JP2004129940A - Breast milk feeding receptacle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a breast feeding receptacle which has a soft artificial teat for facilitating the flowing out of a liquid and is free from the troublesome leaking out of the liquid. <P>SOLUTION: This breast milk feeding receptacle 100 comprises a container 130, an artificial teat 110 having an engaging concave 116 made of an elastic material having a hardness of 5 to 30, and a bottle cap 120 having a cap aperture 122 including an engaging convex 122a for engaging with the engaging concave, wherein the artificial teat is furnished with at least a first aeration regulatory part 117 for aerating a container atmosphere B to a cap atmosphere C, at least a second aeration regulatory part 118 for aerating the cap atmosphere to an outer atmosphere, and an aeration maintenance part 119 for aerating the cap atmosphere to the outer atmosphere of the breast milk feeding receptacle, the second aeration regulatory part 118 being constructed to contact with the bottle cap 120, the aeration maintenance part 119 being constructed with a rib 116a set in the engaging concave. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to a baby bottle used for infants and the like at the time of nursing and the like.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an artificial nipple has been used for storing milk in a baby bottle attached with a cap, and for infants and the like to drink milk and the like.
As described above, when the infant or the like drinks the milk in the baby bottle and the content of the milk decreases, the inside of the baby bottle becomes a negative pressure as compared with the outside air, and it becomes difficult for the milk to come out of the artificial nipple.
For this reason, a ventilation hole is provided in the flange of the artificial nipple of the baby bottle, and this ventilation hole is opened when there is a negative pressure, and changes to a closed state when there is no negative pressure, thereby preventing milk from becoming difficult to come out. There is a feeding device that is used (for example, see Patent Document 1).
[0003]
There is also a baby bottle provided with an air groove for supplying outside air so as not to generate a negative pressure and always supplying outside air into a baby bottle (for example, see Patent Document 2).
[0004]
[Patent Document 1]
Japanese Utility Model Publication No. 4-26106 (FIG. 10)
[Patent Document 2]
JP 2001-204796 A (FIG. 1)
[0005]
[Problems to be solved by the invention]
However, unlike conventional cases, in the case of a baby bottle having an artificial nipple made of an extremely soft material and having a low hardness, the artificial nipple is soft and easily deformed, so that the cap cannot fix the artificial nipple and the artificial nipple is There was a risk of falling out of the cap.
For this reason, the artificial nipple and the cap need to have higher adhesion than the conventional baby bottle and to fit a protrusion for preventing the cap from coming off. There was a problem that could not be secured.
In addition, when milk having a high temperature is stored in the baby bottle, the baby bottle has a positive pressure as compared with the outside air, and in the air groove as described in Patent Document 2 above, the milk leaks outside through the air groove. There were also problems.
[0006]
Accordingly, the present invention has been made in view of the above points, even when having a soft artificial nipple having a low hardness, the liquid does not become difficult to come out of the artificial nipple, and the liquid does not leak out of the baby. The purpose is to provide.
[0007]
[Means for Solving the Problems]
According to the first aspect of the present invention, there is provided a container having a container body for accommodating a liquid, a container opening for injecting the liquid into the container body, and a nipple inserted into an oral cavity of an infant. A main body, a flange portion disposed below the nipple main body and having an outer circumference substantially equivalent to the container opening portion, and an end of a cap portion arranged corresponding to the container opening side and fixed to the container. An artificial nipple made of an elastic member having a hardness of 5 to 30 degrees, which has an engagement recess for accommodating and engaging the portion, a cap opening through which the artificial nipple can be inserted, and an end of the cap opening Provided on the side, and an engaging projection for engaging with the engaging concave portion of the artificial nipple, comprising a cap portion, wherein the atmosphere in the container body is at least the container opening portion. Covered by the artificial nipple placed against The artificial nipple, at least, a first ventilation control unit for venting or not ventilating the container atmosphere in the container body with a cap atmosphere formed by the artificial nipple and the cap unit, at least, A second ventilation control section for venting or not venting the container atmosphere introduced into the cap atmosphere to the outside by the first ventilation control section, and a second ventilation control section communicating with the outside; And a ventilation securing section for ventilating the let-off atmosphere of the cap with the outside atmosphere of the feeding device, wherein the second ventilation adjusting section is configured to be in contact with or separated from the cap section. The securing portion is achieved by a baby bottle characterized in that the securing portion is constituted by a rib provided in the engagement concave portion.
[0008]
According to the configuration of the first aspect, the artificial nipple is made of an elastic member having a hardness of 5 degrees to 30 degrees, and has an easily deformable hardness.
However, the artificial nipple has an engagement concave portion for receiving and engaging an end of a cap portion for fixing to the container, and the cap portion has an artificial nipple at an opening end of the cap portion. And an engaging projection for engaging with the engaging recess.
Therefore, even if the artificial nipple is deformed or the like as described above, the artificial nipple is firmly fixed by the cap portion by the engagement between the engagement concave portion and the engagement convex portion, and the artificial nipple is easily removed from the cap portion. It does not come off.
Even if the ribs are firmly fixed in this manner, the ribs are formed in the engagement recesses, so that the ribs come into contact with the cap openings and the engagement projections of the cap portion, and the ribs are slightly The entire surface of the engaging concave portion does not completely adhere to the engaging convex portion only due to deformation or the like.
For this reason, the ventilation securing portion can be configured in the engagement recess, and ventilation can be secured. Therefore, the cap portion and the artificial nipple are firmly fixed while ensuring ventilation.
[0009]
Further, for example, by storing a high-temperature liquid in the container body, by performing agitation or the like, the atmosphere in the container body becomes a positive pressure with respect to the outside air, and in the case where the atmosphere is reversed to perform breastfeeding, Even if the liquid leaks from the first ventilation control section into the cap atmosphere, if the second ventilation control section is in contact with the cap section, the leaked liquid remains in the cap atmosphere. .
Therefore, the leaked liquid does not leak to the external atmosphere outside the baby bottle through the ventilation securing portion.
[0010]
On the other hand, when the atmosphere in the container body becomes a negative pressure with respect to the outside air by ingesting the liquid through the artificial nipple, the first ventilation control unit communicates the container atmosphere with the cap atmosphere.
Further, the second ventilation adjusting section is separated from the cap section, and the cap atmosphere and the external atmosphere of the baby container communicate with each other via the ventilation securing section.
For this reason, an external atmosphere is introduced into the container atmosphere via the ventilation securing portion and the cap atmosphere, and the negative pressure is eliminated.
[0011]
Preferably, according to the second aspect of the present invention, in the configuration of the first aspect, the second ventilation control part moves from a state of contact with the cap part to a state of separation when the inside of the container atmosphere has a negative pressure. It is a baby bottle characterized by having a structure.
[0012]
According to the configuration of the second aspect, the second ventilation adjusting part is normally in contact with the cap part unless the inside of the container atmosphere has a negative pressure.
Therefore, when the container atmosphere in the container body is not at a negative pressure or a positive pressure compared to the external atmosphere, the cap atmosphere is not communicated with the ventilation securing portion.
Therefore, even if the user of the bottle accidentally falls down the bottle containing the liquid, the liquid remains in the cap atmosphere and does not leak to the outside atmosphere via the ventilation securing portion.
Further, in a state where the positive pressure in the container atmosphere is increased, the cap atmosphere can be reliably sealed by strengthening the contact of the second ventilation control section.
[0013]
Preferably, according to the invention of claim 3, in the configuration of claim 1 or claim 2, the rib provided in the engagement concave portion of the artificial nipple is provided with the cap opening of the cap portion and / or the rib. The ribs formed corresponding to the bottom surface, the side surface, and the top surface of the engagement protrusion, respectively, and the ribs corresponding to the top surface and the side surface are connected to each other to form an approximately L-shaped L-shaped rib. A plurality of the L-shaped ribs are disposed substantially parallel to each other, and the rib corresponding to the bottom surface portion constitutes a bottom surface rib.
[0014]
According to the configuration of the third aspect, it is possible to reliably ensure ventilation between the plurality of L-shaped ribs arranged substantially in parallel and near the bottom rib.
[0015]
Preferably, according to the fourth aspect of the present invention, in the configuration of the third aspect, the first ventilation adjusting portion is formed by a notch, and the notch and the bottom rib are connected to the second ventilation. The plurality of L-shaped ribs which are arranged so as to be continuous via an adjustment portion, the widths of the continuous portions of the bottom rib and the cutout portion are substantially equal to each other, and the plurality of L-shaped ribs arranged substantially parallel to each other, The distance between the L-shaped ribs is longer than the width of the bottom rib.
[0016]
According to the configuration of claim 4, since the width of each of the continuous portions of the bottom rib and the cutout portion is formed substantially equal, when the artificial nipple is molded with resin, the resin easily flows. It is easy to reliably mold, and the cost can be reduced.
In addition, the plurality of L-shaped ribs arranged substantially in parallel are configured such that the interval between the L-shaped ribs is longer than the width of a portion of the bottom rib facing the cutout portion.
For this reason, the flow of the ventilation between the plurality of L-shaped ribs is not obstructed by the bottom rib, and more efficient ventilation can be secured.
[0017]
Preferably, according to the invention of claim 5, in the configuration of any of claims 1 to 4, for fixing the cap portion to the flange portion of the artificial nipple outside the second ventilation adjusting portion. Is formed, and a fixing concave portion for engaging with the fixing convex portion is formed on the flange portion.
[0018]
According to the configuration of claim 5, a fixing convex portion for fixing to the flange portion of the artificial nipple is formed outside the second ventilation adjusting portion of the cap portion, and the fixing portion is formed on the flange portion. A fixing recess for engaging with the projection is formed.
For this reason, as described above, the cap portion can more firmly fix the soft nipple having a low hardness and softness, and it is possible to prevent the artificial nipple from falling off.
[0019]
Preferably, according to the invention of claim 6, in the configuration of claim 5, the fixing projection and the fixing recess are formed corresponding to a top surface forming the container opening. It is a baby bottle characterized by the following.
[0020]
According to the configuration of claim 6, the fixing convex portion and the fixing concave portion are formed corresponding to the top surface forming the container opening.
For this reason, when the fixing convex portion and the fixing concave portion are arranged on the top surface portion having a relatively strong configuration instead of the container opening portion of the container, the top surface portion is strong, and thus the cap portion is provided. Along with fixing to the container via the artificial nipple, the engagement between the fixing convex portion and the fixing concave portion is further strengthened, and the artificial nipple is further firmly fixed with the cap portion. it can.
Therefore, it is possible to more completely prevent the artificial nipple from falling off.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
The embodiment described below is a preferred specific example of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention particularly limits the present invention in the following description. The embodiments are not limited to these embodiments unless otherwise described.
[0022]
FIG. 1 is a schematic diagram showing a baby bottle 100 according to an embodiment of the present invention.
As shown in FIG. 1, the feeding device 100 includes, for example, a glass feeding bottle 130 which is a container for storing a liquid, for example, milk, an artificial nipple 110 made of, for example, silicone rubber which is an elastic member, and It has a cap part, for example, made of resin, which is a cap part for fixing to the baby bottle 130.
The hardness of the silicone rubber of the artificial nipple 110 is 5 degrees to 30 degrees, preferably 10 degrees to 25 degrees, which is, for example, the hardness measured by an A-type durometer in JIS-K6253 (ISO7619).
Therefore, the hardness is much softer than the hardness used in the conventional artificial nipple, for example, about 40 degrees.
[0023]
As shown in FIG. 1, the artificial nipple 110 has a spout opening 111 for spouting milk in the mouth of the user, a nipple 112 having the spout opening 111 formed therein, and an enlarged diameter from the nipple 112. And a nipple trunk 113 formed as described above.
The ejection opening 111 is formed by, for example, a fine opening having a round hole shape, a slit having a cross shape, a Y shape, or a single character shape.
[0024]
FIG. 2 shows a part of a schematic central longitudinal sectional view of the baby bottle 100 of FIG.
As shown in FIG. 2, two thin groove portions 114 are formed inside the artificial nipple 110, for example, in a ring shape.
When a baby or the like, who is a user, ingests milk with the baby bottle 100, the artificial tongue 110 is held in the oral cavity, and the tongue performs a peristaltic movement. The artificial nipple 110 is extended by the peristaltic movement, and the infant can smoothly ingest the milk by this extension.
Therefore, in order to extend the artificial nipple 110 more smoothly, a material having low hardness is used and the groove 114 is formed.
That is, since the groove 114 is formed to be thinner than other portions of the artificial nipple 110, the groove 114 is configured to be more easily extended.
[0025]
By the way, as shown in FIG. 2, a baby bottle 130 has a container body for storing milk, for example, a baby bottle body 131, and a container opening for injecting milk into the baby bottle body 131, for example, a baby bottle. An opening 132 is formed.
A screwing groove 132 a for screwing with the cap 120 is formed in the baby bottle opening 132.
A screwing groove 121 is also formed on the cap 120 side corresponding to the screwing groove 132a of the baby bottle opening 132 as shown in FIG. 2, and the two are screwed together and fixed.
At the time of fixing the two by screwing, as shown in FIG. 2, the artificial nipple 100 is inserted through the cap opening 122 provided in the center of the cap 120, and is arranged with respect to the baby bottle opening 132 side, and The flange 115 of the nipple 110 is sandwiched between the cap 120 and the baby bottle 130, whereby the artificial nipple 110 is fixed to the baby bottle 130.
Further, the flange 115 is formed so as to expand further outward from the nipple trunk 113 of the artificial nipple 110.
[0026]
FIG. 3 is a schematic enlarged view of a portion indicated by an arrow A in FIG.
As shown in FIG. 3, the flange 115 of the artificial nipple 100 is specifically fixed between the cap 120 and the top surface 133 which is the top surface of the baby bottle 130.
In addition, below the right end in FIG. 2, which is the end of the cap opening 122, an engaging projection 122 a is formed so as to protrude downward in the figure along the cap opening 122.
On the other hand, an engagement recess 116 for accommodating and engaging the cap opening 122 and the engagement protrusion 122a is formed in the inner peripheral portion (right side in the figure) of the artificial nipple 110. 3, a bottom surface 116c of the concave portion is formed in a groove shape along the inside of the flange 115, corresponding to the engaging convex portion 122a.
That is, since the hardness of the artificial nipple 110 is low and extremely soft as described above, the artificial nipple 110 is not held between the cap 120 and the top surface 133 of the baby bottle 130, and may be deformed and fall out.
For this reason, the gap opening 122 including the engaging projection 122a of the cap 120 is engaged with the engaging recess 116 including the recess bottom surface 116c of the artificial nipple 110, and is firmly fixed. It is configured to prevent the 120 from slipping out of the flange 115.
In particular, the engagement convex portion 122a enters the concave portion bottom surface 116c, so that the artificial nipple 110 can function so as to be locked in the exit direction.
[0027]
As shown in FIG. 3, the atmosphere inside the baby bottle main body 131 is covered with an artificial nipple 110 disposed with respect to the baby bottle opening 132, and the upper surface of the flange 115 of the artificial nipple 110 is covered with a cap 120. I have.
A flange 115 of the artificial nipple 110 is provided with, for example, a ventilation valve 117 as a first ventilation adjusting portion as shown in FIG.
This vent valve 117 is for venting or not venting the container atmosphere B in the baby bottle main body 131 to the cap atmosphere C formed by the flange 115 and the cap 120.
[0028]
FIG. 4 is a schematic perspective view showing the ventilation valve 117 and the like formed on the flange 115. FIG. 5 is a schematic bottom view of the ventilation valve 117.
As shown in FIG. 4, the vent valve 117 has, for example, a substantially circular shape when viewed from a plane, and as shown in FIG. 5, has a slit formed in a notch, for example, a Y-shape.
The vent valve 117 has a shape curved downward as shown in FIG. 3, and a slit is provided on the bottom surface thereof.
For this reason, when the container atmosphere B becomes negative pressure due to breastfeeding, when the ventilation valve 117 in FIG. 3 is pulled toward the baby bottle main body 131 and deforms downward, the Y-shaped slit in FIG. It is configured so that it can be ventilated.
On the other hand, in a state where it is not deformed downward, the Y-shaped slit in FIG. 5 is closed and does not ventilate.
The vent valve 117 is formed integrally with the flange 115 and is formed of the same material, that is, silicone rubber having a low hardness, so that it is easily deformed.
[0029]
By the way, the flange 115 is provided with, for example, a contact surface 118 which is a second ventilation adjusting portion for allowing or not allowing the container atmosphere B introduced into the cap atmosphere C by the ventilation valve 117 to the outside of the feeding device 100. Have.
This contact surface 118 is formed by the upper surface of the flange 115 above and near the ventilation valve 117 as shown in FIG. 4 and contacts the inner surface of the cap 120 as shown in FIG. , And is separated from the inner surface of the cap 120.
That is, when the contact surface 118 is in contact with the inner surface of the cap 120, the cap atmosphere C in FIG. 3 is in a closed state, but when the contact surface 118 is separated from the inner surface of the cap 120 in a downward direction, the open state is obtained. It communicates with the outside through a ventilation passage described later.
In particular, when the container atmosphere B has a positive pressure, the contact surface 118 receives pressure so as to deform upward, so that the hermetic seal can be reliably performed at the positive pressure.
[0030]
In addition, for example, a ventilation passage 119 which is a ventilation securing portion for communicating the cap atmosphere C with the outside atmosphere of the baby container 100 is formed as shown in FIG.
Specifically, the ventilation passage 119 includes an engagement protrusion 122 a provided on the bottom surface side of the cap opening 122 of the cap 120 in FIG. 3, an opening side surface 122 b serving as an inner periphery of the cap opening 122, and an upper surface portion such as an opening. It is configured such that ventilation is ensured along the upper surface 122c.
That is, a gap is formed between the cap 120 and the artificial nipple 110 to allow ventilation.
This gap is specifically formed by providing a plurality of ribs in the engagement recess 116.
[0031]
The plurality of ribs are formed in the engaging concave portion 116 of the artificial nipple 110 corresponding to the engaging convex portion 122a, the opening side surface 122b, and the opening upper surface 122c of the cap 120, respectively.
Of these, the ribs corresponding to the opening side surface 122b and the opening upper surface 122c are connected to each other, and form an approximately L-shaped L-shaped rib 116b as shown in FIG.
As shown in FIG. 4, a plurality of, for example, two L-shaped ribs 116b are formed and arranged in parallel.
The rib corresponding to the engaging projection 122a of the cap 120 is provided on the bottom 116c of the engaging recess 116 of the artificial nipple 110 as a bottom rib 116a as shown in FIGS. Is made shallower.
[0032]
FIG. 6 is a schematic end view of the XX ′ line in FIG. 3.
As shown in FIG. 6, the two L-shaped ribs 116b, 116b shown in FIGS. 3 and 4 abut on the upper surface 122c of the cap opening 122 of the cap 120.
Therefore, between the two L-shaped ribs 116b, 116b arranged in parallel and in the vicinity of the two L-shaped ribs 116b, 116b, the engaging projection 116 is deformed so as to be slightly bent. A gap that does not come into contact with the opening upper surface 122c is generated, and ventilation can be reliably ensured, so that the ventilation passage 119 is formed.
As shown in FIG. 3, the opening side surface 122b also deforms the artificial nipple 110 with the L-shaped ribs 116b and 116b, thereby forming a gap as in the case of the opening upper surface 122c, and the ventilation passage 119 is formed. .
Similarly, the bottom rib 116a shown in FIGS. 3 and 4 comes into contact with the engaging projection 122a, and a gap can be secured along both side edges near the bottom rib 116a, so that the ventilation passage 119 is formed. .
[0033]
As shown in FIGS. 3 and 4, the ventilation valve 117 and the bottom rib 116 a are arranged so as to be continuous via the contact surface 118. Then, as shown in FIG. 4, the widths W1 (widths W1 shown in FIG. 4) of the continuous portions of the bottom rib 116a and the ventilation valve 117 are substantially equal.
Therefore, when the artificial nipple 110 made of silicone rubber is molded with a resin, the flow of the resin is not hindered particularly in the vicinity of the thinned bottom portion 116c of the recessed portion 116c with respect to the vicinity of the thinner ventilation valve 117. Since the resin flows more easily from the bottom rib 116a, which is thicker than the concave bottom surface 116, the molding becomes easier, and the molding cost can be reduced.
[0034]
Further, as shown in FIG. 4, the interval W2 between the two L-shaped ribs 116b, 116b arranged substantially in parallel (the interval W2 in FIGS. 4 and 6) faces the ventilation valve 117 of the bottom rib 116a. The width W1 (the width W1 in FIGS. 4 and 6) of the portion where the light beam is located is formed longer.
For this reason, the flow of ventilation at the interval W2 between the two L-shaped ribs 116b, 116b is not obstructed by the bottom rib 116a, so that a more efficient ventilation passage 119 can be secured, and in addition, the second Even when the liquid leaks from the contact surface 118 serving as the ventilation control section, it is possible to block the liquid from leaking along the ventilation passage 119.
[0035]
The feeding device 100 of the present embodiment configured as described above is assembled and used as shown in FIG.
At this time, the artificial nipple 110 is soft and easily deformed with a hardness of 5 to 30 degrees as described above.
However, the artificial nipple 110 has an engagement recess 116 for accommodating the cap opening 122 including the engagement projection 122a which is the end of the cap 120. Further, an engagement protrusion 122a as shown in FIG. 3 is formed to protrude from the cap opening 122 of the cap 120, and a concave bottom surface 116c for accommodating the engagement protrusion 122a is formed in the artificial nipple 110.
Therefore, the cap opening 122 of the cap 120 including the engaging protrusion 122a is engaged with the engaging recess 116 of the artificial nipple 110 including the recess bottom surface 116c, and is firmly fixed. It is configured to be able to prevent slipping out.
[0036]
Even if the cap 120 and the flange 115 of the artificial nipple 110 are firmly fixed in this manner, the two L-shaped ribs 116b, 116b and the bottom rib are formed in the engagement recess 116 as shown in FIGS. Since the L-shaped rib 116b is formed, as shown in FIG. 6, the L-shaped rib 116b and the like and the engaging projection 122 of the cap 120 come into contact with each other, and the vicinity of the L-shaped rib 116b is deformed so as to be slightly bent. Become.
Therefore, the entire surface of the engagement concave portion 116 does not completely adhere to the engagement convex portion 122. Therefore, the ventilation passage 119 can be formed in the engagement concave portion 116, and ventilation can be secured. The cap 120 and the artificial nipple 110 are firmly fixed while securing ventilation.
[0037]
When, for example, hot water and powdered milk are put into such a bottle 100 and stirred, the container atmosphere B in the bottle main body 131 in FIG. 1 becomes positive pressure with respect to the external atmosphere outside the bottle 100.
Then, the pressure in the baby bottle main body 131 increases, and the ventilation valve 117 in FIG. 3 cannot be deformed downward in FIG. 3, so that the Y-shaped slit in FIG. 5 is in a closed state.
However, the milk may pass through this Y-shaped slit and leak into the cap atmosphere C of FIG. 3 because the pressure is high and the artificial nipple 110 is turned downward for feeding.
At this time, the contact surface 118 for adjusting the communication between the cap atmosphere C and the ventilation passage 119 is in contact with the inner surface of the cap 120 as shown in FIG. Since the pressure is applied to the inner surface side of the cap 120, it is possible to prevent the milk that has leaked into the cap atmosphere C from leaking out of the feeding device 100 through the ventilation passage 119 beforehand.
[0038]
The contact surface 118 is configured to move from the state of contact with the cap 120 to the state of separation when the inside of the container atmosphere B in FIG.
That is, the contact surface 118 is always configured to be in contact with the inner surface of the cap 120 except when the inside of the baby bottle main body 131 is under a negative pressure. Even in this case, the cap atmosphere C does not move downward in FIG. 3 and the cap atmosphere C is not communicated with the ventilation passage 119, so that the leaked milk can be reliably prevented from leaking to the outside.
Therefore, the baby 100 is safe without the infant or the like or the guardian directly touching the hot milk.
In particular, even if the user of the baby bottle 100 accidentally defeats the baby bottle 100 containing hot milk, the milk stays in the cap atmosphere C, and the hot milk passes through the ventilation passage 119 to the outside atmosphere. It can be prevented from leaking to the outside (outside of the baby bottle 100).
[0039]
On the other hand, when a user such as a guardian stores milk at an appropriate temperature in the baby bottle main body 131 and the infant or the like ingests it from the artificial nipple 110, the milk in the baby bottle main body 131 decreases and the inside of the baby bottle main body 131 becomes negative. Pressure.
In this case, even if an infant or the like performs a peristaltic motion on the artificial nipple 110, the milk will not be properly spouted, and the baby 100 will be difficult to ingest.
Therefore, in the baby bottle 110 of the present embodiment, when the pressure inside the baby bottle main body 131 becomes negative, the pressure change causes the contact surface 118 in FIG. 3 to move downward.
FIG. 7 is a schematic cross-sectional view showing a state in which the contact surface 118 moves downward and outside air flows.
Thus, as shown in FIG. 7, the cap atmosphere C is communicated with the ventilation passage 119.
Further, the ventilation valve 117 in FIG. 3 is also deformed downward due to the pressure change, and the Y-shaped slit in FIG. 5 is opened.
Therefore, the external atmosphere that is the outside air of the baby bottle 100 is introduced into the cap atmosphere C via the ventilation passage 119 and the contact surface 118 in FIG. 7, and further introduced into the baby bottle main body 131 via the ventilation valve 117. .
In particular, since the artificial nipple 110 is formed of a member having low hardness, the contact surface 118 serving as the upper surface of the flange 115 and the ventilation valve 117 are deformed in response to the pressure drop of the container atmosphere B. An atmosphere can be introduced.
For this reason, the negative pressure in the baby bottle main body 131 is immediately released.
[0040]
As described above, even if the baby bottle 100 of the present embodiment has the soft nipple 110 having low hardness and softness, the inside of the baby bottle main body 131 is not under negative pressure, and milk does not become difficult to come out. Moreover, even if the inside of the baby bottle main body 131 has a positive pressure, the baby 100 is safe without milk leaking out of the baby 100.
[0041]
By the way, as shown in FIG. 3, in the baby bottle 100 of the present embodiment, a fixing projection 122 d for fixing the cap 120 to the flange 115 of the artificial nipple 110 is formed. A fixing recess 115 a for engaging with the fixing protrusion 122 d of the cap 120 is located on the flange 115 outside the ventilation valve 117 and the contact surface 118 along the outer periphery of the flange 115. It is formed as follows.
Accordingly, the artificial nipple 110 having a low hardness and being soft as described above functions to be fixed to the cap 120 together with the cap opening 122, the engaging projection 122a, and the engaging recess 116 described above.
That is, as shown in FIG. 3, since the flange 115 is fixed to the cap 120 at the inner peripheral portion and the outer peripheral portion of the flange 115 at the same time, the artificial nipple 110 can be more firmly attached to the cap 120.
Therefore, it is possible to more reliably prevent the artificial nipple 110 from falling off the cap 120 due to deformation or the like.
[0042]
As shown in FIG. 3, the fixing convex portion 122d of the cap 120 and the fixing concave portion 115a of the flange 115 correspond to the top surface 133 forming the baby bottle opening 132 and are disposed on the upper surface thereof.
That is, if the top surface 133 is arranged on the relatively strong top surface 133 instead of the baby bottle opening 132, the top surface 133 is strong. With the closing by 132a, the engagement between the fixing projection 12d and the fixing recess 115a is further strengthened, and the artificial nipple 110 can be more firmly fixed to the cap 120.
Therefore, it is possible to more completely prevent the artificial nipple 110 from dropping off the cap 120 due to deformation or the like.
[0043]
Further, each configuration of the above embodiment can be partially omitted, or can be changed to another arbitrary combination not described above.
[0044]
【The invention's effect】
As described above, according to the present invention, even when having a soft artificial nipple having a low hardness, the liquid does not become difficult to come out of the artificial nipple, and the liquid does not leak out of the baby. Can be provided.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a baby bottle according to an embodiment of the present invention.
FIG. 2 shows a part of a schematic central longitudinal sectional view of the baby bottle of FIG. 1;
FIG. 3 is a schematic enlarged view of a portion indicated by an arrow A in FIG. 2;
FIG. 4 is a schematic perspective view showing a ventilation valve and the like formed on a flange.
FIG. 5 is a schematic bottom view of the ventilation valve.
FIG. 6 is a schematic end view illustrating a section taken along line XX ′ of FIG. 3;
FIG. 7 is a schematic sectional view showing a state in which outside air flows.
[Explanation of symbols]
100 ... baby bottle, 110 ... artificial nipple, 111 ... ejection opening, 112 ... nipple, 113 ... nipple trunk, 114 ... groove, 115 ... flange, 115a .. Fixing recess, 116 engagement recess, 116a bottom rib, 116b L-shaped rib, 116c bottom recess, 117 vent valve, 118 contact surface, 119: ventilation passage, 120: cap, 121: screw groove, 122: cap opening, 122a: engagement projection, 122b: opening side surface, 122c: opening top surface , 122d: fixing protrusion, 130: baby bottle, 131: baby bottle body, 132: baby bottle opening, 132a: screw groove, 133: top surface, B.・ ・ Container atmosphere, C ・ ・ ・ Cap atmosphere.

Claims (6)

A container body for storing the liquid,
A container having a container opening for injecting a liquid into the container body,
A nipple body inserted into the mouth of an infant,
A flange portion disposed on the lower side of the nipple body and having an outer periphery substantially equivalent to the container opening portion,
It is arranged corresponding to the container opening side,
An engagement recess for accommodating and engaging an end of a cap portion for fixing to the container,
An artificial nipple made of an elastic member having a hardness of 5 to 30 degrees,
A cap opening through which the artificial nipple can be inserted,
Provided on the end portion side of the cap opening, and an engaging protrusion for engaging with the engaging recess of the artificial nipple, a baby device comprising a cap portion having:
The atmosphere in the container body is at least covered by the artificial nipple disposed with respect to the container opening,
In the artificial nipple, at least, a first ventilation control portion for allowing or preventing the container atmosphere in the container main body from being ventilated with a cap atmosphere formed by the artificial nipple and the cap portion,
At least a second ventilation control unit for venting or not venting the container atmosphere introduced into the cap atmosphere by the first ventilation control unit to the outside;
A ventilation securing section for ventilating the cap atmosphere communicated to the outside with the second ventilation adjusting section with the external atmosphere of the baby machine,
The second ventilation control section is configured to be in contact with or separated from the cap section,
The said ventilation securing part is comprised with the rib provided in the said engagement recessed part, The baby bottle characterized by the above-mentioned. The said 2nd ventilation control part is a structure which moves from the contact state with respect to the said cap part to a separation state, when the inside of the said container becomes a negative pressure, The baby container of Claim 1 characterized by the above-mentioned. The rib provided in the engagement concave portion of the artificial nipple is formed corresponding to each of the bottom surface portion, the side surface portion, and the top surface portion of the cap opening and / or the engagement convex portion of the cap portion,
The ribs corresponding to the upper surface portion and the side surface portions are connected to each other to form a substantially L-shaped L-shaped rib,
A plurality of the L-shaped ribs are arranged substantially in parallel,
The said rib corresponding to the said bottom part comprises a bottom rib, The baby bottle of Claim 1 or Claim 2 characterized by the above-mentioned. The first ventilation adjusting portion is constituted by a cutout portion,
The notch and the bottom rib are arranged so as to be continuous via the second ventilation adjusting part,
The width of each continuous portion of the bottom rib and the cutout portion is formed substantially equal,
The said plurality of L-shaped ribs arrange | positioned substantially parallel are formed with the space | interval of these L-shaped ribs longer than the width | variety of the said bottom rib, The baby bottle of Claim 3 characterized by the above-mentioned. A fixing convex portion for fixing to the flange portion of the artificial nipple is formed outside the second ventilation adjusting portion of the cap portion, and a fixing portion for engaging with the fixing convex portion is formed on the flange portion. 5. The nursing device according to claim 1, wherein a recess for use is formed. 6. The said fixing convex part and the said fixing concave part are formed corresponding to the top surface part which forms the said container opening part, The baby bottle of Claim 5 characterized by the above-mentioned.

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