阅读说明：本技术 用于与用于容纳流体的容器一起使用的奶嘴 (Nipple for use with a container for containing a fluid ) 是由 J·T·范德库伊 J·C·P·登达尔克 N·沙斯特里 C·詹森 于 2018-11-30 设计创作，主要内容包括：奶嘴(1),用于与用于容纳流体的容器一起使用,包括用于婴幼儿在上面吸吮的可变形吸嘴(13),以及设置在吸嘴(13)内的内核(20)。吸嘴(13)在其中具有至少一个孔(12),用于允许流体流出奶嘴(1)。在吸嘴(13)和内核(20)之间的流体管道(30)被限定在内核(20)的流体袋引导面(23)的位置处,从而允许婴幼儿执行蠕动流体摄取动作。至少一个孔(12)布置在吸嘴(13)的前部中心区域(15)中,而吸嘴(13)和内核(20)被设计为在吸嘴(13)和内核(20)之间留出空间,用于从流体袋引导面(23)到至少一个孔(12)的流体流动路径。(A teat (1) for use with a container for containing a fluid, comprising a deformable mouthpiece (13) for an infant to suck on, and a core (20) disposed within the mouthpiece (13). The mouthpiece (13) has at least one aperture (12) therein for allowing fluid to flow out of the teat (1). A fluid conduit (30) between the mouthpiece (13) and the core (20) is defined at the location of the fluid bag guide surface (23) of the core (20) allowing the infant to perform a peristaltic fluid intake action. The at least one hole (12) is arranged in a front central area (15) of the suction nozzle (13), while the suction nozzle (13) and the core (20) are designed to leave a space between the suction nozzle (13) and the core (20) for a fluid flow path from the fluid bag guide surface (23) to the at least one hole (12).)

1. A teat (1, 2) for use with a container for containing a fluid, comprising:

-a deformable mouthpiece (13) for an infant to suck on upon a fluid intake action, the mouthpiece (13) having at least one aperture (12) in the mouthpiece for allowing fluid to flow out of the teat (1, 2); and

-a core (20) provided within the mouthpiece (13), wherein an outer surface (22) of the core (20) is spaced apart from an inner surface (16) of the mouthpiece (13) at a position of a fluid bag guide surface (23) of the outer surface (22) of the core (20) extending along a length of the core (20), thereby defining a fluid conduit (30) between the mouthpiece (13) and the core (20), the fluid conduit (30) allowing the infant to perform a peristaltic fluid intake action during which the mouthpiece (13) is deformed and fluid is forced to move along the fluid conduit (30) in a direction towards the at least one aperture (12) of the mouthpiece (13), wherein the at least one aperture (12) is arranged in a front central area (15) of the mouthpiece (13), and wherein the mouthpiece (13) and the core (20) are designed to leave a space between the mouthpiece (13) and the core (20) for a fluid flow path from the fluid bag guide surface (23) to the at least one orifice (12);

characterized in that the inner surface (16) of the spout (13) and an intermediate region (24) of the fluid bag guide surface (23) which is central as seen in the peripheral direction of the teat (1, 2), a front portion (25) along the fluid bag guide surface (23) is further offset from each other with respect to an adjacent portion (26) towards the further back of the fluid bag guide surface (23).

2. The teat (1, 2) according to claim 1, wherein an offset distance between the inner surface (16) of the spout (13) and the middle area (24) of the fluid bag guide surface (23) has a predetermined value along a length of the fluid bag guide surface (23) other than a front portion (25) of the fluid bag guide surface (23), the value of the offset distance being larger at the front portion (25) of the fluid bag guide surface (23).

3. The teat (1, 2) according to any of the preceding claims, wherein a front portion (25) of the fluid bag guide surface (23) is deflected upwards with respect to the inclination of a more rearward connection area (26) of the fluid bag guide surface (23) when viewed in a longitudinal direction towards the at least one hole (12).

4. The teat (1, 2) according to any of the preceding claims, wherein at least the front portion (25) of the fluid bag guide surface (23) comprises two surfaces defining a groove-like recess having a V-shaped cross-sectional appearance.

5. The teat (1, 2) according to any of the preceding claims, wherein a front portion (25) of the fluid bag guide surface (23) is provided with an elongated central recess (29) extending longitudinally in the direction of the at least one hole (12).

