The object of the present invention is an assembly of a cap and a spout, in particular for thin-body flexible containers, generally known as “pouches”, usually used for containing liquid or dense food products, such as fruit juices, fruit puree, yogurt, energy drinks and the like.
Such pouches have been very popular for some years, especially in the field of products for children, due mainly to their convenience of use: it is sufficient to unscrew the cap and drink directly from the spout, possibly squeezing the pouch in the case of dense products.
Typically, the spout is made of plastic material, rigid enough to ensure a stable screwing of the cap, which is also made of plastic material.
This however, involves some drawbacks. For example, when the spout is held between the lips in order to drink the product, it may give the user an unpleasant sensation on the lips due to a certain surface roughness of the plastic.
Or, it is possible that the edge of the spout hits the user's teeth.
The object of the present invention is to create a cap and spout assembly that overcomes the drawbacks mentioned and at the same time satisfies the requirements of the sector.
Such object is achieved by a spout, a cap and a cap-spout assembly according to the following claims.
The features and advantages of the invention will be apparent from the description given below, provided by way of non-limiting example, according to the accompanying figures, wherein:
With reference to the accompanying figures, a cap-spout assembly for a thin-body flexible container, in jargon called “pouch”, is indicated collectively at 1.
Typically, a flexible pouch consists of two facing front walls made of flexible material, typically a polymeric film, single-layer or multi-layer, welded along their respective peripheral edges.
At the upper edges, a spout 2 of the assembly 1 is inserted between the two front walls.
The spout 2 comprises a spout body 3, made of a single piece of the same plastic material, for example polyethylene (PE) or polypropylene (PP).
The internally hollow spout body 3 extends along a straight spout axis X between a lower end 4, intended to be inserted between the upper edges of the walls of the pouch, and an opposite upper end 6, where a spout mouth 8 for the product to exit is found, delimited by a spout edge 10.
From the lower end 4 to the upper end 6, the spout body 3 comprises a connecting portion 12, an intermediate portion 14 and an end portion 16.
The connecting portion 12 consists of a region with two opposite faces 12a, 12b, which together form the so-called “welding rim”, on which are welded the upper edges of the walls of the pouch.
The intermediate portion 14, flanked axially by the connecting portion 12, comprises:
The end portion 16 is flanked axially by the intermediate portion 14 and consists of a tube 18 extending from the upper plate 14c to the mouth 8 of the spout body 3.
The tube 18 has an outer tube surface 20, preferably circular cylindrical. Said outer tube surface 20, which extends from the upper plate 14c to the spout edge 10, is smooth, i.e. it is free of any ridges or depressions.
Internally, the spout body 3 is hollow and has a lower duct 22, which preferably extends through the connecting portion 12 and the intermediate portion 14, and an outlet duct 24, which preferably extends through the upper portion 16, i.e. through the tube 18.
Preferably, the outlet duct 24 has a section with a diameter smaller than the diameter of the lower duct 22.
The tube 18 of the spout body 3 has a continuous or interrupted inner thread 26; in other words, the spout body 3 has a thread 26 contained in the outlet duct 24 of the tube 18.
The spout 2 further comprises a cover 30 made of a soft material, i.e. less rigid than the plastic material that forms the spout body, and inert, so as to be suitable for contact with the user's lips and insertion into the mouth.
For example, said cover 30 is made of silicone or a thermoplastic elastomer (TPE).
The cover 30 coats externally, at least in part, the tube 18, and in particular coats part of the outer tube surface 20 and the spout edge 10 which, shaped like a circular crown lying on an imaginary plane orthogonal to the spout axis X, surrounds the mouth 8 of the spout 2.
Preferably, the cover 30 completely coats the outer tube surface 20, i.e. from the spout edge 10 to the upper plate 14c of the intermediate portion 14 of the spout body 3.
According to one embodiment, the cover 30 has externally an outer cover surface 32 essentially frusto-conical, flared towards the intermediate portion 14 of the spout body 3.
According to one embodiment, the cover 30 is made in one piece, separately from the spout body, and then applied thereto, for example by means of mechanical coupling, such as a snap coupling, or chemical, using adhesives.
According to a further embodiment, the cover is made separately from the spout body and then applied thereto by means of the co-molding process, i.e. by introducing the already-formed cover into the mold wherein the spout body will be formed (or vice versa, i.e. introducing the already-formed spout body into the mold wherein the cover will be formed).
According to a still further embodiment, the cover is made simultaneously with the spout body, for example by means of a bi-injection process.
The cap-spout assembly 1 further comprises a cap 40, which is screwable to the spout 2. In particular, said cap 40 is screwable to the inner thread 26 of the tube 18.
According to one embodiment, the cap 40 comprises a handle 42 consisting of an annular outer cap wall 44 around a cap axis Y, continuous or consisting of separate portions, a closing wall 45 perpendicular to the cap axis Y, and a tang 46 inside the handle 42, coaxial to said cap axis Y, protruding axially from said closing wall 45.
The tang 46 is equipped with an outer thread 48 for screwing into the inner thread 26 of the tube 18 of the spout 2.
When the cap 40 is screwed onto the spout 2, the closing wall 45 closes the mouth 8 of the spout 2, preventing the escape of the product contained in the flexible pouch.
According to a preferred embodiment, the cap 40 consists of two components: a closure 50 and a top cap 60, engaged to each other.
The closure 50 is made as a single piece out of plastic material, for example, polyethylene (PE) or polypropylene (PP), and consists of a side closing wall 52 annular around a closing axis Z and a bottom closing wall 54, orthogonal to the closing axis Z, which closes the side closing wall 52 at one end.
Internally, from the bottom closing wall 54, which functionally forms said closing wall 45 of the cap 40, the tang 46 protrudes, provided with the outer thread 48, coaxially to the closure axis Z.
Preferably, the tang 46 is internally hollow.
The top cap 60 is made as a single piece out of plastic material, for example polyethylene (PE) or polypropylene (PP), and comprises the handle 42, consisting of the outer cap wall 44, and a casing 62, inside the handle 42.
The casing 62 consists of an annular inner cap wall 64 around a top cap axis K and a bottom cap wall 65 that closes the inner cap wall 64 at one end.
Preferably, the casing 62 is connected to the handle by means of a plurality of tabs 66, for example angularly equally spaced, preferably contained in imaginary planes containing the top cap axis K.
The casing 62 is suitable for housing the closure 50, constraining it axially and rotationally.
For example, according to one embodiment, the closure 50 has a plurality of ridges 56 protruding from the outer surface of the side closure wall 52, which are substantially axial and arranged in a circumferential succession.
Correspondingly, the casing 62 has on the inner surface of the inner cap wall 64, a plurality of ridge seats 68, each ridge seat 68 being suitable to accommodate the respective ridge 56 of the closure 50, thus creating a rotational constraint between the top cap 60 and the closure 50.
Moreover, according to one embodiment, the closure has a circumferential groove 58, near the bottom closure wall 54, on the outer surface of the side closure wall 52.
Correspondingly, the casing 62 of the top cap 60 has a circumferential rib 70, continuous or continuous in sections, protruding from the inner surface of the inner cap wall 64, near the bottom cap wall 65.
Once the closure 50 is inserted in the casing 62, the rib 70 snaps into the groove 58, forming an axial constraint between the top cap 60 and the closure 50.
The cap 40, and in particular the top cap 60, is also provided, in a preferred embodiment, with a guarantee seal suitable to indicate the first opening of the cap from the spout.
For example, said guarantee seal is described in the International Application WO-A1-2018/020365 or the International Application WO-A1-2008/050361, both of the Applicant, the teaching of which is incorporated herein.
When the cap and spout are screwed together, the closing wall 45 of the cap 40 closes the mouth 8 of the spout 2 by pressing on a portion of the cover 30.
At the same time, when the cap and the spout are screwed together, an inner cap wall 64 engages the upper plate 14c of the spout 2 to form a guarantee seal.
In particular, the inner cap wall 64 comprises an end strip 80 connected to the remaining part of the inner cap wall 64 via a breakable septum 82.
Moreover, the closing side wall 52 comprises an end lip 84 which, when not deformed, protrudes radially from the outside of the remaining part of the closing side wall 52.
When the closure 50 is contained in the casing 62, the end lip 84 is deformed and radially contained within the end strip 80 of the casing 62.
When the cap is applied to the spout, the end strip 80 engages the upper plate 14c of the spout 2, so that it cannot be removed axially from the spout.
When the cap is first unscrewed from the spout, the breakable septum 82 breaks (as the cap tends to separate from the spout while the end strip 80 is engaged thereto) and the end lip 84 of the closure 50 expands to the outside, becoming visible.
By screwing the cap back on to the spout, the end lip 84 is placed between the remaining part of the inner cap wall 64 and the end strip 80, which has remained attached to the spout, remaining clearly visible so as to indicate that the pouch has been opened.
Innovatively, the cap-spout assembly described above overcomes the drawback mentioned with reference to the prior art, as it allows the user to hold between the lips a soft and ergonomic cover.
Moreover, the two-component cap (closure and top cap) allows for particularly advantageous and reliable production, even in the case of high production volumes.
It is apparent that one skilled in the art, in order to meet contingent needs, may make changes to the cap-spout assembly and to the individual components described above, all contained within the scope of protection as defined by the following claims.
Number | Date | Country | Kind |
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102017000145563 | Dec 2017 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2018/058380 | 10/26/2018 | WO | 00 |