CN213251357U

CN213251357U - Double-exhaust anti-flatulence silica gel feeding bottle

Info

Publication number: CN213251357U
Application number: CN202021200672.4U
Authority: CN
Inventors: 张猛
Original assignee: Guangzhou Shengyuan Youbei Plastic Rubber Product Co ltd
Current assignee: Shaoguan Shengyuan Youbei Rubber And Plastic Products Co ltd
Priority date: 2020-06-26
Filing date: 2020-06-26
Publication date: 2021-05-25
Anticipated expiration: 2030-06-26

Abstract

The utility model discloses a double-exhaust anti-flatulence silica gel feeding bottle, which comprises a bottle body, a nipple, a connecting cover and an outer cover, wherein the outer cover covers the connecting cover; a first through hole with a one-way valve is formed at the edge of the nipple close to the connecting cover; a second through hole with a valve body is formed in the bottom of the outer wall of the bottle body; when feeding, the first through-hole is rotated to the top relative to the milk outlet of the nipple, and the central axis of the second through-hole forms an included angle of 0-15 degrees with the longitudinal section of the first through-hole. When the feeding bottle is poured to feed a child, all milk flows to the front part of the valve body, and the rear part in the bottle body is in a liquid-free state. Along with child inhales the milk, the atmospheric pressure at the rear portion in the bottle reduces for in the external air emits into the bottle through the second through-hole, and first through-hole is in the state of closing owing to receive the pressure effect of milk, and then makes external gas can not stir milk through first through-hole entering bottle in and produce the milk bubble, thereby guarantees that child can not inhale the air and produce the problem of flatulence.

Description

Double-exhaust anti-flatulence silica gel feeding bottle

Technical Field

The utility model relates to a feeding bottle, in particular to a double-exhaust anti-flatulence silica gel feeding bottle.

Background

The feeding bottle is an indispensable tool for the baby to drink the milk powder. The existing milk bottle is provided with an air hole at the edge of a nipple. In the process of drinking milk, outside air is discharged into the feeding bottle so as to ensure that the air pressure in the feeding bottle is in a normal state. However, the existing air holes are formed in the nipple, when milk is fed, the milk easily submerges the air holes, and particularly when the amount of brewed milk powder reaches the upper limit of the milk bottle, the air entering the air holes can continuously stir the milk, so that the milk can generate a lot of milk bubbles. In the process of sucking milk by the baby, the milk foam is easy to be sucked into the stomach together, so that the problem of long stomach distension of the baby occurs.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simple structure, do not have milk bubble and convenient to use's double exhaust prevents flatulence silica gel feeding bottle to above-mentioned problem.

The purpose of the utility model can be achieved by adopting the following technical scheme:

a double-exhaust anti-flatulence silica gel feeding bottle comprises a bottle body, a nipple, a connecting cover and an outer cover, wherein the nipple is detachably arranged on an opening at the upper end of the bottle body through the connecting cover, and the outer cover can be opened or covered on the connecting cover to seal the nipple between the connecting cover and the outer cover; a first through hole with a one-way valve is formed at the edge of the nipple close to the connecting cover; a second through hole with a valve body is formed in the bottom of the outer wall of the bottle body; when feeding, the first through hole is rotated to the uppermost position relative to the milk outlet of the nipple, and the included angle between the central axis of the second through hole and the longitudinal section of the first through hole is 0-15 degrees; and the second through hole is provided with a sealing cover which can be opened or closed.

As a preferable scheme, the valve body comprises a flexible valve seat and a flexible valve core, an annular groove is formed in the outer wall of the valve seat, and a third through hole is formed in the central axis; the valve seat is sleeved in the second through hole, the inner wall of the second through hole is clamped in the annular groove, and the valve seat is connected with the second through hole in a sealing mode; the flexible valve core comprises two movable sheets which are oppositely arranged in the third through hole, and when the pressure in the bottle body is reduced, the two movable sheets swing back to open the third through hole.

As a preferred scheme, the sealing cover is provided with a connecting belt, and two ends of the connecting belt are respectively fixedly connected with the sealing cover and the bottle body.

As a preferred scheme, the nipple is made of a silica gel material.