6. The teat (1, 2) according to claim 1, wherein a front portion of the inner core (20) is provided with a channel extending through the inner core (20) between a location on the fluid bag guide surface (23) and a front central region of the inner core (20).

7. The teat (1, 2) according to any of the preceding claims, wherein the mouthpiece (13) has only a single aperture (12) in the mouthpiece.

8. The teat (1, 2) according to any of the preceding claims, wherein the fluid bag guide surface (23) is at least one of an arcuate surface and a concave surface of the outer surface (22) of the inner core (20).

9. The teat (1, 2) according to any of the preceding claims, wherein the inner core (20) comprises at least one protrusion (27, 28), the at least one protrusion (27, 28) extending at an edge position of the fluid bag guiding surface (23) for delimiting the fluid bag guiding surface (23).

10. The teat (1, 2) according to any of the preceding claims, wherein the inner core (20) is removable from the mouthpiece (13).

11. The teat (1, 2) according to any of the preceding claims, comprising a support frame (21), the support frame (21) being constructed and arranged to support the core (20) in the teat (1, 2).

12. An assembly comprising a teat (1, 2) according to any one of the preceding claims, and a container for containing a fluid.

Technical Field

The present invention relates to a teat for use with a container for containing a fluid, comprising: a deformable spout for an infant to suck on during a fluid intake action, the spout having at least one aperture therein for allowing fluid to flow out of the nipple; and an inner core disposed within the nozzle; wherein the outer surface of the inner core is spaced from the inner surface of the mouthpiece at a location along the fluid bag guide surface of the outer surface of the inner core extending along the length of the inner core such that a fluid conduit is defined between the mouthpiece and the inner core, the fluid conduit allowing the infant to perform a peristaltic fluid intake action during which the mouthpiece deforms and fluid is forced to move along the fluid conduit in a direction towards the at least one aperture of the mouthpiece.

The invention also relates to an assembly comprising a teat as described above and a container for containing a fluid. For example, such an assembly may be a feeding bottle assembly comprising a feeding bottle for containing a feeding fluid such as milk.

Background

A teat as described above is known from WO2010/004487a 1. The design of the teat is intended to reward the infant with natural peristaltic tongue movements, which are usually only relevant to breast feeding. Generally, the nipple is configured to allow an infant to effect a flow of fluid from the nipple under the influence of natural peristaltic tongue movement as described above. As an advantageous result, the infant does not need to foster another fluid intake action than the natural breastfeeding action, thereby preventing problems that might otherwise occur when switching between bottle feeding and breastfeeding.

The teat known from WO2010/004487a1 has a mouthpiece which the infant sucks on during a fluid intake action, in particular a feeding action. A spout extends from the body and has one or more apertures therein for the flow of fluid out of the nipple. A well-known example of a fluid for feeding purposes is milk. In addition, the nipple has an inner core disposed within the spout in such a manner as to define a fluid conduit between the inner core and the spout. During fluid ingestion, at least one of the inner core and the mouthpiece deforms to allow a peristaltic action that causes fluid to flow along the fluid conduit and ultimately out of the nipple through the at least one aperture of the mouthpiece. The nipple is configured such that peristaltic movement provides the greatest amount of fluid as the infant, as compared to if the infant is to use a sucking or chewing action. In this way, the infant is rewarded with the same fluid intake action as natural breast feeding.

Various embodiments of known nipples are disclosed in WO2010/004487a 1. In many of these embodiments, the outer surface is provided with an arcuate surface or recess extending along the length of the core so that there is a space between the core and the mouthpiece at the location of the arcuate surface or recess of the outer surface of the core. In such a configuration, a fluid conduit is defined between the nozzle and the inner core at the location of the arcuate face or recess of the outer surface of the inner core.

EP2296604 also discloses a peristaltic teat. The peristaltic nipple is a washable nipple that rewards the baby to make the same natural peristaltic tongue movement it makes on the mother's breast. The reward is that the baby gets (more) milk when making the correct movement. The result is that the infant will use the same milk drinking mechanism as at the breast. Thus, bottle feeding will become closer to breast feeding, which makes it easier to combine bottle feeding with breast feeding.

