teats

专利摘要:
Bottle nipple (1) having a base portion (2) having a connecting flange (3) in which the teat (1) is substantially circular in cross-section perpendicular to a longitudinal axis (9), a lip abutment portion (5) and a nipple tip (7) opening nipple portion (6), wherein the bottle sucker (1) in Lipanlageabschnitt (4) perpendicular to its longitudinal axis (9) deviating from a circular cross-section with a longitudinal axis (10) and compared to the longitudinal axis (10) shorter transverse axis (11), characterized in that between the base portion (2) and the lip abutment portion (5) is provided with respect to the base and the lip abutment portion (2, 5) increased flexibility bending portion (4), wherein the bending portion (4) a peripheral over the circumference of the recess (15) in the form of a recess (19) and / or a smaller wall thickness than in the adjacent to the recess (15) Sides has sections, so that the bottle sucker (1) around a substantially in the direction of the transverse axis (11) extending axis with respect to a same design bottle nipple without recess increased flexibility for pivoting the Lippenanlage- and nipple sections (5, 6).
公开号:AT520348A1
申请号:T50702/2017
申请日:2017-08-23
公开日:2019-03-15
发明作者:
申请人:Mam Babyartikel；
IPC主号:

专利说明:

(57) Bottle suction device (1) with a base section (2) having a connecting flange (3), in which the bottle suction device (1) is essentially circular in a cross section perpendicular to a longitudinal axis (9), a lip contact section (5) and one nipple section (6) opening into a suction tip (7), the bottle teat (1) in the lip contact section (4) perpendicular to its longitudinal axis (9) having a cross-section deviating from a circular shape with a longitudinal axis (10) and one in comparison to the longitudinal axis (10 ) has a shorter transverse axis (11), characterized in that between the base section (2) and the lip contact section (5) there is a bending section (4) which is more flexible than the base and lip contact section (2, 5), the bending section (4 ) a circumferential recess (15) in the form of an indentation (19) and / or a smaller wall thickness than in the approach to the recess (15) Has nzenden sections, so that the bottle teat (1) about an axis substantially in the direction of the transverse axis (11) has an increased flexibility compared to a bottle teat of the same design without a recess for pivoting the lip contact and nipple sections (5, 6).
Summary:
Bottle suction device (1) with a base section (2) having a connecting flange (3), in which the bottle suction device (1) is essentially circular in a cross section perpendicular to a longitudinal axis (9), a lip contact section (5) and one in a suction tip (7) opening nipple section (6), the bottle teat (1) in the lip contact section (4) perpendicular to its longitudinal axis (9) has a cross-section deviating from a circular shape with a longitudinal axis (10) and a transverse axis which is shorter in comparison to the longitudinal axis (10) (11), characterized in that between the base section (2) and the lip contact section (5) there is a bending section (4) which is more flexible than the base and lip contact section (2, 5), the bending section (4) a circumferential depression (15) in the form of an indentation (19) and / or a smaller wall thickness than that adjacent to the depression (15) has sections so that the bottle teat (1) has an increased flexibility for pivoting the lip contact and nipple sections (5, 6) around an axis running essentially in the direction of the transverse axis (11) compared to a bottle teat of the same design without a recess.
(Fig. 3)
1.21
The invention relates to a bottle nipple with a base section having a connecting flange, in which the bottle nipple is substantially circular in a cross section perpendicular to a longitudinal axis, a lip contact section and a nipple section opening into a suction tip, the bottle sucker in the lip contact section perpendicular to its longitudinal axis a cross-section deviating from a circular shape with a longitudinal axis and a transverse axis which is shorter in comparison to the longitudinal axis.
Bottle teats which are essentially circular in a lower base section in order to be connected in a simple manner and essentially to a bottle mouth which is usually of circular design, but which subsequently have a cross-sectional shape deviating from a circular shape at this base section, so that a special orientation of the bottle teat the use of which is predetermined, namely an orientation in which the longitudinal axis of the bottle teat essentially runs in the longitudinal direction of the lips or mouth of the baby using the bottle teat are known in principle.
For example, from FR 2 854 322 B, a bottle teat with such a shape deviating from a circular shape above a base section is known.
Such bottle nipples have the particular advantage that it is relatively easy to bend the bottle nipple around a usually concavely curved outer surface of the bottle nipple in the lip contact area, i.e. the bottle suction device points for pivoting about an axis running in the direction of the longitudinal axis or in the transverse direction thereof, i.e. in the direction of the transverse axis, a relatively high degree of flexibility. However, due to their cross-sectional geometry, bottle suction devices of this type are often designed to be comparatively inflexibly perpendicular to them, so that pivoting out of the nipple section perpendicular to the transverse axis in particular is only possible to a limited extent.
