WO2009010620A1 - Improved feeding bottle - Google Patents

Abstract

Device with ventilation conduits for connecting in the mouth of a feeding bottle and improved feeding bottle wherein the container for the liquid includes a ventilation mechanism. The devices with ventilation conduits are equipped with one or more apertures so that air can enter but liquid cannot escape. In addition the flow of air is controlled due to a flow control ring. The improved feeding bottle also has one or more apertures in the liquid container thereof wherein are placed valves also incorporating a flow control ring.

Description

 Perfected baby bottle

Description

Improved baby bottle that includes an air valve located on the rigid body of the container, or optionally on an additional threaded device; which in its preferred embodiment will allow analog flow regulation by manually modifying the pneumatic flow resistance of the system.

Object of the invention The present invention fundamentally introduces the incorporation of a valve located on some of the solid parts of the bottle, which will generally be carried out in thermoplastic hydrophobic technical fabric. Likewise, said valve can be part of a screw-in device, capable of being adapted to a conventional bottle for infant feeding. The purpose of said valve in both cases is to obtain beneficial effects in the process of ingesting milk or fluid food, thus avoiding the known colic of the infant. According to a particularly advantageous, but not limiting, application example, the device according to the invention is intended to almost completely prevent undesirable entry of air through the suction hole, allowing air exchange by a valve or membrane independent of the nipple, and additionally maintaining constant pressure inside the container during the entire lactation process. The present invention raises in one of its embodiments the possibility of modifying, by means of a simple manual operation, the reference value of the pressure inside the container, and thus allows analogically adjusting the conditions of the intake in order to achieve of a totally natural breastfeeding. Another purpose of the invention is to allow simple hygiene and maintenance thereof, as well as to maintain the proper functioning of the valve regardless of the conditions of use and condition of the nipple.

A series of different constructive embodiments based on the same physical principle of gas exchange through a valve containing a microperforated hydrophobic or porous membrane-shaped material is offered herein. However, since in some of the embodiments it is proposed to provide the orifice or opening provided for the valve in the bottle body, it is considered convenient in this document

SUBSTITUTE SHEET (RULE 26) to claim all those embodiments of bottles that, being absent from the valve, are instead provided with holes or openings whose clear purpose is the coupling of one or more valves of the type described herein. In short, the application of the particular physical characteristics (air permeability and water impermeability) associated with hydrophobic membranes, with small pore size or microperforation, to the area of the development of anti-colic valves for bottles, is the novel and original idea They share all the proposed accomplishments. In some way, this document is intended to claim all that embodiment that, whether or not contemplated herein, applies, for the solution of infant colic, the particular physical principles of filtration mentioned herein.

State of the art

The feeding by means of a conventional bottle (basically constituted by a bottle in whose mouth a nipple with a single exit hole is placed, held by a threaded washer), or by an inefficient air valve system, requires on the part of the infant an effort of variable suction during the lactation process that will depend, on the one hand, on the amount of fluid remaining in the container and the angle of inclination thereof, and on the other, on the pressure of the air inside the bottle. In fact, when the liquid leaves the container when it is sucked by the infant, the air cannot enter to replace that volume of outgoing liquid, so that an imperfect vacuum is generated inside the bottle that forces the infant to suck every time with more force, until he can no longer suck. At this time, the infant is forced to interrupt the suction and open the mouth to allow air to enter through the suction hole of the nipple. This air mixes undesirably with the nutritional liquid, generating digestive problems that add to the discomfort caused by a process of discontinuous suction with forced pauses, very different from the instinctive process of natural breastfeeding. In this way, the excessive intake of air associated with this annoying process of artificial feeding is almost exclusively responsible for the infant's known colic; and, additionally, the vacuum generated during suction can be transferred to the baby's ear causing fluid to enter the eustachian tubes, which increases the risk of otitis.

Different bottle-type devices have been proposed in the State of the Art to regulate the exit of the food by controlling the entry of air. However the

SUBSTITUTE SHEET (RULE 26) Different proposed solutions do not satisfactorily solve the problem in all its dimensions. Thus we find diverse inventions that we can group into several groups, depending on the part of the problem that they address or solve with greater success.