Disclosure of Invention

Although the known nipple functions well and achieves the benefits described above, there is still room for improvement in the design of the nipple. It is an object of the present invention to provide a teat of the type known from WO2010/004487a1 and which is designed to prevent blockage of at least one orifice of the mouthpiece by the tongue or palate of an infant or by the inner core during a fluid intake action. In view of this, the invention provides a teat as defined in the opening paragraph, wherein the at least one aperture of the spout is arranged in a front central region of the spout, and wherein the spout and the inner core are designed to leave a space between the spout and the inner core for a fluid flow path from the fluid bag guide surface to the at least one aperture.

It is noted that in this specification terms such as front, rear, forward and rearward are to be understood as relating to the normal flow of milk through the teat when intended to be supplied to an infant. Thus, the front area of the mouthpiece is the area intended to extend during the fluid intake action up to the infant's mouth. Furthermore, the terms implying upper and lower levels on the teat should be understood in relation to the normal operating direction of the teat, which is the direction of the fluid bag guide surface at a downward facing position, i.e. at a position facing the tongue of the infant.

Providing the nipple with an inner core has a limiting effect on the possibility of positioning the at least one aperture in the mouthpiece. In this respect, reference is again made to WO2010/004487a1, since this document shows an embodiment of a teat in which the mouthpiece has a single aperture, and in which the aperture is arranged in a position in the mouthpiece which is not in front of and also not centrally in the mouthpiece. The design of such an embodiment is intended to have, on the one hand, an inner core and a fluid bag guiding surface defined thereon such that a desired peristaltic action may be achieved during use of the teat, and also to have the at least one aperture in a position for receiving and releasing an amount of fluid as it advances along the fluid bag guiding surface during use.

One of the insights underlying the present invention is that, in general, it is most practical to locate at least one hole in the front central region of the mouthpiece when the option of having an inner core is not considered. It appears that when the at least one aperture is positioned in another area of the mouthpiece, there is a risk that the at least one aperture is blocked by the tongue or the palate of the infant during the fluid intake action. In particular in this case, the relatively flexible tongue seems to be able to cover the at least one aperture, in which case the tongue acts as a barrier between the interior of the teat and the exterior of the teat, and therefore the flow of fluid from the teat is also impeded if the flow of fluid from the teat is not completely stopped.

The present invention provides a way to combine the optimal positioning of at least one aperture with the optimal functioning of the teat when a peristaltic fluid intake action is made possible. In particular, according to the invention, the at least one hole of the mouthpiece is arranged in a front central area of the mouthpiece, and the mouthpiece and the inner core are designed to leave a space between the mouthpiece and the inner core for a fluid flow path from the fluid bag guide surface to the at least one hole. The invention relies on the principle of not selecting the positioning of the at least one aperture so as to be outside the front central region of the mouthpiece in case the inside of the front central region is covered by the inner core; and provides an adaptive design of the mouthpiece and/or the inner core to have the best possible fluid supply function of the teat and the best reliability of the teat. It is noted that the design of one or both of the nozzle and the core may be adapted. It may be possible that the mouthpiece is still of conventional design and that only the inner core is adapted, but this does not alter the fact that the invention also covers other options.

The inner surface of the spout and an intermediate area of the fluid bag guide surface that is centered as viewed in the peripheral direction of the nipple are further offset from each other along a front portion of the fluid bag guide surface than towards a more rearward adjacent portion of the fluid bag guide surface. For example, it may be that the offset distance between the interior surface of the suction nozzle and the middle area of the fluid bag guide surface has a predetermined value along the length of the fluid bag guide surface excluding the front portion of the fluid bag guide surface, the offset distance having a greater value at the front portion of the fluid bag guide surface. In any case, according to this option, by having a relatively large offset distance between the inner surface of the suction nozzle at the location of the front portion of the fluid bag guide surface and an intermediate region of the fluid bag guide surface, a continuous and unobstructed fluid flow path along the fluid bag guide surface towards the at least one orifice arranged in the front central region of the suction nozzle is achieved. For example, the inner core may be designed such that the portion of the fluid bag leading face that actually leads to the at least one aperture is set back in position to leave room for the fluid to eventually reach the at least one aperture. For the sake of clarity, the at least one aperture arranged in the front central area of the nozzle will be referred to hereinafter as the at least one centrally arranged aperture.

As can be seen from the above, this may be: the inclination of the inner core is greater at a position of the fluid bag guide surface near the front side of the fluid bag guide surface than at a position closer to the rear of the fluid bag guide surface. In other words, the invention comprises embodiments of a teat in which the inclination of the front part of the fluid bag guide surface relative to the connection area of the fluid bag guide surface closer to the rear is deflected upwards, seen in the longitudinal direction towards the at least one hole. As a result, the design of the inner core is adapted to allow free fluid communication between the centrally arranged orifice and the fluid conduit between the mouthpiece and the inner core.

Typically, the front portion of the leading face of the fluid bag may be designed to have a suitably concave appearance so as not to obstruct the fluid flow path towards the at least one centrally arranged aperture. According to one exemplary option, at least the front part of the fluid bag guiding surface comprises two surfaces defining a groove-like recess having a V-shaped cross-sectional appearance, in which case the fluid may reach the hole along a middle line of the recess. According to another exemplary option, the front portion of the fluid bag guide surface is provided with an elongated central recess extending longitudinally in the direction of the at least one hole. An option similar to the first option is most preferred, since during use the fluid present in the recess may be directly pressurized under the influence of the tongue action of the infant. The invention also covers an additional or alternative option according to which the inner surface of the mouthpiece comprises two surfaces defining a channel-like recess having the appearance of a V-shaped cross-section; and an additional or alternative option according to which the inner surface of the mouthpiece is provided with an elongated recess extending longitudinally in the direction of the at least one aperture.

In another embodiment, the anterior portion of the inner core may be provided with a channel extending through the inner core between a location on the fluid bag guide surface and the anterior central region of the inner core. On the premise that the channel has only a limited length, the fluid moving along the fluid bag guide surface also flows through the channel and leaves the inner core at a position for immediately reaching the centrally arranged hole of the mouthpiece, i.e. at a position on the inner core corresponding to the position of the centrally arranged hole.

In yet another embodiment, the core may appear to be trimmed relative to conventional designs to leave space for the fluid that would otherwise be occupied by the front portion of the core. In such an embodiment, it may be possible that the front face (front plateau) of the inner core is defined along at least its top edge by a protrusion for sealing the inner core against the mouthpiece, since in this way a backflow of fluid may be prevented.

In a practical embodiment of the teat the mouthpiece has only a single aperture therein. In this case, it is possible to arrange the aperture substantially in the middle of the front central area of the suction nozzle. Alternatively, the aperture may be arranged at a limited distance from the middle of the front central region of the mouthpiece, preferably at a position above the middle, so as to be closer to the palate side of the teat than the tongue side of the teat, since the risk of the aperture being blocked is generally highest on the tongue side of the teat.

For the sake of completeness, it is noted that it is feasible that the fluid bag guiding surface is at least one of an arc-shaped surface and a recessed surface of the outer surface of the inner core. With regard to the possibility of the fluid bag guide surface having an arcuate shape, it is noted that in this case the fluid bag guide surface may have a substantially concave shape. With regard to the additional or alternative possibility that the fluid bag guiding surface is provided in the form of a recessed surface of the outer surface of the inner core, it is noted that in this case the fluid bag guiding surface may be recessed with respect to the original contour of the outer surface to more or less closely follow the peripheral shape of the mouthpiece.

It may be advantageous that the inner core comprises at least one protrusion extending at the location of the edge of the fluid bag guiding surface to delimit the fluid bag guiding surface, as this may be an important factor preventing or at least largely hindering fluid from leaking between the mouthpiece and the inner core at the location of the side of the fluid bag guiding surface, so that the extent to which backflow of fluid due to such leakage occurs may be minimized.

In line with what is known from WO2010/004487a1, it is noted that the kernel is detachable from the mouthpiece. This may be beneficial in view of the cleanability of the teat, which does not alter the fact that the invention also covers a teat in which the inner core is formed integrally with the mouthpiece. When good cleanability of the teat is to be achieved, it may be that any body from which the mouthpiece and mouthpiece can extend is reversible, i.e. can be turned inside out. Furthermore, it is possible that the teat includes a support frame configured and arranged to support the inner core in the teat. The core may be implemented in any suitable manner and may comprise any suitable material or combination of materials.

The invention also relates to an assembly comprising a teat as described before, i.e. a teat provided with an inner core and a spout surrounding the inner core, at least one aperture of the spout being arranged in a front central region of the spout, and the spout and the inner core being designed to leave a space between the spout and the inner core for a fluid flow path from the fluid bag guide surface to the at least one aperture, and the assembly further comprising a container for containing a fluid.

