CN109394548B

CN109394548B - Milk bottle

Info

Publication number: CN109394548B
Application number: CN201811494509.0A
Authority: CN
Inventors: 伍婉婉
Original assignee: Zhejiang Xier Technology Co Ltd
Current assignee: Zhejiang Xier Technology Co Ltd
Priority date: 2018-12-07
Filing date: 2018-12-07
Publication date: 2024-04-05
Anticipated expiration: 2038-12-07
Also published as: CN109394548A; WO2020113868A1

Abstract

The application discloses feeding bottle, including body, nipple, separator, valve piece, start-stop button, connecting pipe and screw cap. The bottle body is provided with a first chamber; the nipple has a second chamber; the partition piece is arranged between the bottle body and the nipple and separates the first chamber from the second chamber, the partition piece is provided with a through hole, and the through hole is communicated with the first chamber and the second chamber; the valve sheet is arranged on one side of the separating piece, which is close to the bottle body, and is stuck to one side of the through hole so as to seal the through hole; the opening and closing key corresponds to the through hole and is used for pushing the valve sheet to open the through hole; one end of the connecting pipe stretches into the first chamber, the other end stretches into the second chamber, one end of the connecting pipe stretching into the second chamber is provided with a connecting pipe one-way valve, and the flowing direction controlled by the connecting pipe one-way valve is that liquid flows from the first chamber to the second chamber. When the milk bottle is used, the milk bottle is inverted, the opening and closing button opens the through hole, so that the second cavity is filled with milk, and the infant can drink the milk at the first opening when drinking the milk, thereby avoiding the inhalation of air and avoiding the occurrence of flatulence.

Description

Milk bottle

Technical Field

The invention relates to the technical field of infant products, in particular to a feeding bottle.

Background

Existing feeding bottles generally contain two states:

a milk bottle for adult to feed infant in person, generally comprising a bottle body, a nipple, a screw cap, a dust cover, etc.; in the feeding process of adults to infants, the milk bottle must keep a certain inclination, the nipple must be downward, milk can fill up the nipple part, and infants can drink milk smoothly (as shown in fig. 1-1); if the feeding bottle is horizontally placed or reversely inclined and the nipple is upwards, no milk exists in the nipple, the infant can not suck the milk, and only the air in the feeding bottle can be sucked, too much air can be sucked into the stomach to form flatulence, and further the phenomenon of milk spitting occurs due to the flatulence, so that the health of the infant is very unfavorable (as shown in the accompanying figures 1-2/1-3).

Another milk bottle which is self-holding and self-sucking for infants generally comprises a bottle body, a nipple, a screw cap, a silica gel straw with a gravity ball, straw blades and the like, wherein the milk bottle is directly communicated with the nipple and the bottle body through the silica gel straw. When an infant uses the nipple and the suction tube, because the nipple and the suction tube have air, the infant can drink the air in the nipple and the silica gel suction tube before drinking the first mouth, and then the milk can be sucked into the suction tube and the nipple under the action of atmospheric pressure, so that the infant can drink the milk; in the gap of the infant drinking, when the mouth of the infant leaves the nipple, milk originally existing in the nipple can flow back into the bottle body of the feeding bottle through the silica gel suction tube due to self gravity, so that the infant can drink the nipple and the air in the suction tube repeatedly when drinking again, and then the infant can drink the milk again; thus, the infant can drink excessive air into the stomach to form flatulence, and the phenomenon of milk regurgitation caused by the occurrence of the flatulence is very unfavorable for the health of the infant (as shown in figure 2).

Disclosure of Invention

Aiming at the problems, the invention overcomes at least one defect, provides a feeding bottle, prevents infants from sucking air when drinking milk, and avoids the occurrence of flatulence.

The technical scheme adopted by the invention is as follows:

a feeding bottle, comprising:

a bottle body having a first chamber;

the nipple is arranged at one end of the bottle body through a screw cap and is provided with a second cavity, and an opening of the second cavity is opposite to an opening of the first cavity;

the separating piece is arranged between the bottle body and the nipple and separates the first cavity from the second cavity, and is provided with a through hole which is communicated with the first cavity and the second cavity;

the valve piece is arranged on one side of the partition piece, which is close to the bottle body, and is stuck to one side of the through hole so as to seal the through hole; a connecting pipe is arranged in the middle of the valve sheet, one end of the connecting pipe stretches into the first chamber, the other end of the connecting pipe stretches into the second chamber, one end of the connecting pipe stretches into the second chamber is provided with a connecting pipe one-way valve, the flow direction controlled by the connecting pipe one-way valve is that liquid flows from the first chamber to the second chamber, and one end of the connecting pipe stretches into the first chamber is used for connecting a silica gel straw with a gravity ball; and

the opening and closing button is arranged on the nipple and corresponds to the through hole of the partition piece and is used for pushing the valve to open the through hole.