A prominent group of inventions (ES 2065048 T3, ES 1028589 U, ES 1030225 U, ES 1017343 U) consists of a collapsible and generally disposable container incorporated inside the outer rigid bottle container. These solutions, which jointly solve hygiene problems together with those associated with the formation of imperfect vacuum inside the container (and consequent risk of colic), however, have the disadvantage of being expensive in the long term. Indeed, in the increasingly frequent cases, in which the stage of breastfeeding is prolonged considerably, it is not interesting nor an excess of asepsis, which could stunt the child's immune system, nor of course the use of disposable materials that entail In addition to the aforementioned increase in economic cost, an unnecessary accumulation of waste, not recommended from the point of view of ecological sustainability.

Another group of inventions are those that have the anti-colic valve incorporated in the teat itself (ES 0291545 U), generally in the outer body thereof, or at its base. The former have the disadvantage that if the child (think of children with sufficient independence to take the bottle by themselves) turns the head or the bottle slightly during intake, it deforms the valve so that, in a few cases it comes out She's the milk In addition, these valves must be incorporated in radially asymmetric teats in which there is only a correct position of lactation, which is the one in which the valve is oriented upwards. On the other hand, the bottles whose air valve is established in collaboration with the base of the nipple with the conjunction of the threaded elements have a performance dependent on the threading force, together with the additional inconvenience of forcing the customer to acquire a bottle in which all its elements are provided by the same manufacturer. In these bottles it is advisable not to thread with excessive force, so that sometimes the milk comes out of the valve. On the contrary, if an excessively strong threading occurs, the air inlet system is blocked resulting ineffective. Recently, a utility model (ES 1063649 U) has been published that solves the problems associated with the threading force, although it still has a slight maintenance inconvenience associated with the fact that the valve and nipple belong

SUBSTITUTE SHEET (RULE 26) to a single undivided physical body. Thus, being both fungible elements, a failure in the operation of one forces us to replace the entire system.

The last major group of inventions (ES 2166902 T3, ES 2094717 Tl, ES 1036158 U, ES 1037906 U), is one in which the solution to the hydrodynamic problem is approached through systems of pipes, valves or recesses more or less sophisticated, some of which even contain moving parts. All these inventions have two major drawbacks. The first is cleaning, since it is either expensive to access certain points of the pipeline system, or it is directly impossible. The second is maintenance, as these systems usually have delicate or fragile parts as well as bulky or prominent.

As far as they reach the inventor's knowledge, there are currently no bottles, neither patented nor commercialized, that employ hydrophobic technical textiles as a constituent of anti-colic valves. Thus, in the present invention certain possible, non-exclusive, embodiments are proposed using valves made from hydrophobic tissues, such as ethylene polytetrafluoride (ePTFE), ethylene-ethylene chlorotrifluoride (HALAR®), or other polymers of similar characteristics.

The simple use of valves containing ePTFE membranes (prepared in the absence of PFOA 's, in compliance with current food regulations), or HALAR®, allows, in a really simple way, to achieve an almost perfect anti-colic effect. Indeed, the basic principle of filtration of these materials is that they offer minimal resistance to the flow of air through it, and on the contrary they impose a high resistance to the flow of hydrophilic fluids. If we take into account that the technical difficulty to be solved is to allow the entry of air inside the bottle and prevent the outflow of fluid, it is easy to conclude that the constructive possibilities of bottles with ePTFE valves, HALAR will be many and simple ®, or similar.

Based on the constructive simplicity discussed in the previous section, I want to mention that, as far as my knowledge reaches, there is no bottle patent as simple as those claimed in this document. That is to say, the patent authors who sought to solve this important problem have always proposed a solution based on some type of valve or hydraulic device; in other words, nobody

SUBSTITUTE SHEET (RULE 26) He has proposed something as simple as "a bottle with one or several small holes", but has always sought to solve the entire problem and it is clear that through a hole the fluid escapes, so it is not a logical invention. In this sense, since "a bottle with a hole in which a molded-component DlS GORE-TEX® valve is inserted by pressure", is sufficient to solve the problem, the applicant wants to patent here, both the bottle with hole and valve (either inserted or welded), as simply the bottle with hole. The reason is simple, some of the recommended use valves are already patented and can be easily acquired, so that bottle manufacturers can simply market the bottle with a hole (holes), and it is the user who adapts the valves that , in general they will have a shorter useful life than the perforated container. By virtue of the different shelf life and the different construction materials used, it can be justified that valves and vessels are sold separately.

Description of the invention

In order to solve the indicated drawbacks, as well as meet certain new objectives, two fundamental groups of embodiments of the present invention are proposed. The first one consists of a ring with an inner diameter equivalent to the inside diameter of the threaded neck of the bottle container, which in its lower part is provided with a female thread to adapt to the bottle's neck and in its upper part it has a male thread to allow it to be adapted a nipple with conventional thread. The size of each thread will be variable to suit most or all manufacturers in the market, the present invention not being limited to a single thread diameter. This ring contains the necessary pipes to allow sufficient air flow from the outside to the valve that communicates with the "wet" part of the system. At the ends of said air ducts we have, in the preferred embodiment, on the "dry" side a ring-shaped element that, in its cooperation with the end of the fixed ring air ducts, creates additional pneumatic ducts whose section and length can be modified by simply rotating said element with respect to the axis of symmetry of the bottle. The other end of the air duct is crowned by a valve whose purpose is to allow the flow of air in the inlet direction, and prevent the outgoing flow of fluid.

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SUBSTITUTE SHEET (RULE 26) It is precisely these final parts of the air duct that deserve a more detailed comment. The fluid anti-leakage valve in the state of the art is made almost exclusively in latex or silicone and, in general, takes advantage of the flexibility of these substances and a particular geometry to allow the desired effect, so that by decreasing the pressure in inside the container, the valve opens, closing otherwise. In the present invention, the use of valves of this type is provided, although, taking advantage of the fact that, with the device of the present invention, we can physically separate the valve from the nipple, valves of different materials or that take advantage of characteristics are also provided. physical additional to the flexibility of the material itself to effectively separate the "wet" and "dry" parts of the system. Thus, it is proposed to use the latex in its usual form, the silicone, either in its usual form or with a micropore system taking advantage of its highly hydrophobic character, and finally it is proposed to use as valves, membranes or tissues of hydrophobic fibers with a micropore size that allows both adequate asepsis and a simple suction process. In the preferred embodiment, due to its hypoallergenic, highly hydrophobic and mechanically resistant character, the use of fabrics composed of ePTFE or Halar fibers is advised. The fixing of these valves can be carried out in different ways according to the chosen embodiment, such as welding, simple insertion by pressure or by threading. In the first one, a threaded washer would be required for the valves in latex, silicone or ePTFE (not necessary in all cases, since a simple disc could be provided whose exterior is a self-supporting elastic ring, or it could be inserted "under pressure""a valve of the type expressed in Figure 10 (38), or simply weld the entire valve, the membrane, or the filter tissue, if it consists of thermoplastic material.

In other embodiments, however, no additional element is needed, so that the elasticity of the materials is used to be "snapped" into the end of the pneumatic duct. It is advisable to arrange the valve facing down when the bottle is in the transport position, thus, during use, no competition is generated between the direction of the flow of fluid and incoming air in the narrowest part of the system, which It could lead to a bubbling or instability of the fluid flow in the exit hole of the nipple.

As for the dry or outer end of the air ducting, in the preferred embodiment it is envisaged to provide the said mobile element (figure 1), although it will be considered

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SUBSTITUTE SHEET (RULE 26) that replacing said element with a fixed ring will be a particular case contemplated in the present invention. The proposed design for this mobile ring in the preferred embodiment allows to modify the absolute resistance to the air inlet flow according to a continuous function, but with discontinuous gradient. In this way we can obtain, in a simple way, for a given value of the suction force, any flow value in a wide range that extends from practically zero to a characteristic value that will be determined by the state of conservation of the valve arranged at the "wet" end. Thus, unlike traditional designs, in which we have a specific number (two or three generally) of suction positions, in the present invention we have a specific number of suction ranges: that of slow variation, for small flows, the of medium variation for medium flows and so on for large, very large flows, etc., all intermediate states being possible between the minimum and maximum value. Likewise, it is not necessary for the regulation ring to present these three ranges, it being understood that different embodiments thereof with different number of ranges, constitute simply particular cases of the present invention.

Finally, the system is completed with a simple disk (modified or flat), which acts as a cap, to optionally separate the system from the fluid from the container during transport or during mixing.

As discussed so far, the present invention refers to a threaded device adaptable to bottles, which could continue to be used (with worse behavior) without the participation thereof. This provides a particular advantage over other systems, and its use is optional, the bottle being functional with or without the provision of the proposed invention. Likewise, a simplified version of the proposed system could be fixed in a fixed way directly to the bottle container, although the fact that the device is independent, presents another series of advantages besides the one mentioned, among which we highlight the following: ) the cleaning of both the device and the container is simplified b) in case of having children of an advanced age or less demanding we can give up the use of the ring at will, c) the situation in the upper part of the bottle allows that in transport the system stays dry

SUBSTITUTE SHEET (RULE 26) d) it is also allowed to incorporate a cap between the fluid of the bottle and the valve or membrane that is the most delicate part of the system, and the only fungible in some embodiments, thus extending the useful life of these elements e) finally, maintaining the uniformity of the internal pressure of the vessel is all the more effective the closer to the outlet orifice the valve is arranged, as discussed in the following paragraph.

In another order of things, the hydrodynamic study of the complete system during breastfeeding shows that, except for some initial sips in which the suction resistance is slightly lower, and the final sips, characterized by "dry" work of the valve porous; in the rest of the suction the relationship between the suction force and the flow rate obtained is strictly constant, and almost completely independent even of the angle at which the baby arranges the bottle. The justification for this statement is simple: i) At the beginning of suction, the pressure in the air of the container is atmospheric, so that when tilting the bottle for breastfeeding, the highest point of the liquid is at that pressure, and thus The pressure at the end of the nipple will depend on the height of the fluid according to the known fundamental equation of hydrostatics. ii) In the strictly constant suction section, the baby makes a very slight vacuum in the air of the bottle that will vary depending on the liquid remaining in the container, thus the reference point (whose pressure will be constant and equal to the Atmospheric minus hydrodynamic load losses in the valve) is located on the wet side of the valve itself. From this point, whose pressure is constant whenever the suction force is, we can calculate the pressure at the end of the nipple that will depend, for a given fluid, only on the height, ii) Once the fluid level remains below the valve, we must consider the density of the air (lower than that of the liquid) to obtain the pressure at the end of the nipple, therefore this pressure will be reduced, although in a practically negligible way and only for a few sips.

With regard to cleaning, it is envisaged in some embodiments that the valves of the wet end of the pneumatic pipe can be replaced, since their useful life and economic cost will be predictably lower than that of the main body. On the other hand, if the cleaning of the entire system is carried out by immersing it in a sterilizing liquid; This would not cause any problems, even if the pneumatic ducts were not completely dry at the time of artificial feeding. Indeed, the

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SUBSTITUTE SHEET (RULE 26) The morphology of the preferred embodiments is such that a slight shaking of the system would suffice, as it is removed from the sterilizing liquid to remain functional, since when the position of the bottle is reversed during breastfeeding, the dry side of the valve is effectively dried by gravitational effect. and therefore would behave correctly. Additionally, the purely pneumatic circuit ducts (with the exception of both initial and final valves) are oversized, so that if their section is reduced by the presence of drops of sterile liquid, the system continues to function normally.

In short, the proposed invention allows, when incorporated into a conventional bottle, to have an improved bottle system that has the following advantages over current systems a) As it is a multi-use bottle, it resolves, compared to bottles with a container disposable, the problems discussed above related to a lower economic and ecological impact b) By untying the valve nipple, it can be used together with any type of nipple without being limited to radially asymmetric or those designed for a single format container. c) The valve and nipple disengagement also allows, in case of wear, that only the damaged part is replaced. This advantage may seem minor, however, in practice, it is common for children to "fondle" certain teats going through a long and annoying period of adaptation each time it is replaced. The proposed system avoids this inconvenience d) With respect to the bottles provided with "complex" systems, the advantages, already mentioned, refer to better hygiene and simple maintenance. Finally, with respect to all the previous bottles, the present invention allows a slight regulation of the suction resistance, by means of the analog seal of the pneumatic duct. This regulation can facilitate, among other things, the process of adapting the child to a new nipple with a different hole size, adapting the suction in case of milk or food with the same nipple (for example on trips), or simply look for the optimal point in each moment for the well-being of the baby.

Until now, in the section we have referred mainly to the device independent of the bottle, although most of the advantages and properties used are equally applicable to the case of the complete bottle. What's more, as per

SUBSTITUTE SHEET (RULE 26) comments in the state of the art, the simple union of the following two concepts: bottle and valve of hydrophobic material, porous, microperforated or spun in the form of tissue, is an original idea of the inventor, introduced in the invention patent with number of application 200702028 of July 17, 2007, to which this document refers. In this way, any bottle making is also claimed in which valves of any type made from ethylene poly tetrafluoride or other hydrophobic polymers of similar physical characteristics are used, and in which the unidirectional selective air flow is due to the character hydrophobic material, attached to a suitable pore size or microconduct. Likewise, any additional device is claimed, whose purpose is to adapt to bottles for their improvement, and in whose elaboration valves are used that contain ePTFE, HALAR, or other hydrophobic polymers of similar physical characteristics that use the same physical principles mentioned in the previous paragraph to allow the entry of air without fluid outlet. On the other hand, since the valve, in many of the envisaged embodiments, may be replaceable, it is possible that the bottle is made without said valve, it being understood that it must be purchased from another manufacturer that provides valves attachable to holes or openings of certain characteristic diameters or geometries. It is considered that the optimal functioning of the bottle will be obtained through the joint use of a bottle and valve, but any bottle provided with one or more holes or openings arranged therein is claimed so that silicone valves, or other hydrophobic materials are fitted therein or elastic that allow the entry of air without fluid outlet. In this way, the bottles provided with holes or openings (and without valves) whose correct operation require the participation of one or more valves inserted in the holes or openings arranged for this purpose by the bottle manufacturers are also claimed.

Bottles containing valves based on rigid mobile parts or complex pipes that, using the mobility of the parts or the effect of the earth's gravitational field on the fluids, achieve the desired effect of air inlet without exit are not claimed as an invention. of fluid In fact, there are numerous patents that already exist based on these principles (ES2166902T3). Nor are claiming, also, porous or microperforated bottles that allow the entry of air, taking advantage of the hydrophobic character of the plastic material that forms the body of the container and whose holes are made in a large area and difficult to access

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SUBSTITUTE SHEET (RULE 26) manual for cleaning; The reason for not claiming it is, again, that there is a prior patent in this regard (ES2050534). In the present invention it is recommended, in a non-exclusive way, that the valve or valves be arranged in the neck of the container (or close to it), so that, during vertical transport, they are kept dry when the bottle is reasonably (more than half of its capacity) full.

Brief statement of the figures

• Figure 1.- Shows three perspective views from different angles of the device object of the invention according to the preferred embodiment.

• Figure 2.- Shows a perspective view of the four types of valves recommended for the device according to the first and second preferred embodiments.

• Figure 3.- Shows a sectional view of the four elements of the invention, excluding the valve, in its preferred embodiment. • Figure 4.- Shows a sectional view of the main body of the device according to the second recommended embodiment.

• Figure 5.- Shows three perspective views sectioned according to different planes of the main body of the device according to the preferred embodiment, and a sectioned perspective view of the device according to the second embodiment.

• Figure 6.- Shows a detailed and sectioned three-dimensional view of the complete bottle object of the invention, according to the preferred embodiment.

• Figure 7.- Shows a three-dimensional sectional view of the complete bottle object of the invention, according to the second proposed embodiment.

• Figure 8.- Shows a three-dimensional sectional view of the threaded device object of the invention, according to a new embodiment not contemplated in the original document.

• Figure 9.- Shows a sectional view of the preferred embodiment of the optional analog flow control valve.

• Figure 10.- Shows a perspective view of the four types of valves recommended for both the device and the complete bottle.

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SUBSTITUTE SHEET (RULE 26) • Figure 11.- Shows a sectional view of the device object of the invention, according to the preferred embodiment described and claimed in the original document.

• Figure 12.- Shows three perspective views from different angles, one of them sectioned, of the device object of the invention according to the preferred embodiment described and claimed in the original document.

• Figure 13.- Shows three general three-dimensional views of the complete bottle object of the invention, according to the preferred embodiment.

• Figure 14.- Shows two general three-dimensional views of the complete bottle object of the invention, according to the second proposed embodiment. • Figure 15.- Shows three three-dimensional views of the complete bottle object of the invention, according to two of the most simplified embodiments thereof.

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SUBSTITUTE SHEET (RULE 26)

Claims

 Claims

L- Device for refinement of bottles (1.53), characterized by being constituted by a main body (2,30,54), made of vitreous, plastic or similar material, which has a mouthpiece (6.55 ) externally provided with a helical projection (7.56) where it would fit a piece for the attachment of a nipple provided internally with a coincident helical projection, having a wide circular opening in the central area (57). Said body of the device, on its lower part, has a mouth (9.58) internally provided with a helical shoulder (10.59) intended to be coupled to the threaded neck of a conventional bottle container. The nominal diameters of the upper (7.56) and lower (10.59) helical projections of the main body of the device (54) are both equal, allowing the device to be incorporated into any bottle whose neck and teat clamp washer present a compatible nominal diameter.

2. Device for bottle refinement according to claim 1, characterized in that both helical projections (7,10,56,59) can be made with as many nominal diameters and thread types as nominal diameters and thread types are used in manufacturing of commercial bottles.

3. Device for perfecting bottles according to the preceding claims, characterized by having either a valve (11-14, 38-41) previously welded or inserted by another means, or a mouth or hole in which to adapt it ( 60), as well as a set of ducts or receptacles (61) that communicate with another outlet opening in the open space (16.62) at ambient pressure.

4. Device for perfecting bottles according to the preceding claims, characterized in that the valve (11, 38-41) can comprise a spun technical fabric or a membrane (63) of an air-permeable, hydrophobic material with sufficient mechanical strength for the performance of its function; for example ethylene poly tetrafluoride (GORE-TEX®) or ethylene chloro-trifluoride ethylene polymers (HALAR®)

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SUBSTITUTE SHEET (RULE 26)

5. Device for bottle refinement according to the preceding claims, characterized in that the valve can be made from latex (12, 13, 14), silicone (12, 13, 14) or other elastomeric material, in which case it is provided in the preferred embodiment is the use of a ring (5) provided internally with a helical projection (17) whose purpose will be the fastening of the valve to the mouth (18) of the pneumatic duct, which will also be provided externally with helical projections (19).

6. Device for perfecting bottles according to the preceding claims, characterized in that the valve (13,14) can be made from latex, silicone or other elastomeric material, in which case it is provided in the second proposed embodiment (30) that said valves have a hole (20) of diameter compatible with the end of the pneumatic duct (21).

7. Device for refinement of bottles according to the preceding claims, characterized in that, in its preferred embodiment, a stopper (4) can be incorporated that is fixed when threading the helical shoulder (10) disposed internally in the body of the device (2) with the helical projection arranged externally on the neck of a bottle container.

8. Device for refinement of bottles according to the preceding claims, characterized in that at the exit of the pneumatic ducts of the main body (16) it can be arranged at will, depending on the chosen embodiment, a pneumatic flow control valve (3 ); and also may at will be provided with stiffening elements (22) of the structure of the main body (2,30).

9. Device for refinement of bottles according to the preceding claims, characterized in that in the preferred embodiment, at the outlet (62) of the air ducts or receptacle (16, 63) of the main body, a regulating ring (3, 42) which can be rotated by the user, modifying with this operation the resistance to air flow. Inside the aforementioned ring (42) or outside the main body of the device (54), the arrangement of a set of grooves (43) is optionally provided whose utility is to create a pneumatic circuit of high and variable flow resistance

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SUBSTITUTE SHEET (RULE 26)

10. Regulating ring according to claim 9, of recommended installation in the preferred embodiments of both the bottles (30a, 31a) and the devices (l, 30a, 53), characterized by presenting one or more outputs (31, 44 ) and burrs (23, 43) which, in conjunction with the main body of the device (2,30,53) or the complete bottle (30a, 31a) allow the creation of a pneumatic circuit (24, 64) whose resistance the flow depends on the rotation of the adjustment ring (42).

11. Regulating ring according to claim 10 which, in its preferred embodiment, has stops (25, 65) defining the point of maximum and minimum resistance to flow when hitting the stops (26, 66) arranged in the main body of the device (2, 30, 53) or the complete bottle (30a, 31a), and with a geometry that allows it to be incorporated into it.

12. Valve according to claim 4 made from a hydrophobic membrane or fabric (27), which is either welded directly to the container or to a transition ring (in case of being thermoplastic), or in its outer part it has an elastomeric ring (28) that allows it to be fixed to the outer edge (29) of the mouth (18) located at the beginning of the pneumatic system, in which case said edge (29) will have a circular projection preferably to the helical.