As a preferable scheme, the connecting band is made of a silicone material.

As a preferred scheme, the bottle body is made of PU materials.

As a preferred scheme, the valve body is made of a silica gel material.

Implement the utility model discloses, following beneficial effect has:

1. the utility model discloses when empting the feeding bottle and suckleing for child, the milk is whole to flow to the front portion of valve body, and the rear portion in the bottle is in no liquid milk state this moment. Along with child inhales the milk, the atmospheric pressure at the rear portion in the bottle reduces for in the external air emits into the bottle through the second through-hole, and first through-hole is in the state of closing owing to receive the pressure effect of milk, and then makes external gas can not stir milk through first through-hole entering bottle in and produce the milk bubble, thereby guarantees that child can not inhale the air and produce the problem of flatulence. When the second through hole is blocked, the outside air can be automatically discharged into the bottle body through the first through hole, and then the milk can be smoothly sucked into the mouth of the child.

2. In order to prevent the valve body from being in an open state due to failure, the sealing cover is covered on the second through hole before milk is infused; because the central axis of second through-hole and the contained angle of the longitudinal section of first through-hole are 0 to 15 degrees, so when empting the feeding bottle and begin to feed milk for child, external air gets into in the bottle through first through-hole, can push open sealed lid and open the second through-hole through thumb or the forefinger of the palm of taking the bottle this moment for external air passes through the second through-hole and discharges into in the bottle, and first through-hole is closed owing to the pressure effect that receives milk, and then makes external gas can not mix milk and produce the milk bubble in getting into the bottle through first through-hole.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the double-exhaust anti-flatulence silica gel feeding bottle of the utility model.

Fig. 2 is a partially enlarged view of a portion a of fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1 and 2, the present embodiment relates to a double-exhaust anti-flatulence silica gel nursing bottle, which comprises a bottle body 1, a nipple 2, a connecting cover 3 and an outer cover 4, wherein the nipple 2 is detachably mounted on an opening at the upper end of the bottle body 1 by the connecting cover 3, and the outer cover 4 can be opened or covered on the connecting cover 3 to seal the nipple 2 between the connecting cover 3 and the outer cover 4; a first through hole 21 with a one-way valve is arranged at the edge of the nipple 2 close to the connecting cover 3; a second through hole 11 with a valve body 10 is formed in the bottom of the outer wall of the bottle body 1; when feeding, the first through hole 21 is rotated to the uppermost position relative to the milk outlet of the nipple 2, and the included angle between the central axis of the second through hole 11 and the longitudinal section of the first through hole 21 is 0-15 degrees. The second through hole 11 is provided with a sealing cover 12 which can be opened or closed.

When the feeding bottle is poured to feed a child, milk all flows to the front part of the valve body 10, and the rear part in the bottle body 1 is in a milk-free state. Along with child inhales milk, the atmospheric pressure at rear portion in the bottle 1 reduces for in external air discharges into bottle 1 through second through-hole 11, and first through-hole 21 is in the state of closing owing to receive the pressure effect of milk, and then makes external gas can not stir milk through first through-hole 21 entering bottle 1 in and produce the milk bubble, thereby guarantees that child can not inhale the air and produce the problem of flatulence. When the second through hole 11 is blocked, the outside air can be automatically discharged into the bottle body 1 through the first through hole 21, so that the milk can be smoothly sucked into the mouth of the child.

In order to prevent the valve body 10 from being in an open state due to failure, the sealing cover 12 is covered on the second through hole 11 before milk is infused; because the central axis of the second through hole 11 and the longitudinal section of the first through hole 21 form an included angle of 0 to 15 degrees, when the baby bottle is poured and begins to feed milk to the child, the outside air enters the bottle body 1 through the first through hole 21, at the moment, the sealing cover 12 can be pushed open by a thumb or an index finger of a palm holding the bottle body 1 to open the second through hole 11, so that the outside air is discharged into the bottle body 1 through the second through hole 11, the first through hole 21 is closed under the pressure action of milk, and the outside air cannot enter the bottle body 1 through the first through hole 21 to stir the milk to generate milk bubbles.