Various bottle teats are already known from the prior art, with which an increased flexibility of the bottles
2/21 sucker, in particular the nipple and / or lip contact incision, is to be achieved.
For example, US Pat. No. 2,709,434 discloses a suction part with shoulders or ribs encircling it on the outside in an annular manner, said suction part having annularly weakened regions with reduced wall thickness. However, this is a suction cup that is rotationally symmetrical across the entire height in cross-section perpendicular to the longitudinal axis, so that, as expected, the circumferential wall thickness weakening running in a plane perpendicular to the longitudinal axis results in an essentially rotationally symmetrical bending behavior of the bottle suction cup.
From US Pat. No. 5,190,174 a further bottle suction device which is designed to be rotationally symmetrical over the entire height is known, which has wave-shaped depressions extending in a plane perpendicular to the longitudinal axis to form a bellows-shaped section to increase flexibility.
Also known from US Pat. No. 4,505,398 is a bottle teat which is designed to be rotationally symmetrical in the lip contact area and in which underneath the lip contact area has a wavy cross-sectional shape for forming a bellows-like section in order to increase the flexibility of the bottle teat in this area.
From WO 2013 / 150460A1 a bottle suction device is also known which has material weakenings distributed over the circumference, so that the bottle suction device between a collapsed position, in which the nipple section is lowered and the bending section is essentially convexly curved, and an extended position of the nipple section, in which the bending section is flat in sections, can be transferred.
Children often make stormy or hectic movements when eating, which makes it difficult for the feeding parent to keep the bottle teat centered on the mouth. Food intake is the greatest satisfaction for the baby and should therefore work well and satisfactorily.
3.21
The aim of the present invention is therefore in a bottle teat of the type mentioned, i.e. in the case of a bottle teat which deviates from a rotationally symmetrical shape from a lip contact section, to achieve increased flexibility of the nipple section essentially in the direction of the longitudinal direction of the bottle teat in the lip contact section or in the longitudinal extension direction of the mouth opening in a use state. In particular, this should increase the comfort for the baby when eating.
This object is achieved by the bottle teat with the features of claim 1. Preferred embodiments are specified in the dependent claims.
For the purposes of this disclosure, the location and direction information, such as "above," below etc., refer to the intended state of use of the bottle nipple if it is mounted in an upright baby bottle, i.e. with a vertical alignment of the longitudinal axis of the bottle teat.
According to the invention it is provided that between the base section and the lip contact section there is a bending section which is more flexible than the base section and the lip contact section, the bending section having a circumferential depression in the form of an indentation and / or a smaller wall thickness than in the other Recess adjacent sections, so that the bottle teat around an axis extending substantially in the direction of the transverse axis has increased flexibility for pivoting the lip contact and nipple section compared to a bottle teat of the same design without a recess.
Accordingly, the bottle teat according to the invention has a circumferential recess, so that, in addition to the flexibility that is already given in a pivoting direction in the direction of the transverse axis, increased flexibility for pivoting the lip contact and nipple section in the longitudinal direction of the rotationally asymmetrical lip contact section is achieved. Thus, in spite of the rotationally asymmetrical design, a bottle teat can be achieved, which allows the alignment of the
4/21 in the lip system section and thus also the nipple section in use. This improves the suction comfort for a baby or toddler using the bottle teat.
In order to achieve increased flexibility of the bottle teat in the bending section formed below the lip contact section, it is expedient if the depression runs essentially along an intersection of an imaginary cone with the bottle teat, with a tip of the imaginary cone on the longitudinal axis including the tip of the teat and is arranged adjacent to the tip of the suction cup, and the cutting line runs adjacent or coincident with a tangential line of contact of the imaginary cone and the bottle suction cup. This achieves a reduction in the stability of the bottle teat exactly in the area in which the forces causing a swiveling of the teat tip, which initiates a baby using the bottle teat, open.