13.- Improved baby bottle (30a-31a), composed of a series of conventional elements (nipple and threaded ring), as well as a main body or container (32) characterized by having one or more holes (33) or openings ( 34), generally circular, that connect the inside of the container (32) with a small receptacle (35) and / or with a set of conduits (36) that terminate in another or other holes (37) that embed directly outside the body main of the bottle, the purpose of the first mentioned holes being to insert or weld in them a valve (38-41) made with polytetrafluoride of ethylene or other hydrophobic material of similar characteristics (see document memory and note that if you opt for weld the valve at the factory, said hole will be replaced by the valve already installed). On the other hand, the exit orifices (37) can be discovered or form a new adjustable air circuit according to claims 8,9.

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SUBSTITUTE SHEET (RULE 26)

14. A refined bottle according to claim 13 which, at the outlet of the air ducts (37) of the main body, can optionally have a movable ring (42) (according to claims 10-11,22) of flow regulation. In the inner part of this ring (42) or in the outer part of the bottle next to the exit holes, a series of channels (43) will be available whose effect will be to modify the resistance to the air flow depending on the position relative of the exit holes (37) of the main body of the bottle with respect to the holes (44) arranged in the ring.

15.- Improved baby bottle (45), characterized by having in its main container one or more generally circular holes (46) that directly connect the inside of the container (32) with the outside thereof, the purpose of said holes being that of fit or weld in each of them a valve (38) made with ePTFE, or other hydrophobic material of similar characteristics (Note that if the valve is welded at the factory, these holes will be directly valves).

16.- Improved bottle (45) according to claim 15, whose holes (46) arranged for the insertion of valves (or the valves themselves arranged at the factory) are provided to be arranged in the upper part of the container to improve the conditions of transport, cleaning and replacement, as well as the stability of the pressure in the lactation process; but they could be practiced anywhere else in the container. In the event that the holes are arranged in the threaded mouth (47) of the main body of the bottle, it is recommended that the thread (48) be discontinuous to favor air flow

17.- Improved baby bottle (31a, 49), according to claims 13 to 16, wherein the inner holes (33, 46) are replaced by small tubes or openings (50), straight or with some rotation, the purpose of said mouths being that of inserting in each of them an embodiment of the valve (39,40), such as that indicated in claim 18, made of porous or microperforated hydrophobic material that could well be ePTFE

(GORE-TEX®), silicone, or other material with similar characteristics. The combined use of holes (33, 46) and tubes (50) in the same bottle is also claimed.

18. -Valve consisting of a "cap" of latex (39) or microperforated silicone (40) whose main hole (51) has a diameter compatible with the end (34) of the tubes or

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SUBSTITUTE SHEET (RULE 26) mouths (50) mentioned in claim 17. In the case of using latex, the micropore will be replaced by one or several small cuts (52) that take advantage of the flexibility of this material to regulate the entry of air.

19.- Improved baby bottle according to claims 13 to 17 in whose main body (32), instead of having holes (34, 46) or tubes (50) provided for the insertion of valves (38-41), are arranged directly the valve or valves. All bottles whose valve designs explicitly use the filtration principle mentioned in the document's memory are claimed, that is, valves whose filter part is made with hydrophobic and hypoallergenic material, with porous or microperforated structure.

20.- Device for refinement of bottles (53) according to claims 1 to 4, characterized in that, in its preferred embodiment, it allows the incorporation of a cap (67) that is fixed when threading the helical shoulder (59) disposed internally in the body of the device (54) with the helical projection arranged externally on the neck of a bottle container.

21.- Improved baby bottle according to claims 13-14, 17, 19 which, at the outlet of the air ducts (37) of the main body, or directly from the valve or valves in bottles made according to claim 19, has a ring arranged mobile (42) (according to claims 10-11-22) optional flow regulation. Said ring will preferably be located in the neck of the bottle, although the set of air ducts or receptacles (35,36) can be lengthened, so that the ring (42) is located at the base of the container or at any other point thereof that is deemed convenient for aesthetic or ergonomic reasons.

22.- Regulating ring that, instead of establishing an air circuit depending on the length of the section of gutters between the exit holes (37) of the main body of the bottle (or device) and the holes of the ring (44 ), it is established based on the number of small holes made in the ring that is accessible from the exit hole (37) of the main body of the bottle (or device). To do this, instead of grooves, protrusions will be made in the main body (of the bottle and device) and a good number of small holes will be distributed along the ring.

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