POUR SPOUT AND A METHOD OF FABRICATION THEREOF

Abstract

A pour spout, comprising a main body adapted to fit within the bottle neck of a bottle; a pouring part; the pouring part being slidingly movable between a retracted position within the main body and an extended position out of the main body; and at least one spring extending from a bottom end of the pouring part and a bottom end of the main body; wherein a threshold pressure is applied on a free edge of the pouring part, the spring gets compressed down below the pouring part as the pouring part slides within the main body, until the free edge of the pouring part reaches the edges of the bottleneck.

Claims

1. A pour spout, comprising: a main body adapted to removably fit within the bottle neck of a bottle; a pouring part, said pouring part comprising a breather and an open top; said pouring part being slidingly movable between a retracted position within the main body and an extended position out of the main body; a threaded outer circumferential ring connecting the pouring part and the main body and adapted to secure a threaded cap on top of the pouring part in the retracted position of the pouring part within the main body; an air tube extending from said breather in the pouring part through said main body and out of said main body; and at least one spring extending from a bottom end of the pouring part and a bottom end of the main body; wherein when a threshold pressure is applied on a free edge of the pouring part, the spring gets compressed down below the pouring part as the pouring part slides within the main body, until the free edge of the pouring part reaches the edges of the bottleneck; and wherein said air tube is aligned with said breather to control air flow from said breather to said main body for a control of a liquid flow rate out through said open top end of the pouring part.

2. (canceled)

3. The pour spout of claim 1, further comprising a stopper of the extension of the pouring part out of the main body in the extended position of the pour spout.

4. (canceled)

5. The pour spout of claim 1, further comprising fins extending from an outer surface of the main body.

6. The pour spout of claim 1, further comprising rubber fins extending from an outer surface of the main body.

7. (canceled)

8. (canceled)

9. The pour spout of claim 1, further comprising a circumferential sitting ring, said sitting ring being positioned on the top of the main body and supporting the pour spout on an upper edge of the bottle opening.

10. The pour spout of claim 1, further comprising a fitting seal in sealing contact with the inside wall of the bottle neck.

11. The pour spout of claim 1, wherein said pouring part is in stainless steel and the main body is in a thermoplastic polymer.

12. The pour spout of claim 1, wherein said pouring part is in stainless steel, the main body is in a thermoplastic polymer, and the at least one spring is in stainless steel.

13. The pour spout of claim 1, wherein said is cap adapted to close the bottle on top of the pouring part in the retracted position of the pouring part within the main body within the bottle.

14. The pour spout of claim 1, wherein said cap is adapted to engage said ring to close the bottle on top of the pouring part in the retracted position of the pouring part within the main body within the bottle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] In the appended drawings:

[0012] FIG. 1 is a schematic view of a pour spout according to an embodiment of an aspect of the present disclosure;

[0013] FIG. 2 is a top view of the pour spout of FIG. 1;

[0014] FIG. 3 is a see-through detail view of a pour spout according to an embodiment of an aspect of the present disclosure;

[0015] FIG. 4A is a schematic view of a cap for a pour spout according to an embodiment of an aspect of the present disclosure; and

[0016] FIG. 4B is a see-through view of a cap positioned on a pour spout mounted on a bottle according to an embodiment of an aspect of the present disclosure.

DESCRIPTION OF EMBODIMENTS OF THE INVENTION

[0017] In an embodiment of an aspect of the present disclosure as illustrated for example in FIGS. 1-3, the spout generally comprises a pouring part 17 and a main body 10, the pouring part 17 being slidingly movable between a retracted position within the main body 10 (see for example FIG. 4B) and an extended position out of the main body 10 (see for example FIG. 1).

[0018] The pouring part 17 and the main body 10 are generally open-ended elongated hollow elements, the pouring part 17 having a size allowing telescoping into the main body 10 as will be described hereinbelow. Although straight pouring part 17 and main body 10 are shown, they may be slanted.

