The present invention refers to a water supply nozzle of an oral hygiene waterpik and, in particular, to a nozzle or pick to be mounted on a water delivery system for oral hygiene consisting of a head with an improved cleaning effect and preferably equipped with improved hygienic capacity.
In the field of oral hygiene, for a long period of time, there have been devices of different features, ranging from the very common toothbrush, flosser and dental floss to the more sophisticated devices, including electric brushes and water jets systems.
Notably, manual toothbrushes have a head with a set of bristles that are rubbed on teeth and gums to mechanically remove plaque and food residue. The equivalent electric toothbrushes differ for the movement of the head's electric motor that simulates a rotating, alternating and sometimes pulsating manual motion, but at a much higher speed and thus with a faster cleaning effect. In fact, the cleaning effectiveness of electric toothbrushes does compel quick brushing which can cause serious irritations, in particular for those who suffer from particular dental pathologies such as gingivitis. In addition, the strong vibrations these toothbrushes transmit to the teeth and, by extension, to the bones of the mandible and jaw are considered particularly annoying to some users.
In addition to or in combination with the aforementioned cleaning systems, devices such as water jet dispensers, also called waterpiks or waterjets, have also been developed. These devices precisely use water dispensed under pressure possibly in combination with the mechanical action of a bristle head.
Generally, waterpiks are divided into four types:
With all four types, various types of picks with various types of cleaning functions can be used on these devices, such as picks with variable water jet flows, picks with built-in bristles, and picks with flossers etc.
In particular, all commercial picks have the feature of having one or more pulsating or continuous jets that are parallel to each other. Although its cleaning action is generally considered satisfactory, it has been observed that the water jet tends to remove the plaque or food residues but without giving off an optimal hygienic effect. In fact, on the one hand, this kind of jet—linear or pulsating—it is not able to completely remove plaque and food residue due to the anatomy of teeth and gums that create interdental spaces with very narrow slits and converging surfaces, so bits of food residue and plaque remain between those spaces and are known to be carriers or a breeding ground for the growth of harmful bacteria for gums and teeth.
It follows that the use of water jets used with these devices cannot guarantee optimal hygienic action.
To resolve this problem there is an electric waterpik on the market, that comprises a water container connected to a water dispensing pump through a nozzle dispenser, in association with an additional pump for a mixture of air with this water in order to create a water jet containing microbubbles. The oxygen effect is known to give off a disinfectant effect on the mechanical removal of water.
This type of waterpik is, therefore, advantageous from the point of view of the sanitizing effect. However, the device appears to be bulky because from a constructive point of view it is quite complex seeing that it requires at least one pump to dispense water mixed with air bubbles. In addition, the more complex a device is, the greater the chances of malfunctioning, the complexity of its realization and the high cost of production.
The technical problem at the basis of this invention is to design a water dispenser nozzle for dental hygiene that is able to efficiently remove plaque and food residue, considerably improve the sanitized effect of a waterpik device and at the same time resolve the structural complexity of well-known waterpiks. Another technical problem is the optimization of the cleaning effect of the water jet.
This problem is resolved by a water dispenser nozzle capable of automatically directing the water jet of different angles thanks to a simple construction and preferably allows the mixing of air with the water taken from the container or directly from the domestic water network, without the need for electrically powered pumps.
Additional features and advantages of the nozzle according to the present invention will become apparent from the following description of some embodiments given as a pure non-limiting example, wherein:
The idea behind the present invention is that to automatically perform an alternation of water jets pointed at one point alternately, but with different inclinations, creating a vortex effect of the water at the point of impact that is to be achieved. In this way, the cleaning capacity of the head is optimized by its washing function with pressure water as well as the only circular mechanical effect that draws out the residue part from the tooth or the gingival space that is to be cleaned. This point where the jets meet is obtained by an inclination of the jets and supporting teeth which together optimize the positioning of this meeting point. Also, preferably, the dispenser nozzle must at least allow the same performance of dispenser nozzles associated with electric waterpiks that mix with air. However, the object is to avoid the complex construction of said electric waterpiks that mix with air.
For this purpose, as shown in
The first end of attachment (2) as best shown in
The second end (3) as shown in
Preferably, on the outer surface of the side wall (33), there is a notch (35) of reference for the correct positioning of the closure cap (6). The notch (35) is more preferably provided with a groove (36) for the engagement with a corresponding tooth of the cap (6) as explained below.
The head (4) conveniently comprises a rotating element (5) pivotally accommodated in the aforementioned second end (3) of the nozzle (1). In particular, this element (5) comprises a water flow diverter disc (50) that cooperates with a perforated closure cap (6) for the opening (32) of the second end (32) to dispense water at a predetermined distance from the outer surface of said cap and according to a predetermined angle a, 13, y with respect to the axis of rotation of the rotation element (5).
The rotating element (5) has a cross-section, namely, a section along an orthogonal plane to the Y-Y axis, generally circular and has a first face (51) (
It should be noted that the first face (51) is represented by the external face of the water flow diverter disc (50). This disc has a circumferential cut (56) (
As previously explained, the head comprises a closure cap (6) of the second end (3). The cap is of a substantially circular shape with a circumferential edge (60) complementary to the opening (32) of said second end (3). Preferably, said edge (60) is provided with a centering notch (61) which cooperates with the notch (35) of the second end (3). More preferably, the notch (61) has a tooth (62) (
The first face (63) is provided with a protruding annular edge (66) that represents the aforementioned second means of engaging that cooperate with the first means of engaging or annular step (34) of the second end (3) to provide a sealing closure for the second end itself. The first face (63) is also provided with a semispherical seat (67) for engagement with the rotation pin (53) of the first face (51) of the rotating element (5) previously described.
The second face (64) comprises a protrusion (68), preferably a conical trunk, of which said holes (65) for the water dispensing open up on the free surface (68A). For example, these holes (65) are distributed on the free surface and form the vertices of an equilateral triangle, in other words, they are distributed over the surface along a circumference of 120° of distance from each other (
In accordance with a preferred embodiment, as best shown in
In other words, as shown in
Preferably, said holes have an internal channel at the cap (6) (not shown) that is configured to send a jet of water at an angle to the free surface (68A) of the protrusion (68) of the cap (6) so that it reaches said convergence at point P. Alternatively, the inner channel is perpendicular to the free surface but the same surface is inclined in a manner so that it may reach the same target.
In accordance with an embodiment, as shown in
In addition, the first face (80) has an annular projection (65) of interlocking engagement with the step (34) of the opening (32) to create a water seal and a plurality of holes (not shown) for the water dispensing.
The second face (81) is basically a flat disc containing a plurality of holes for the water dispensing (86) corresponding to the holes of the first face. In particular, these holes are distributed in a central portion of the face, while peripherally there are a plurality of bristles (87) for the removal or plaque or food residue.
As previously explained, even the plurality of holes (86) is also configured to deliver water jets that converge at a point P located at a predetermined distance. The attainment of the said converging jets, as well as point P, is accomplished in the same manner as explained above. Even the number of holes and their distribution with respect to the Y-Y axis is identical to what has already been explained.
As an alternative to the just exemplified cap (8), the head (4) of the nozzle according to the present invention may include a cap that is completely similar to the cap (6) described with reference to
In accordance with a different embodiment, as shown in
The additional plurality of holes (91) serves to dispense rinsing water when toothpaste for brushing is used on the teeth via the bristles (92). This system becomes very convenient for it does not force the user, especially senior persons or those with back problems, to bend under the faucet to rinse out a mouth full of toothpaste with water, as usual. Therefore, these holes (91) do not require particular configurations in order to deliver pulsing jets of water converging at one specific point. On the contrary, their function is to dispense water on a surface as wide as possible or at least on the surface covered by the bristles (92).
A fourth embodiment of the invention is shown in
The advantage of this embodiment lies in the fact that with two heads it is possible to mulheadly the fine cleaning effect previously described for it is possible to place into motion the rotating element (5) of the heads in two opposite directions, for example, inverting the inclination of the fins (55) in order to obtain a better leverage effect for the removal of food residue or plaque.
In addition, the heads (11) may be modified with the previously described components, such as the cap and hood with or without the bristles and the additional holes for rinsing.
A fifth embodiment of the invention is shown in
The first portion (301) is identical to the second cup-shaped one (3) previously described, and in addition, it comprises a head that is completely identical to the previously described head (4) and its components and variants. Therefore, the reference numbers shown in
The second portion (302) comprises a side wall (304) that has a bottom (305) with a seat for the reversible enclosure of a coupling (306) for the bristles. In particular, the bottom (305) has an open portion (307) of engagement of said coupling (306) and a closed portion (308) which constitutes the channel for the passage of water from the body (303) to the cup (301) of the dispensing nozzle.
The coupling (306) comprises a support (309) with a first face (311) from which protrudes a plurality of bristles (312) and a second face (313) from which protrudes a reversible engagement foot (314) into the aforementioned open portion (307) of the second portion (302) of the end (310) of the nozzle (
As shown in
Additionally, the support (308) may be applied with a small sponge (not shown) soaked with an oral treatment fluid such as mouthwash. Alternatively, the sponge may receive from the dispenser or another device equipped with a container, a dental hygiene product so as to be soaked and to uniformly release the product in a highly effective and controlled manner without waste.
As is evident, the end (310) of the dispensing nozzle previously described allows for the great versatility of use thanks to a simple and combined construction in order to allow for the assembly of various components that allow integrated treatments in order to obtain a complete oral hygiene.
According to an embodiment of the invention, as shown in
Advantageously, the elongated portion or body of the nozzle (7) comprises an inner surface (71) that has a differentiated cross-section. In particular, this inner surface (71) comprises a first portion (72) that extends substantially in proximity to the first end (2) of the nozzle and has a constant diameter, a second portion (73) that instead extends from the second end (3) toward the first end (2), which also has a constant diameter, and a third intermediate portion (74) between said first and second portions.
In particular, as shown in detail in
In fact, the body wall (7) of the nozzle comprises a hole (77) (details of
Preferably, the hole (77) has a circular opening surrounded by a plurality of protuberances (78) that generally extend orthogonally to the X-X axis in order to create spacer elements to prevent accidental blockage of the hole during the use of the nozzle. In fact, these protuberances are separated from each other by lateral grooves (79) that allow the passage of air even when the protuberances should be located with their free edge in support of a user's lips or face. In addition, there is a free edge that is beveled in order to avoid the scratching of the user's lips or face (
Preferably, the hole (77) has an inner wall provided with narrowings (590) (more visible in detail in
In addition, the Z-Z axis (
As schematically shown in
From what has been explained so far, it is evident that the reported drawbacks in the introductory part of this description have been overcome and important advantages have been achieved.
In fact, the arrangement of the venturi duct within the hollow body of the dispensing nozzle with an opening for the external air intake makes it possible to advantageously obtain a mixture with the water flowing into the said hollow body and wafted air from the outside without the use of extra appliances or systems that are electrically powered. As a result, the entire structure of the dispensing device is considerably simplified with savings of production costs and the complete elimination of the risks of malfunctioning or maintenance.
In addition, as previously explained, the dispensing nozzle of the present invention is simple from a constructive point of view and easy to apply to any type of water supply system.
Its use is also quite simple and does not require any specific attention or preparation from its users.
The projection or support system around the air intake holes will help prevent inadvertent blockages of the same that could affect the air/water mixture.
In particular, with the unique predisposition of the alternating water jets converging at a selected single point and at different angles, it is possible to obtain a sort of vortex effect around the cleaning zone so as to significantly increase the cleaning effectiveness of the water dispensed under pressure. In fact, it has been verified that this alternating action at a single point and at different angles manages to remove the most hidden plaque and food residue in narrow and tight spaces between contiguous teeth and respective gums.
In addition, the predisposition of spacer elements on the tooth or gum allows it to automatically calibrate the converging point of impact of the aforementioned water jets without forcing the user to worry about correctly positioning the nozzle.
Similarly, the rotating disk allows for the dispensing of water in an equally automatic way with the aforementioned alternating effect in a simple and reliable manner.
The addition of an element with bristles also allows it to advantageously increase the cleaning effect even further thanks to the mechanical action of the bristles.
Therefore, the dispenser nozzle is particularly versatile, adaptable and complete for optimal dental hygiene. In addition, the nozzle can be used on any type of handle of any type of waterpik available on the market by a simple adaptation of the first end of the coupling to the waterpiks.
Further variants of the nozzle of the invention may be carried out by an the skilled person in the art while remaining within the scope of protection as defined by the appended claims. For example, it is possible to expect the application of the aforementioned nozzle to a conventional electric toothbrush that has an internal water intake system.
For example, a plurality of bristles may be provided directly around the protrusion (68) of the cap (6) as shown in
The protrusion (68) may be eliminated and the outlet holes can be obtained directly on the flat surface of the second face (64) of the cap (6).
The angle of the water jets and their point of conjunction may vary according to particular needs or preferences, for example, by a particular conformation of the dental arch of a person.
The materials which the nozzle of the invention is made of may vary according to specific requirements, but in any case, they will be materials suitable for oral hygiene and certified by the Ministry of Health for this purpose. They are plastic materials commonly used, for example, for the production of conventional manual or electric toothbrushes.
Even the shapes may also be subject to custom modifications, as long as the pulsating or alternating effect of the jets with different angles and convergents in a single predetermined point remains pre-established, in order to obtain the aforementioned vortex effect and/or the aforementioned venturi effect.
Furthermore, it is to be understood that any combination of variants of the venturi system and the head system with alternating and converging jets are equally the object of the present invention.
Number | Date | Country | Kind |
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102016000048277 | May 2016 | IT | national |
102016000048286 | May 2016 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2017/052604 | 5/4/2017 | WO | 00 |