The above and other aspects of the invention will be apparent from and elucidated with reference to the following detailed description of two embodiments of a teat. The nipple includes a core and a spout surrounding the core, the nipple being designed to prevent clogging of an aperture in the spout for draining fluid from the nipple.

Drawings

The present invention will now be explained in more detail with reference to the drawings, in which the same or similar parts are denoted by the same reference numerals, and in which:

FIG. 1 schematically illustrates a perspective view of an outer membrane of a nipple, particularly designed to stimulate an infant to draw fluid from the nipple using a natural peristaltic fluid intake action, in accordance with a first embodiment of the present invention;

FIG. 2 schematically illustrates a front view of the outer membrane;

FIG. 3 schematically illustrates a perspective view of the combination of the inner core and the support frame of the inner core, which is part of a nipple other than the outer membrane;

FIG. 4 schematically illustrates a side view in longitudinal cross-section of a nipple;

figures 5 and 6 show how the fluid bag is formed when the teat is in use;

figures 7 and 8 show how the design of the inner core can be adjusted to enable fluid to flow unimpeded through the teat and towards the aperture for the fluid to exit the teat;

figures 9 and 10 schematically illustrate front views in transverse cross-section of the teat taken from different longitudinal positions of the teat;

FIG. 11 shows a bottom perspective view of a front portion of the inner core of a nipple according to a second embodiment of the present invention; and

figures 12 and 13 show how the design of the inner core can be adjusted to enable fluid to flow unobstructed through the teat and towards the aperture for the exit of fluid from the teat.

Detailed Description

Fig. 1-4 show a teat 1 according to a first embodiment of the invention, wherein fig. 1 and 2 schematically show different views of the outer membrane 10 of the teat 1, wherein fig. 3 schematically shows a perspective view of a combination of an inner core 20 and a support frame 21 of the inner core 20, which combination is also part of the teat 1, and wherein fig. 4 schematically shows a cross-sectional view of the teat 1 in an assembled state.

The teat 1 is designed to stimulate an infant to use the natural peristaltic fluid intake action to draw fluid from the teat 1. In this regard, the teat 1 will be referred to as a peristaltic teat. Further, at various locations in the following description, the fluid is referred to as being milk, which should not be understood to mean that the use of the peristaltic teat 1 is limited to this particular type of fluid only. In this regard, it is noted that other examples of fluids that may be supplied to an infant by means of a peristaltic teat are water, a porridge-like fluid and a medicinal fluid.

The peristaltic teat 1 is intended to be connected, like any conventional teat, to a container (not shown) suitable for containing a quantity of fluid to be supplied to an infant and which may be of any design and type. For example, the peristaltic teat 1 may be used in combination with a feeding bottle provided with an external thread at its open side and a connecting ring provided with an internal thread, in which case the flange-like portion 11 of the teat 1 may be held between the connecting ring and the bottle in a state of interconnection of the connecting ring and the bottle, which is achieved by engagement of the respective threads. The peristaltic teat 1 has at least one aperture 12 for the discharge of milk from the teat 1. In the example shown, the peristaltic teat 1 has only one hole 12. As mentioned before, terms such as front, rear, forward and rearward should be understood in relation to the normal flow of milk through the peristaltic teat 1 when intended to be supplied to an infant, i.e. the flow of milk in the direction from the flange-like portion 11 to the aperture 12.

The outer membrane 10 of the peristaltic teat 1 is hollow and flexible and basically has two parts, a mouthpiece 13 and a main body 14. A suction nozzle 13 extends from the main body 14, wherein the suction nozzle 13 comprises an aperture 12 as described above at its front side. And wherein the body 14 comprises on its rear side a flange-like portion 11 as described above. In the example shown, the inner core 20 is shaped like a kind of plug which is arranged inside the mouthpiece 13 in the assembled state of the peristaltic teat 1. In this configuration, a fluid conduit 30 is defined between the mouthpiece 13 and the inner core 20 for receiving a flow of milk directed towards the aperture 12 for the purpose of supplying milk to an infant during use of the peristaltic teat 1. A portion of the inner core 20 may extend in a rearward direction from the mouthpiece 13, extending into the main body 14.

With reference to fig. 5 and 6, the operation of the peristaltic teat 1 according to the invention will now be described. As previously mentioned, in use, the peristaltic teat 1 is attached to a feeding bottle or the like. The infant sucks on the mouthpiece 13, which mouthpiece 13 is sufficient to achieve an initial small flow of milk from the feeding bottle to the fluid conduit 30. However, in order to get a complete flow of milk from the feeding bottle out of the peristaltic teat 1, the infant has to perform a peristaltic fluid intake action by which a compression wave is exerted by the infant's tongue 5 on the mouthpiece 13 in a direction towards the front side of the mouthpiece 13. During this process, the mouthpiece 13 is deformed and the fluid conduit 30 is locally compressed by the infant's tongue 5 in the aforementioned direction at successive levels of the fluid conduit 30, so that the milk-filled bag is pushed forward through the fluid conduit 30. When the milk-filled bag is located on the front side of the mouthpiece 13, milk is expelled from the aperture 12 into the baby's mouth. The infant then repeats the peristaltic fluid intake action starting from the rear side, i.e., the main body side of the mouthpiece 13. By repeating the peristaltic fluid intake action over and over again, continuous fluid intake is achieved.

According to the invention, as previously mentioned, the peristaltic teat 1 is configured such that the peristaltic fluid intake action provides the greatest amount of milk as the infant compared to the infant using a sucking or chewing action. Accordingly, the infant is rewarded for using the same fluid intake action as natural breast feeding, and thus the problem of nipple confusion when switching between bottle feeding and breast feeding is avoided, as the infant learns to use the same fluid intake action in both fluid intake methods.

To simplify cleaning of the peristaltic teat 1, the inner core 20 may be detached from the membrane 10. This can be achieved in particular by turning the inside of the membrane 10 over and cleaning the membrane 10 separately from the inner core 20.

In a general sense, it will be appreciated that the peristaltic fluid intake action essentially comprises partially closing a tube in which fluid is contained, thereby forming a fluid-filled bag, and moving the fluid-filled bag in the direction of the aperture 12 to expel fluid from the peristaltic teat 1 by moving the partially closed position. The outer surface 22 of the inner core 20 is provided with an arcuate surface extending along the length of the inner core 20 and referred to as a fluid bag guiding surface 23 in view of the fact that the arcuate surface serves to delimit the fluid conduit 30 at one side of the inner core 20 and thereby serves to guide a fluid bag over the outer surface 22 of the inner core 20 during a fluid intake action. When the teat 1 is used in a fluid intake action, the fluid bag guide surface 23 is intended to be located at the bottom side of the peristaltic teat 1, so that an infant can perform a peristaltic tongue movement on the mouthpiece 13, locally pressing the mouthpiece 13 in the direction of the fluid bag guide surface 23 at a continuous level of the inner core 20. As is the case in the shown example, the fluid bag guide surface 23 preferably has a substantially concave shape and is concave with respect to the original contour of the outer surface 22 to more or less follow the circular or elliptical peripheral shape of the suction nozzle 13.

In fig. 1 and 2, it can be seen that the aperture 12 is located in a front central region 15 of the suction nozzle 13. Fig. 7 and 8 and 9 and 10 also show how the design of the inner core 20 can be adjusted in a first embodiment of the peristaltic teat 1 to enable unobstructed fluid flow through the teat and to the aperture 12. As will now be explained.

Fig. 8 schematically shows a side view of a longitudinal section of the peristaltic teat 1 such that the contour of the middle area 24 can be seen relative to the contour of the inner surface 16 of the mouthpiece 13, i.e. the area 24 of the fluid bag guide surface 23 extending in the longitudinal direction while having a central position on the fluid bag guide surface 23, the middle contour 24 being seen. Fig. 8 provides an illustration of the fact that: the offset distance d between the inner surface 16 of the mouthpiece 13 and the middle area 24 of the fluid bag guiding surface 23₀Substantially the same at each level, i.e. substantially constant along the length of the fluid bag leading surface 23. An exception to this general configuration is found at the front portion 25 of the fluid bag guide surface 23, where at the front portion 25, the offset distance d as described above is found₀And is larger. Fig. 7 provides an illustration of a situation in which the offset distance d is along the entire length of the fluid bag guide surface 23₀Are substantially identical. As follows from a comparison between fig. 7 and 8, in the peristaltic teat 1 according to the invention, the front portion 25 of the fluid bag guide surface 23 is deflected upwards to a greater extent than the contour of the more rearward connection region 26 of the fluid bag guide surface 23, when viewed in the longitudinal direction towards the aperture 12. In this regard, it is noted that, as previously mentioned, the upward direction is generally to the right in fig. 7 and 8, assuming for completeness that the fluid bag guide surface 23 is in a bottom position in the direction of operation of the peristaltic teat 1.

If the front portion 25 of the fluid bag guide surface 23 does not have a means for achieving a greater offset distance d₀Off design, the core 20 willIn a position to prevent fluid flow to the bore 12 as can be seen in fig. 7. By having an adapted profile of the fluid bag guide surface 23 at the location of its front portion 25, a configuration may be achieved in which space is left for a fluid flow path towards the aperture 12. In this way, the aperture 12 may be arranged in the front central region 15 of the mouthpiece 13 while still avoiding a situation in which the fluid flow path towards the aperture 12 is blocked when the peristaltic teat 1 is in use. The invention also covers the additional or alternative option of a suction nozzle 13 with an adapted design, wherein in particular the contour of the inner surface 16 of the suction nozzle 13 is selected in order to obtain an unobstructed fluid flow effect.

Non-limiting practical examples of dimensions are as follows. The length of the fluid bag guide surface 23 may be in the range of about 20mm to 25mm and the diameter of the suction nozzle 30 may be in the range of about 12mm to 15 mm. In this context, a relatively large offset distance d in front₀May be in the range of about 5mm to 7mm with a smaller offset distance d further back₀May be in the range of about 3mm to 4mm, provided that the average tongue displacement is in the same range, i.e. in the range of about 3mm to 4 mm. E.g. a relatively large offset distance d₀May be present along a length of 5 mm.

The above aspects of the design of core 20 may be further understood when comparing fig. 9 and 10. Fig. 9 and 10 schematically show front views in transverse section of the peristaltic teat 1 taken from different longitudinal positions of the teat 1, wherein fig. 9 schematically shows a front view in transverse section taken at a more posterior level, and wherein fig. 10 schematically shows a front view in transverse section taken at a more anterior level. As can be seen by comparison between the figures, at more anterior levels, the clear space left by the inner core 20 is greater than at more posterior levels, and the inner core 20 does not block the central region. Fig. 9 and 10 provide insight into the fact that: in the example shown, the inner core 20 comprises a channel-like recess having a substantially curved cross-sectional appearance at the location of the fluid bag guide surface 23. Alternative shapes for the fluid bag guiding surface 23 are very well possible within the framework of the invention, such as shapes comprising a V-shaped cross-sectional appearance instead of a curved cross-sectional appearance. Also, the mouthpiece 13, instead of the core 20, or both the mouthpiece 13 and the core 20, may be provided with a groove-like recess, in which case the design of the mouthpiece 13 and the core 20 may be such that the recess of the mouthpiece 13 and the recess of the core 20 are positioned in alignment with each other.

Fig. 9 and 10 further show the option of providing the inner core 20 with protrusions 27, 28 extending at the location of the edges of the fluid bag guiding surface 23, which protrusions 27, 28 are intended to delimit the fluid bag guiding surface 23. In particular, the protrusions 27, 28 extend at the side of the fluid bag guide surface 23 for contacting the inner surface 16 of the suction nozzle 13 and thereby closing the fluid conduit 30 at the side of the fluid conduit. During the fluid intake action, based on the presence of the protrusions 27, 28 at appropriate positions alongside the fluid bag guide surface 23, the fluid-filled bag is sealed to its side at the position of the longitudinal edge of the fluid bag guide surface 23 as it advances through the fluid conduit 30, which implies a sealing of the fluid-filled bag in the peripheral direction of the peristaltic teat 1, i.e. in a direction around the longitudinal axis of the teat 1 along the outer surface 22 of the inner core 20. In this way, leakage of fluid from the fluid conduit 30 in a lateral direction is prevented, thereby preventing backflow of fluid.

Fig. 11 to 13 relate to a peristaltic teat 2 according to the invention, in particular to the option of having an elongate central recess 29 in the front portion 25 of the fluid bag guide surface 23. Fig. 13 schematically shows a side view of a longitudinal section of the peristaltic teat 2 so that the contour of the intermediate region 24 of the fluid bag guide surface 23 relative to the contour of the interior surface 16 of the mouthpiece 13 can be seen. Fig. 13 shows an illustration of the fact that: at the location of the elongated central recess 29 the fluid flow path towards the aperture 12 remains open, if the elongated central recess 29 is omitted the fluid flow path does not remain open, in which case the situation shown in fig. 12 will be obtained in case the elongated central recess 29 is omitted. Indeed, in the second embodiment of the peristaltic teat 2, the design of the inner core 20 is only minimally adapted to achieve a further concave appearance relative to the fluid bag guide surface 23 at the location where the fluid flow path meets the aperture 12. In any case, in the second embodiment of the peristaltic teat 2, it is possible to combine the measures for enabling peristaltic fluid intake with a centrally arranged hole 12, as in the first embodiment of the peristaltic teat 1. For this reason, the suction nozzle 13 may also be provided with an elongated recess.

It should also be noted that if more than one aperture 12 is provided, it is possible to arrange all these apertures 12 in the front central region 15 of the spout 13 and still avoid interrupting one or more of these apertures 12 leading to the fluid bag advancing along the fluid bag guide surface 23 during use of the teat 1, 2, i.e. by adopting an appropriate design of the inner core 20 rather than a default design that follows the contour of the inner surface 16 of the spout 13 in some way. Further, with regard to the front central area 15 of the suction nozzle 13 for the sake of clarity, it is noted that the front central area 15 is a front area of the suction nozzle 13 having a central position on the suction nozzle 13, i.e. a front area of the suction nozzle 13 intersecting the central longitudinal axis of the suction nozzle 13. The front central area 15 of the suction nozzle 13 has limited dimensions so that the person skilled in the art will indicate the area 15 as a central area. This means that the invention covers a teat comprising only one aperture 12, in which case the aperture 12 may be arranged to intersect with or be close to the central longitudinal axis of the mouthpiece 13, within a practical range of 1mm, at most 2mm, from the central longitudinal axis of the mouthpiece 13. This also means that the invention covers a teat comprising two or more holes 12, in which case one of these holes 12 may be arranged to intersect the central longitudinal axis of the mouthpiece 13, wherein the other holes 12 or all holes 12 may be arranged close to the central longitudinal axis of the mouthpiece 13 within a practical range of 1mm, at most 2mm, from the central longitudinal axis of the mouthpiece 13.

It will be clear to a person skilled in the art that the scope of the present invention is not limited to the examples discussed in the foregoing, but that several amendments and modifications thereof are possible without deviating from the scope of the present invention as defined in the attached claims. It is intended that the invention be construed as including all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof. While the invention has been illustrated and described in detail in the drawings and the description, such illustration and description are to be considered illustrative or exemplary only, and not restrictive. The invention is not limited to the disclosed embodiments. The figures are schematic, wherein details that are not necessary for understanding the invention may have been omitted, and are not necessarily drawn to scale.

Variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed invention, from a study of the drawings, the disclosure, and the appended claims. In the claims, the word "comprising" does not exclude other steps or elements, and the indefinite article "a" or "an" does not exclude a plurality. Any reference signs in the claims shall not be construed as limiting the scope of the invention.

Elements and aspects discussed with respect to or relating to a particular embodiment may be combined with elements and aspects of other embodiments as appropriate, unless explicitly stated otherwise. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

The term "comprising" as used herein will be understood by those skilled in the art to encompass the term "consisting of. Thus, for one embodiment, the term "comprising" may mean "consisting of", but in another embodiment may mean "including/including at least the defined species and optionally one or more other species".

In the case of a teat 1, 2 according to the invention of the removable type, for example when the inner core 20 can be removed from the mouthpiece 13, it is within the scope of the invention for the teat 1, 2 to be in any of its possible states, in particular in the assembled state or in the disassembled state.

The invention can be summarized as follows. A teat 1, 2 for use with a container for containing a fluid comprises a deformable mouthpiece 13 for an infant to suck on during a fluid intake action, and an inner core 20 disposed within the mouthpiece 13. The mouthpiece 13 has at least one aperture 12 therein for allowing fluid to flow out of the teat 1, 2. A fluid conduit 30 between the mouthpiece 13 and the inner core 20 is defined at the location of the fluid bag guide surface 23 of the inner core 20, allowing the infant to perform a peristaltic fluid intake action. The at least one orifice 12 is arranged in a front central area 15 of the mouthpiece 13, while the mouthpiece 13 and the inner core 20 are designed to leave a space between the mouthpiece 13 and the inner core 20 for a fluid flow path from the fluid bag guide surface 23 to the at least one orifice 12.