[0019] At least one spring 14 (three springs are shown for illustration purpose only) is secured between a bottom end 11 of the pouring part 17 and a bottom end 20 of the main body 10. When a threshold pressure is applied on the free edge of the pouring part 17, i.e., typically on top of the pouring part 17 (see arrow in FIG. 3), the spring 14 gets compressed down below the pouring part 17 as the pouring part 17 slides down within the main body 10, until the top edge of the pouring part 17 reaches the edges of the bottleneck.

[0020] Since the spring 14 is secured at a top end thereof to the bottom end 11 of pouring part 17, it is compressed or extended depending on the movement of the pouring part 17, inwards or outwards of the main body 10 respectively. The stiffness of the spring is selected for a smooth recoil back when the spring is released from being compressed, while allowing compression by being pushed down upon applying a pressure on the pouring part 17 by a user (see arrow in FIG. 3).

[0021] In FIG. 3, the spring 14 is shown at rest, i.e. in an uncompressed state thereof, between the bottom end 11 of the pouring part 17 and the bottom end 20 of the main body 10. In practice, the pouring part 17 moves in two directions, generally up and down, so the spring 14 extends and retracts accordingly.

[0022] The number and diameter of the springs may be selected so as not to hinder the flow of liquids.

[0023] The pouring part 17 may comprise a breather 6 allowing a user to control the flow rate of liquid. An air tube 9 may be provided extending from the breather 6 down through the main body 10 and out of the main body 10, in order to let the liquid come out of the pour spout at a controlled flow rate, through an open top end 7 of the pouring part 17.

[0024] An outer circumferential ring 5 connects the pouring part 17 and the main body 10 and acts as a stopper of the extension of the pouring part 17 out of the main body 10 in the extended position of the pour spout. The ring 5 may be provided with threads for securing a cap as will be described hereinbelow.

[0025] An outer circumferential sitting ring 4 at the top of the main body 10 allows the pour spout to rest on the upper edge 13 of the bottle opening.

[0026] A fitting seal 3, in sealing contact with the inside wall of the bottle neck 15, may be provided below the sitting ring 4 to ensure airtightness and liquid tightness.

[0027] Circumferential fins 8 are shown in FIGS. 1 and 3 extending from the outer surface of the main body 10; they may have different diameters so to fit a range of bottle neck inner diameters. They may have increasing diameters from the bottom up for example, so the first one going from up to down is the largest, fitting large bottle neck inner diameter and the smaller the bottle neck inner diameter, the less the main body 10 of the pour spout enters deeply within while still preserving tightness. They may be rubber fins.

[0028] The main body 10 has a length selected to receive the length of the pouring part 17 as the pouring part 17 slides in. The interior volume of the main body 10 allows the liquid inside the bottle to get straight to the interior volume of the pouring part 17, where the liquid stream gets narrowed down to a smaller stream before coming out of the open end 7 of the pouring part 17 as a controlled stream.

[0029] The air tube 9 aligned with the breather 6 of the pouring part 17 allows a controlled stream flow of the liquid through the spout. By blocking the breather 6, the user may stop the flow of liquid.

[0030] FIG. 1 show the pour spout in the extended position length thereof, i.e. with the pouring part 17 fully extended out of the main body 10. When the pour spout is in position on a bottle (B), at least one of the fins 8 is in contact with the inside surface of the bottle neck, thereby ensuring liquid leak tightness when the user pours from the bottle with the pour spout.

[0031] The sitting ring 4 of the main body 10 is meant to rest on the edges of the open top of the bottle, the main body 10 extending within the bottle while the pouring part 17 extends up from the sitting ring 4 in the extended position of the pour spout, i.e. when the pour spout is in pouring position. Once thus resting on the top edge of the bottle, the sitting ring 4 provides stability and steadiness. Even if none of the fins 8 is in contact with the inside surface of the bottle, the pour spout is still usable provided the main body 10 extends within the bottle and the sitting ring 4 sits on the edge of the bottle opening. Once the main body 10 is inside the bottle, the pour spout is ready for use, and the liquid within the bottle may be made, by tilting the bottle, to flow up through the main body 10 through the spring 14 and up through the narrower pouring part 17. Due to the air tube 9 and the breather 6, air may be made to go in and out of the bottle allowing a controlled stream of liquid.