With such a configuration, the course of the depression thus results which has a course deviating from a cross-sectional plane perpendicular to the longitudinal axis of the bottle teat. Due to the rotationally asymmetrical shape of the bottle teat, a depression which runs along an imaginary cone results in a depression which is arranged higher in the longitudinal axis in a side view than in a cross-sectional area running through the transverse axis. In vertical sectional planes running through the longitudinal axis there are thus two highest points of the depression, whereas in a vertical sectional plane running through the transverse axis two low points of the circumferential depression result. Accordingly, the course of the depression differs fundamentally from the course of known indentations or material weakenings in a cross-sectional area running perpendicular to the longitudinal axis, as is known in the prior art from rotationally symmetrical bottle suction devices.
The course of the depression is selected in such a way that the bottle teat ver for pivoting the lip contact and nipple sections essentially in the direction of the transverse axis
5/21 running axis in the bending section has greater flexibility than about an axis running in the direction of the longitudinal axis. This advantageously results in a rotationally asymmetrical bottle teat which, owing to the increased flexibility in the direction of the longitudinal axis due to the depression in the bending section, enables the nipple section to be pivoted out easily. In addition, however, there is also a pivoting of the nipple section in a direction perpendicular thereto, i.e. possible in the direction of the transverse axis, the pivoting in this direction primarily taking place by bending the bottle teat in the region of the lip contact section.
In order to achieve a particularly high degree of flexibility, it is advantageous if the wall thickness in the area of the depression is at least 30%, preferably at least 50%, less than in an area adjacent to the depression.
Furthermore, it is advantageous for the configuration of a defined kink line which promotes bending of the bottle teat in the bending section if the outer surface of the bottle teat is concavely curved in the region of the indentation, the concave curvature having a circumferential apex line. A kind of kink line is thus defined over the apex line, along which the bottle teat bends when forces are exerted, which tend to pivot the tip of the teat from a position essentially coinciding with the longitudinal axis of the teat.
If an outer surface of the bottle teat is convexly curved in an area above and / or below the depression, the curvature in the area adjacent to the depression results in increased stability, so that it is reliably ensured that the bottle teat buckles in the area the depression is achieved and not undesirably in an area adjacent to the depression.
With regard to a particularly high level of suction comfort, it is provided according to the invention that the bottle teat is not only rotationally asymmetrical at the lip contact area, but that
6/21 the bottle teat in the nipple section has a cross-section deviating from a circular shape with a longitudinal axis and a transverse axis which is shorter in comparison to the longitudinal axis. Such an embodiment is particularly favorable from an ergonomic point of view for accommodating the nipple section and the lip contact section in the baby's mouth or oral cavity.
Furthermore, for stiffening the bottle teat in an area above the depression, it is favorable if the bottle teat has a bead-like material reinforcement projecting inward above the depression and preferably surrounding the entire circumference. This also ensures that the bottle teat does not buckle in an area in which this is not desired.
In order to further achieve a substantially resilient mounting of the bottle teat which acts over the entire circumference, it is advantageous if the bottle teat has a cross-sectional taper under the bending section in a manner known per se, to which the connecting flange adjoins.
In this cross-sectional taper, an inwardly projecting collar of a fastening ring can advantageously also be accommodated, so that there is an intimate connection between the bottle teat and the fastening ring when connected to a baby bottle.
Unlike in the area of the recess, there is no buckling of the bottle teat in the area of the cross-sectional taper when there is a corresponding load during use, so it is advantageous if the bottle teat has an essentially constant wall thickness in the area of the cross-sectional taper.
If the bottle teat has a concavely curved outer surface at least in sections, preferably continuously, in a cross-sectional area running in the direction of the transverse axis in the lip contact section, the concave curved outer surface of the bottle teat favors in the lip contact section
7.21
Swiveling the nipple section in the direction of the transverse axis, i.e. perpendicular to the direction in which increased flexibility is achieved in particular with the depression according to the invention.
If the bottle teat has a flat or convex curved outer surface at least in sections in a cross-sectional area running in the direction of the longitudinal axis in the lip contact area, or if the outer surface is composed of a combination of a flat and convex curved surface, this results in increased stiffening of the bottle teat in one Swivel direction around the transverse axis of the bottle teat. Accordingly, it is particularly advantageous in such a configuration of the bottle teat if the bottle teat has a depression according to the invention.
With regard to particularly good suction comfort, which is based on the design of the maternal nipple, it is advantageous if the outer surface of the bottle nipple in the nipple section has a convexly curved section both in a cross-sectional area running parallel to the longitudinal axis and to the transverse axis.
For a particularly reliable connection of the bottle teat to a fastening ring, it is advantageous if the connecting flange has a preferably circumferential groove on its upper side. If such a preferably circumferential groove is provided, one or more ribs, which are provided on the underside of an inwardly projecting collar of the fastening ring, can be received in the position fastened to a baby bottle, so that there is a positive connection between the projecting ribs or a circumferential rib and the groove on the top of the connecting flange.
In order to achieve a particularly tight connection of the bottle teat to an upper edge of a bottle opening, it is advantageous if the connecting flange has a circumferential groove on its underside, preferably corresponding to an edge of an upper connection opening of a container.
8.21
Furthermore, for sealing the bottle teat against an opening above an edge of a drinking bottle, it is favorable if the connecting flange has a sealing lip projecting downward on its underside, preferably adjacent to the groove.
The invention is explained in more detail below with reference to a preferred exemplary embodiment illustrated in the drawings, to which the invention is in no way to be limited.
The drawings show:
Fig.l is a perspective view of the bottle teat according to the invention from above;
Figure 2 is a perspective view of the bottle teat according to the invention from below.
3 shows a side view of the bottle teat in the direction of the transverse axis in the region of a lip contact and nipple section;
4 shows a side view rotated by 90 ° with respect to FIG. 3 in the direction of the longitudinal axis in the lip contact and nipple section;
5 shows a plan view of the bottle teat according to FIGS. 1 to 4;
6 shows a section along the line VI-VI in FIG. 5 along the transverse axis in the lip contact section;
6A shows a plan view of a baby bottle with a bottle teat according to the invention according to FIGS. 1 to 5;
6B shows a sectional view along the line VIb-VIb in FIG. 6A, with an imaginary cone defining the course of a depression in a bending section;
7 shows a sectional view along the line VII-VII in FIG. 5 along the longitudinal axis in the area of the lip contact area; and
9.21
8 shows the detail VIII according to FIG. 7.
1 and 2 are perspective views of a
Bottle teat 1 shown, which, in particular, also from
3 can be divided into the following sections:
First, a base section 2 is provided in a lower end section, which has a connecting flange 3. A bending section 4 then adjoins the base section 3. Above the bending section 4, a lip contact section 5 is provided, to which a nipple section 6 adjoins as the upper end section and opens into a suction tip 7. The suction tip 7 has a sucking opening 8 for a liquid to pass through.
As can be seen from the perspective views according to FIGS. 1 and 2 and from a comparison of FIGS. 3 and 4 and also in FIG. 5, the bottle teat 1 is designed to be rotationally symmetrical in its lower base section 2, i.e. in a cross section perpendicular to its longitudinal axis 9 it essentially has a circular shape.
Above the base section 2 in the area of the lip contact section 5 and in the nipple section 6, however, when viewed in cross section perpendicular to the longitudinal axis 9, the bottle teat has an approximately elliptical cross section deviating from a circular shape, with a larger extension in the direction of a longitudinal axis 10 and one compared to the longitudinal axis shorter extension in the direction of a transverse axis 11 (see FIG. 5).
Due to this cross-sectional geometry, it follows that the bottle teat without a bending section 4 has a relatively good flex behavior when pivoting the nipple section 6 in the direction of the transverse axis 11, i.e. when the teat tip 7 swings out in the direction of the arrow 12. In this case, the teat 1 in the nipple section 5 essentially bends around a bending zone 13 depending on the pressure applied by the baby using the bottle teat.
Because of the geometrical configuration, it would be necessary for the suction tip 7 to pivot out in the direction of the arrow 14 (cf. FIG. 3)
10/21 of the bottle teat 1, however - without the bending section 4 - require a comparatively high expenditure of force, since the outer surface of the bottle teat 1 in the area of the lip contact section is essentially flat or slightly convex, so that stiffening occurs in this area.
In order to improve the flex behavior of the bottle teat 1 for pivoting the teat tip 7 and the lip contact section in the direction of arrow 14, i.e. In order to favor an axis running in the direction of the transverse axis 11, the bottle teat 1 has the bending section 4.
A recess 15 is provided in the bending section 4, which, as can be seen in FIG. 6, essentially runs along a cutting line or line of contact of an imaginary cone 15a with that on the outer surface of the bottle teat 1 in the bending section 4. Here, a cone 15a, the tip of which is arranged on the longitudinal axis 9 in a section 17 which encloses the suction tip 7 and adjoins the suction tip 7. This section 17 comprises in particular a length of up to 5 mm above and below the suction tip, wherein in the exemplary embodiment shown the cone tip is preferably arranged approx. 2 mm above the suction tip 7.
The imaginary cone 15 is then, preferably seen essentially centrally over the extension of the bending section, in the bending section 4 below the lip contact section 5 at a flat angle on the outer surface of the bottle teat 1, so that a circumferential cutting line 15a results. The cutting line - in contrast to rotationally symmetrical bottle suction devices - does not run along a cross-sectional plane perpendicular to the longitudinal axis 9 with a recess in order to increase flexibility, but rather has - due to the asymmetrical design of the suction device 1 in the bending section 4 - a rising and falling course as seen over the circumference on. Due to the geometrical configuration of the bottle suction device 1, two maxima 18a result in the area of a vertical cut surface through the longitudinal axis 10 in the course of the depression and in the direction of the transverse axis 10 two minima 18b, as in particular in the sectional plane shown in FIGS. 6 and 6A
11/21 along the transverse axis.
Due to the geometry of the bottle teat 1, the circumferential recess 15 essentially causes the bottle teat 1 to buckle when a force is applied in the direction of the arrow 14, i.e. achieved with a pivoting movement of the nipple section 6 and the lip contact section 5 about an axis running in the direction of the transverse axis 11, so that a significantly improved bending behavior of the suction device 1 is thereby achieved.
In order to simplify the buckling of the bottle teat 1 in the area of the bending section 4 when pressure is applied in the nipple section 6 and / or lip contact section 5, the teat in the lip contact section 5 has said depression 15, which is shown in detail in FIG. 8. It can be seen here that the bottle teat 1 in the exemplary embodiment shown has a reduced wall thickness in the region of the recess 15 of approximately 0.6 mm to 1 mm, preferably approximately 0.8 mm, whereas the wall thickness in the lip contact section 5 usually has approximately 1.2 mm to 2 mm. In addition, the course of the wall la of the bottle teat 1 has an indentation 19, i.e. the course of the wall la of the bottle teat 1 has a concave course in this area, which has an apex 19a, which essentially serves as a kink line.
In order to reliably prevent the bottle teat 1 from collapsing in a section adjoining the depression 15, a bead-like, inwardly projecting material reinforcement 20 is provided in particular above the depression 15. In this area, the wall 1 a of the bottle teat 1 has an approximately 2 to 4 times greater wall thickness than in the area of the depression 15, so that the bottle teat 1 does not give way when pressure is applied in this area, but rather the desired buckling in the subsequent area the recess 15 is achieved.
Of course, the recess 15 can also be used only via the geometric configuration, i.e. a concave indentation 19, or through a groove-like material recess, i.e. Wall thickness rejuvenation can be achieved on the outer surface of the bottle teat 1.
12/21
In particular in FIG. 6B it can also be seen that a cross-sectional taper 21 is provided in the base section 2, which on the one hand forms a resilient base for the entire pacifier section arranged above it and also serves to receive an inwardly projecting collar 22 from a fastening ring 23.
The fastening ring 23 can advantageously also have downwardly projecting webs 22a or a circular web 22a which cooperates in the position connected to the bottle mouth 24 in a circumferential groove 25 arranged on the connecting flange on the top. A positive connection between the connecting flange 3 and the fastening ring 23 is thus achieved by the positive reception of the web or the webs 22a in the groove 25.
Furthermore, the connecting flange 3 has on its underside a circumferential groove or recess 26, in which an upper edge 24a of a bottle mouth 24, to which the bottle teat 1 is attached, is received. This also results in a reliable, sometimes positive connection of the bottle teat 1 to the bottle mouth 24.
With regard to a good seal of the connection between the fastening ring 23 and the bottle mouth 24, it is further advantageous if the connecting flange 3 of the bottle teat 1 has a sealing lip 27 which connects on the inside on the circumferential circumferential groove 26 for receiving the edge 24a of the bottle mouth 24. A reliable connection of the bottle teat into the bottle mouth 24 can thus be achieved in particular even with a snap connection between the fastening ring 23 and the bottle mouth 24.
13/21

权利要求:
Claims (16)
[1]
Claims:
1. Bottle suction device (1) with a connecting flange (3) having a base section (2), in which the bottle suction device (I) is essentially circular in a cross section perpendicular to a longitudinal axis (9), a lip contact section (5) and an in a nipple section (6) opening into a suction tip (7), the bottle teat (1) in the lip contact section (4) perpendicular to its longitudinal axis (9) having a cross-section deviating from a circular shape with a longitudinal axis (10) and one in comparison to the longitudinal axis (10) Has a shorter transverse axis (II), characterized in that between the base section (2) and the lip contact section (5) there is a bending section (4) which is more flexible than the base and lip contact section (2, 5), the bending section ( 4) a recess (15) running around the circumference in the form of an indentation (19) and / or a smaller wall thickness than in the recess (15) zenden sections, so that the bottle teat (1) around an axis running essentially in the direction of the transverse axis (11) has increased flexibility compared to a bottle teat of the same design without a recess for pivoting the lip contact and nipple sections (5, 6).
[2]
2. Bottle suction device according to claim 1, characterized in that the recess (15) runs essentially along a line of intersection or contact of an imaginary cone (15a) with the bottle suction device (1), a tip (15b) of the imaginary cone (15a) is arranged on the longitudinal axis (9) in a section (17) enclosing the suction tip (7) and adjoining the suction tip (7), and the cutting line is adjacent or coincident with a tangential line of contact of the imaginary cone (15a) and the bottle suction device (1 ) runs.
[3]
3. Bottle teat according to claim 2, characterized in that the bottle teat (1) for pivoting the lip contact and nipple sections (5, 6) by a substantially in the direction of
Transverse axis (11) axis has greater flexibility in the bending section (4) than around an axis extending in the direction of the longitudinal axis (10).
14/21
[4]
4. Bottle teat according to one of claims 1 to 3, characterized in that the thickness of the wall (la) of the bottle teat (1) in the region of the recess (15) is at least 30%, preferably at least 50%, less than in one the depression (15) adjacent area.
[5]
5. Bottle teat according to one of claims 1 to 4, characterized in that the outer surface of the bottle teat (1) is concavely curved in the region of the indentation (19), the concave curvature having a circumferential apex line (19a).
[6]
6. Bottle teat according to one of claims 1 to 5, characterized in that the outer surface of the bottle teat (1) is convexly curved in an area above and / or below the recess (15).
[7]
7. Bottle teat according to one of claims 1 to 6, characterized in that the bottle teat (1) in the bending section (4) and / or in the nipple section (6) has a cross-section deviating from a circular shape with a longitudinal axis (10) and one in comparison to Longitudinal axis (10) has a shorter transverse axis (11).
[8]
8. Bottle teat according to one of claims 1 to 7, characterized in that the bottle teat (1) above the recess (15) and adjacent to the recess (15) is an inwardly projecting, preferably circumferential bead-like material reinforcement (20) having.
[9]
9. Bottle teat according to one of claims 1 to 8, characterized in that the bottle teat (1) under the bending section (4) has a cross-sectional taper (21) to which the connecting flange (3) connects.
[10]
10. Bottle suction device according to one of claims 1 to 9, characterized in that the bottle suction device (1) has a substantially constant wall thickness in the region of the cross-sectional taper (21).
[11]
11. Bottle teat according to one of claims 1 to 10, characterized
15/21 characterized in that the bottle teat (1) has a concavely curved outer surface at least in sections, preferably continuously, in a cross-sectional area in the lip contact area (4) running in the direction of the transverse axis (11).
[12]
12. Bottle teat according to one of claims 1 to 11, characterized in that the bottle teat (1) in a cross-sectional area running in the direction of the longitudinal axis (10) in the lip contact area (4) at least in sections has a flat or convex curved outer surface or the outer Surface composed of a combination of a flat and convex curved surface.
[13]
13. Bottle suction device according to one of claims 1 to 12, characterized in that the outer surface of the bottle suction device (1) has a convexly curved section in the nipple area both in a cross-sectional area running parallel to the longitudinal axis (10) and to the transverse axis (11).
[14]
14. Bottle teat according to one of claims 1 to 13, characterized in that the connecting flange (3) has a preferably circumferential groove (25) on its upper side.
[15]
15. Bottle teat according to one of claims 1 to 14, characterized in that the connecting flange (3) has on its underside a circumferential, preferably an edge (24a) of an upper connection opening of a container (24) corresponding groove (26).
[16]
16. Bottle teat according to one of claims 1 to 15, characterized in that the connecting flange (3) on its underside, preferably adjacent to the groove (26), has a downwardly projecting sealing lip (27).
16/21

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同族专利:

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公开号 | 公开日

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AT520348B1|2022-02-15|

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RU2748882C1|2021-06-01|

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PL3672560T3|2021-08-23|

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IL272241A|2021-03-25|

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BR112020002956A2|2020-08-11|

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AU2018321573A1|2020-02-20|

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CN111065367A|2020-04-24|

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WO2019036739A1|2019-02-28|

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IL272241D0|2020-03-31|

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US20210030627A1|2021-02-04|

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ES2861175T3|2021-10-05|

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CA3072365A1|2019-02-28|

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EP3672560B1|2021-01-13|

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JP2020531143A|2020-11-05|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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DE3241845A1|1982-11-12|1984-05-24|Mapa GmbH Gummi- und Plastikwerke, 2730 Zeven|SUCTION AS A NUTRITIONAL OR SOOTHING SUCTION|

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WO2013144624A1|2012-03-31|2013-10-03|Bb Ipr Limited|Cap for feeding bottle|

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DE102015118252A1|2015-10-26|2017-04-27|Mapa Gmbh|Teat and cap for a bottle|

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JPH0312163A|1989-06-09|1991-01-21|Kooshin Kk|Teat for feeding bottle|

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US6645228B2|2001-11-13|2003-11-11|Playtex Products, Inc.|Nipple|

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AT6721U1|2003-04-29|2004-03-25|Bamed Ag|MAMMAL|

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KR101207889B1|2004-06-29|2012-12-04|재켈 인터내셔널 리미티드|Teat|

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CN101355918B|2005-11-11|2012-07-18|婴儿布里斯国际有限公司|Closure assembly|

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AT9807U1|2007-01-03|2008-04-15|Mam Babyartikel|VESSEL FROM A PLASTIC MATERIAL|

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EP2465484A1|2010-12-20|2012-06-20|Koninklijke Philips Electronics N.V.|A teat for a feeding bottle|

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US10993884B2|2011-12-01|2021-05-04|Munchkin, Inc.|System for venting, priming and modifying a flow rate of fluid from a container|

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CN104203196B|2012-04-05|2017-02-22|皇家飞利浦有限公司|Teat for an infant feeding bottle|

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CN202724282U|2012-07-12|2013-02-13|美弗实业股份有限公司|Fixing structure for nipple|

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EP2822527B1|2013-05-13|2016-12-28|Swift Sino Limited|A feeding device and a feeding apparatus|USD944407S1|2018-02-12|2022-02-22|Artsana S.P.A.|Teat for feeding bottles|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA50702/2017A|AT520348B1|2017-08-23|2017-08-23|bottle teat|ATA50702/2017A| AT520348B1|2017-08-23|2017-08-23|bottle teat|

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RU2020111140A| RU2748882C1|2017-08-23|2018-08-23|Suction cap for bottle|

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BR112020002956-4A| BR112020002956A2|2017-08-23|2018-08-23|baby bottle nipple|

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US16/641,034| US20210030627A1|2017-08-23|2018-08-23|Bottle teat|

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ES18765353T| ES2861175T3|2017-08-23|2018-08-23|Teat|

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CA3072365A| CA3072365A1|2017-08-23|2018-08-23|Bottle teat|

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CN201880054848.9A| CN111065367A|2017-08-23|2018-08-23|Nipple|

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PL18765353T| PL3672560T3|2017-08-23|2018-08-23|Bottle teat|

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JP2020511245A| JP2020531143A|2017-08-23|2018-08-23|Nipple for baby bottle|

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PCT/AT2018/060194| WO2019036739A1|2017-08-23|2018-08-23|Bottle teat|

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EP18765353.0A| EP3672560B1|2017-08-23|2018-08-23|Bottle teat|

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AU2018321573A| AU2018321573A1|2017-08-23|2018-08-23|Bottle teat|

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IL272241A| IL272241A|2017-08-23|2020-01-26|Bottle teat|