As shown in fig. 2, the valve body 10 includes a flexible valve seat 101 and a flexible valve core 102, an annular groove 103 is formed on the outer wall of the valve seat 101, and a third through hole 104 is formed at the central axis; the valve seat 101 is sleeved in the second through hole 11, the inner wall of the second through hole 11 is clamped into the annular groove 103, and the valve seat 101 is connected with the second through hole 11 in a sealing mode; the flexible valve core 102 includes two movable plates 105 oppositely disposed in the third through hole 104, and when the pressure in the bottle body 1 is reduced, the two movable plates 105 swing back to open the third through hole 104. When the bottle is installed, the valve seat 101 is inserted into the second through hole 11, and the annular groove 103 clamps the wall of the bottle body 1 to hermetically connect the valve seat 101 and the bottle body 1. In a normal state, the two movable pieces 105 are pressed against each other to close the third through hole 104, and similarly, when the milk in the bottle body 1 acts on the two movable pieces 105, the two movable pieces 105 are pressed against each other by the pressure of the feeding bottle to close the third through hole 104. Only when drinking milk, the pressure in the bottle body 1 is reduced, and the outside air pushes the two movable pieces 105 through the third through hole 104 to open the third through hole 104, so that the outside air is discharged into the bottle body 1.

The sealing cover 12 is provided with a connecting belt 13, and two ends of the connecting belt 13 are respectively fixedly connected with the sealing cover 12 and the bottle body 1.

In order to ensure the safety of the nipple 2 and prevent the nipple 2 from releasing harmful substances when the nipple 2 is contacted with boiled water, the nipple 2 is made of a silica gel material. The valve body 10 is made of silica gel.

The connecting band 13 is made of silica gel. Of course, the connecting strap 13 may also be a rope, and the rope is made of nylon material.

The bottle body 1 is made of PU material. Of course, other food grade materials that do not release harmful substances after being resistant to temperatures in excess of 110 degrees are also suitable for the bottle body 1.

The above disclosure is only a preferred embodiment of the present invention, and certainly should not be taken as limiting the scope of the invention, which is defined by the claims and their equivalents.

Claims

1. A double-exhaust anti-flatulence silica gel feeding bottle is characterized by comprising a bottle body, a nipple, a connecting cover and an outer cover, wherein the nipple is detachably arranged on an opening at the upper end of the bottle body through the connecting cover, and the outer cover can be opened or covered on the connecting cover to seal the nipple between the connecting cover and the outer cover; a first through hole with a one-way valve is formed at the edge of the nipple close to the connecting cover; a second through hole with a valve body is formed in the bottom of the outer wall of the bottle body; when feeding, the first through hole is rotated to the uppermost position relative to the milk outlet of the nipple, and the included angle between the central axis of the second through hole and the longitudinal section of the first through hole is 0-15 degrees; and the second through hole is provided with a sealing cover which can be opened or closed.

2. The dual-exhaust anti-flatulence silica gel feeding bottle according to claim 1, wherein the valve body comprises a flexible valve seat and a flexible valve core, an annular groove is formed in the outer wall of the valve seat, and a third through hole is formed in the central axis; the valve seat is sleeved in the second through hole, the inner wall of the second through hole is clamped in the annular groove, and the valve seat is connected with the second through hole in a sealing mode; the flexible valve core comprises two movable sheets which are oppositely arranged in the third through hole, and when the pressure in the bottle body is reduced, the two movable sheets swing back to open the third through hole.

3. The dual-exhaust anti-flatulence silica gel feeding bottle according to claim 2, wherein the sealing cover is provided with a connecting belt, and two ends of the connecting belt are respectively fixedly connected with the sealing cover and the bottle body.

4. The dual exhaust anti-flatulence silica gel feeding bottle of claim 3, wherein the nipple is made of silica gel material.

5. The dual exhaust anti-flatulence silica gel feeding bottle of claim 4, wherein the connecting band is made of silica gel.

6. The dual-exhaust anti-flatulence silica gel feeding bottle according to claim 5, wherein the bottle body is made of PU material.

7. The dual exhaust anti-flatulence silica gel feeding bottle of claim 6, wherein the valve body is made of silica gel material.