[0032] By allowing air in, the breather 6 allows to unclog in case the liquid cumulates within the pouring part 17; by simply closing the breather 6 with a finger, the user may cause the reverse effect, i.e. stopping of the liquid on its way to the open end 7 of the pour spout.

[0033] The material of the retractable pour spout needs be resistant to continuous contact with liquids and corrosion, while being lightweight and cost effective.

[0034] The pouring part 17 may be in a metal such as stainless steel for example, and the main body 10 may be made in a thermoplastic polymer such as acrylonitrile butadiene styrene (ABS) for example. The fins 8 may be made in rubber for flexibility as they slide in and out of the bottle neck.

[0035] The material of the spring 14 needs to be resistant to corrosion, and light. Stainless steel may be selected for its strength, high corrosion resistance and weight.

[0036] The present disclosure provides an effective way to quickly and efficiently pour a liquid from a bottle with a pour spout that may remain in the bottle even if not in use.

[0037] The retractable pour spout may remain in the bottle, and the bottle still be closed with a cap when the pouring part 17 of the spout is retracted within the main body 10 within the bottle. Thus, the present retractable pour spout saves a lot of time by not having to be taken off prior to closing the bottle after pouring.

[0038] Moreover, the pouring spout may be removed from the bottle by pulling the pouring spout out from the pouring part 17, thereby withdrawing the main body 10 from its engagement within the bottleneck, together with the pouring part 17, as one single part, so that the main body 10 is disengaged from within the bottle.

[0039] Moreover, when in position in the bottle with the pouring part 17 extending out, the spout allows keeping air out, thereby preventing oxidation of the liquid within the bottle even though the spout is still on. When in position on the bottle with the pouring part 17 retracted within the main body 10 within the bottle, the bottle may be sealed with a cap fixed on the bottle pushing the pouring part 17 inside, the same way it would be in absence of the spout: the whole pour spout, including the pouring part, is within the bottle under the bottle cap. The bottle size is thus unchanged, without element protruding therefrom, thus reducing the risks of unintentionally hitting a spout sticking out of a bottle for example.

[0040] The cap may either be the cap of the bottle that can be put back on top of the bottle or it may be a cap of the pour spout.

[0041] The cap may be a screw cap fitting the size of the outer circumferential ring 5 connecting the pouring part 17 and the main body 10 for example, thereby closing the bottle in an airtight way with the retractable pour spout inside in the retracted position of the pouring part 17.

[0042] Alternatively, as illustrated for example in FIGS. 4, a cap 22 is illustrated as a generally tubular body with a closed top with a magnetic plate 21 on an inner surface thereof, and an open end opposite the closed top, the edge of the open end being provided with a rubber or elastic band 23 wrapping around the top edge of the bottle (B) with a minimal grip when the cap 22 is in position for closing the bottle (B). The magnetic plate 21 at the top of the cap 22 allows that the cap 22 is secured to the top of the pour spout. The rubber band 23 may be covered in the same material as the magnet plate 21. Thus, the cap 22 is one piece with the magnet 21 on top and the rubber band 23 on the bottom, both covered by a soft and thin material for example. When the cap 22 is pushed onto the retractable pour spout, the magnet 21 provides that the cap 22 is secured to the top of the pour spout (see FIG. 4B).

[0043] The present free pouring, retractable spout achieves a balance between a controlled flow rate with no backlash for liquids of a range of viscosity, protection against fruit-flies or other bug infestations and/or oxidation of the liquid within the bottle, and efficiency and control of the pouring. It may be used for a medium flow rate which allows for pouring at a moderate flowrate.

[0044] The present pour spout may remain in the bottle even when the bottle is closed, thereby preventing oxidation from occurring when the bottle is not being used, as well as bug or dust contamination for example.

[0045] The present pour spout may be easily removed from the bottle by pulling on the pouring part 17 thereof.

[0046] The scope of the claims should not be limited by the embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole.