tap according to the invention;

- Figure 4a is a longitudinal section view of a further embodiment of the invention;

Figure 4b is a cross-sectional view of the embodiment of Figure 4a.

DETAILED DESCRIPTION OF CERTAIN EMBODIMENTS OF THE PRESENT INVENTION

With particular reference to these figures, 1 indicates a tap for fluids according to the invention.

The tap 1 for fluids according to the invention, in particular for water, although not limited to this fluid, comprises a valve body 2 equipped with an inlet section 2a and an outlet section 2b for the fluid. It should be noted that the terminology used to indicate the inlet section 2a and the outlet section 2b is not to be understood in a limiting sense since it falls within the definition also given to a tap in which the outlet section 2b is instead the inlet section for the fluid. , and the inlet 2a is instead the outlet one for the same fluid. The tap 1 also comprises a ball obturator 3 arranged inside a housing 4 obtained within the valve body 2 and equipped with an internal cylindrical duct 3a for the passage of the fluid. It should be noted that in other embodiments the internal duct 3a may not even be cylindrical without thereby departing from the scope of protection of the present invention. The shutter 3 is rotatably constrained within the housing 4 between a first opening position P1 (see Figure 1B), in which a primary flow M of the fluid is allowed to pass between the inlet section 2a and the outlet section 2b through the internal duct 3a, and a second closing position P2 (see Figure 1A), in which the passage of fluid between said inlet section 2a and the outlet section 2b of the valve body 2 is forbidden.

The cock 1 also comprises sealing means 5 between the shutter 3 and the housing 4 of the valve body 2. These sealing means 5 are arranged in a position such as to define between the external surface 3b of the shutter 3 and the internal surface 4a of the housing 4 a stagnation region R for the fluid.

According to the invention, the obturator 3 comprises a narrowing section 6, that is a section having a reduced cross-sectional area with respect to the transversal area of the internal duct 3a of the obturator 3. This narrowing section 6 is positioned within the internal duct 3a, for part of its length, and is shaped like a closed loop.

Furthermore, the shutter 3 also comprises two first through holes 7, 70 and two second through holes 8, 80 for the fluid communication between the internal duct 3a and the particular stagnation region R, the two first through holes 7, 70 and the two second through holes 8, 80 are arranged with respect to the narrowing portion 6 in such a way that, at least when the shutter 3 is in its first opening position P1, upon the passage of the aforementioned primary flow M of the fluid within the internal duct 3a a secondary flow S of the fluid is established between the two first through holes 7, 70 and the two second through holes 8, 80 through the stagnation region R

This solution, of course, allows the water, or more generally the fluid to flow away, which eventually stagnates in the stagnation region R, therefore, thanks to the presence of the narrowing section 6, the passage of the long internal fluid 3a of the shutter 3, a depression is created downstream of the narrowing section 6 and a consequent overpressure upstream, so that a part of the main flow, i.e. the secondary current S, is forced to cross also the stagnation region R, passing through the first holes 7 and 70 and the second holes 8 and 80.

It should be noted that in the embodiment described here the shutter comprises two first through holes 7, 70 and two second through holes 8, 80, however in a different embodiment, the number of the first 7 and second through holes 8 can also be lower. or greater than two without thereby departing from the scope of protection of the present invention.

Figure 4a shows a further embodiment of the invention which comprises two first through holes 7.70 and two second through holes 8.80. this embodiment the obturator 3 has a shape generically of the cube type so that the stagnation region R, at least when the obturator 3 allows the passage of the main flow M, is of greater volume to allow an increase in the secondary flow S within that area and, therefore, a greater washing effect. The faces 31 and 32 of the shutter 3 are substantially flat and face, respectively, the inlet section 2b and the outlet section 2a of the valve body 2, at least when the shutter 3 is in its closed position P2. When the obturator 3 is in its opening position P1 (see Figure 4b) the two flat faces 31 and 32 allow a greater passage of the secondary flow S within the stagnation region R such an embodiment also the lower face 33 of the obturator 3, when installed in the valve body 2, is substantially flat, in order to further increase the passage volume of the secondary flow S.

other embodiments the shutter 3 can also be partially cube or semi-cube shaped. however, at least one flat face of the shutter 3 should be made on the side of the shutter facing either the inlet section 2a, or the outlet section 2b of the valve body 2, at least when the shutter 3 is in the its closed position P2.

Specifically, the narrowing section 6 is functionally arranged between the through holes 7, 70 and the second through holes 8, 80. Therefore, it practices the narrowing section 6, to the passage of the fluid inside the internal duct 3, when the shutter is in its first opening position P1, causes a Venturi effect within the internal duct 3a of the shutter 2. This causes the establishment of a pressure difference between upstream and downstream of the narrowing section 6 and, therefore, the creation of a secondary flow S of the fluid through the first through holes 7, 70, the second through holes 8, 80, and the substantially cylindrical-shaped stagnation region R with substantially truncated ends say.

In the embodiment of Figure 4, the stagnation region R is instead substantially cylindrical in shape.

According to the embodiment described here, the tap 1 also includes an operating shaft 10 integrally constrained to the shutter 3 to rotate the shutter 3 between the first opening position P1 and the second closing position P2, and vice versa. The first two through holes 7, 70 and the two second through holes 8, 80 have their respective longitudinal axis L1, L2 parallel to the longitudinal axis T of the operating shaft 10. Note that tap 1 also includes a butterfly lever 90 to allow to the user of the operating shaft 10 in an easy manner between the first opening position P1 and the second closing position P2 and thus making the shutter 3 between its first position P1 and its second position P2, and vice versa. It should be noted that, according to the embodiment described here, the sealing means 5 comprise a first gasket 5a and a second gasket 5b, both cylindrical, housed in proximity, respectively, to the inlet section 2a and the outlet section b of the valve body. 2. The stagnation region R is thus defined, between the first gasket 5a and the second gasket 5b, and by the external surface 3b of the shutter 3 and the internal surface 4a of the housing 4.

According to the embodiment described here, the narrowing section 6 is made in one piece with the shutter 3. The shutter 3 is in this case made entirely of brass. other embodiments the shutter 3 can be made of another metal such as, for example, steel, or other metal alloy, or even of plastic material without thereby departing from the scope of protection of the present invention. other embodiments not shown here, the narrowing section 6 is separated from the shutter 3 and is releasably constrained to the shutter 3 on the internal surface 3d of the internal duct 3a.

For example, the narrowing portion 6 is associated by mechanical interference with the internal surface 3d of the internal duct 3a.

further other embodiments not shown here, the narrowing section 6 is separated from the shutter 3 and is associated by mechanical interference and in a non-removable way this time to the shutter 3 on the internal surface 3d of the duct 3a. in this last embodiment, the narrowing section 6 is made of Teflon, while the remaining part of the shutter 3 is made of brass.In other embodiments, the shutter 3 can be made of another metal such as, for example, steel, or other metal alloy, or even plastic material.

In still other embodiments, the narrowing section 6 can also be made of another material as long as it is resistant to fluids. In the embodiment described here, the narrowing portion 6 is arranged halfway along the length of the internal duct, ie centrally to the internal duct 3a. In other embodiments not shown here, the narrowing section 6 may also not be centrally arranged in the internal duct 3a, although it still allows the development of a secondary flow S of the fluid between the first holes 7.70 and of second holes 8.80 through the stagnation region R. Furthermore, both the internal duct 3 a and the narrowing portion 6 have a cylindrical geometry. These conditions allow to obtain an efficient cleaning of the stagnation region R every time the shutter 3 is opened and the flow of a main current is caused within the internal duct 3a of the shutter 3.

Claims (14)

CLAIMS 1. Fluid cock (1) comprising a valve body (2) equipped with an inlet section (2a) and an outlet section (2b) for said fluid, and a shutter (3) arranged inside a housing (4) obtained within said valve body is equipped with an internal conduit (3a) for the passage of said fluid, said shutter being constrained at least rotatable within said housing (4) between a first opening position (P1), in which the passage of a primary current is allowed (M) said fluid between said inlet section and said outlet section through said internal duct (3a), and a second closing position (P2), in which the passage of fluid between said inlet section and said outlet section is forbidden , said tap also comprising sealing means (5) between said shutter (3) and said housing (4) of said valve body (2), said sealing means being arranged in a position such as to define between the external surface (3b) of said shutter (3) and the inner surface (4a) of said housing (4) a stagnation region (R) for said fluid, characterized in that said shutter (3) comprises at least one narrowing portion (6) disposed within said inner duct (3a), and from the fact that said shutter (3) also comprises at least a first through hole (7.70) and at least one second through hole (8.80) for the fluid communication between said internal duct and said backwater region, said at least a first through hole and said at least a second through hole being arranged with respect to said narrowing portion (6) in such a way that, at least when said shutter is in said first opening position (P1), when said primary current (M ) of said fluid within said internal duct a secondary conent (S) of said fluid is established between said at least one first hole and said at least one second hole through said backwater region (R). 2. Tap according to claim 1, characterized in that said narrowing portion (6) is functionally arranged between said at least one first hole and said at least one second hole. 3. Tap according to claim 1 or 2, characterized in that it comprises an operating shaft (10) integrally constrained to said shutter to rotate said shutter between said first position and said second position, and vice versa, said at least one first hole and said at least a second hole having a longitudinal axis (L1, L2) parallel to the longitudinal axis (T) of said maneuver shaft. 4. Tap according to at least one of claims 1 to 3, characterized in that said sealing means (5) comprise at least a first gasket (5a) and at least a second gasket (5b), housed respectively at said section inlet (2a) and said outlet section (2b), said backwater region (R) also being defined between said first gasket and said second gasket. 5. Tap according to at least one of claims 1 to 4, characterized in that said narrowing section is substantially annular in shape, open or closed. 6. Tap according to at least one of claims 1 to 5, characterized in that said narrowing section is made integrally with said shutter. 7. Tap according to at least one of claims 1 to 5, characterized in that said narrowing section is separated from said shutter and is rigidly constrained to said shutter on the internal surface of said duct. 8. Tap according to claim 7, characterized in that said narrowing section is rigidly and in a non-removable way bound to said shutter on the internal surface of said duct. 9. Tap according to claim 7 or 8, characterized in that said narrowing section is made of Teflon, brass, steel, or other fluid-resistant alloys. 10. Tap according to one or more of claims 5 to 9, characterized in that said narrowing section is arranged halfway along the length of said internal duct. 11. Tap according to at least one of claims 1 to 10, characterized in that said internal duct is cylindrical. 12. Cock according to one of claims 1 to 11, characterized in that said shutter is ball-shaped. 13. Tap according to one of claims 1 to 11, characterized in that said shutter is at least partially polyhedral in shape. 14. Tap according to claim 13, characterized in that said shutter is substantially in the shape of a cube or semi-cube.