In an embodiment of the present invention, the separator includes a sheet-shaped base, the through holes penetrate the base, and the number of the through holes is one or more.

In an embodiment of the invention, the partition further includes a mounting portion extending from the edge of the base portion toward the bottle body, and the mounting portion is annularly disposed.

In an embodiment of the present invention, the partition is provided with a mounting hole penetrating through the base, the valve plate is mounted on the partition through the mounting hole by a connecting pipe portion thereof, a flange is provided at an end of the connecting pipe portion extending into the second chamber, and the flange is clamped on one side of the partition, so that the whole valve plate is fixedly mounted on the partition.

In an embodiment of the invention, the valve plate is in a sheet structure, one side of the valve plate is provided with a mounting sleeve, and the inside of the mounting sleeve is communicated with the inside of the connecting pipe and is used for mounting a silica gel suction pipe with a gravity ball.

In an embodiment of the invention, the connecting pipe one-way valve is a wave valve or a V-valve.

In one embodiment of the invention, the periphery of the valve plate is designed with an annular plane edge with a certain thickness for sealing the through hole of the partition piece, so as to prevent milk in the nipple from flowing back into the feeding bottle in a free state.

In one embodiment of the present invention, the valve plate is made of silica gel material or other soft material that can contact food.

In an embodiment of the present invention, the opening and closing key includes a cylindrical opening portion, and a free end of the opening portion extends into the through hole of the partition.

In an embodiment of the present invention, the opening and closing button further includes an umbrella-shaped connection portion, wherein a top end of the connection portion is connected with the opening and closing button, and a bottom end of the connection portion is connected with the nipple.

Compared with the prior art, the invention has the beneficial effects that: when the feeding bottle is used, the feeding bottle is turned over, so that the nipple part faces downwards, the bottle body faces upwards, then the opening and closing key on the nipple is pressed, the opening and closing key pushes the edge of the valve piece open, so that the through hole of the partition piece is opened, the first cavity of the bottle body is communicated with the second cavity of the nipple, milk flows into the second cavity of the nipple until the second cavity is filled, then the opening and closing piece is loosened, the edge of the valve piece is reset, the through hole is closed, and then the feeding bottle is used for infants to drink milk by themselves; because the second chamber of the nipple is filled with milk, the infant drinks milk rather than air when drinking the first port. Then, as the milk in the second chamber is continuously sucked away, the milk in the first chamber is replenished into the second chamber through the silica gel suction pipe with the gravity ball and the connecting pipe one-way valve, so that the second chamber is always filled with the milk. In addition, in the gap for drinking milk, after the mouth of the infant leaves the nipple, as the edge of the valve sheet blocks the through hole of the partition piece, milk in the second chamber cannot flow back to the first chamber from the through hole, and the valve sheet is provided with a connecting pipe one-way valve, milk in the second chamber cannot flow back to the first chamber from the connecting pipe, so that the second chamber of the nipple is always filled with milk; therefore, when the infant drinks the milk again, the infant drinks the milk all the time, but does not drink the air, thereby avoiding the occurrence of flatulence and further solving the problem of milk regurgitation caused by the flatulence.

Drawings

FIGS. 1-1, 1-2 and 1-3 are schematic views of a prior art baby bottle;

FIG. 2 is a schematic view of another prior art feeding bottle;

FIG. 3 is a perspective view of an embodiment of the feeding bottle of the present invention;

FIG. 4 is a schematic cross-sectional view of an embodiment of the feeding bottle of the present invention;

FIG. 5 is a schematic cross-sectional view of an embodiment of a nipple of the feeding bottle of the present invention;

FIG. 6 is a schematic cross-sectional view of an embodiment of a separator of the feeding bottle of the present invention;

FIG. 7 is a schematic cross-sectional view of an embodiment of the valve and connecting tube of the feeding bottle of the present invention;

FIG. 8 is a schematic cross-sectional view of an embodiment of the body of the baby bottle of the present invention.

Detailed Description

The technical scheme of the invention is clearly and completely described below by means of specific embodiments in combination with the accompanying drawings.

Referring to fig. 3-8, the present invention provides a feeding bottle, comprising: the bottle body 1, the nipple 2, the screw cap 9, the separating piece 3, the valve piece 4, the opening and closing button 5 and the silica gel straw 8 with the gravity ball.

The body 1 has a first chamber 101 for storing milk.

The screw cap 9 is fixed to the body 1 by engaging with the screw 102 of the mouth portion of the body by the screw structure 901 provided in the interior thereof. The screw cap 9 may be any known screw cap structure, and the present invention will not be described in detail.

The nipple 2 is installed in the screw cap 9, and is installed at one end of the bottle body 1 through the screw cap 9. The nipple 2 has a second chamber 201, and the opening of the second chamber 201 is disposed opposite to the opening of the first chamber 101.

A partition 3 is provided between the body 1 and the nipple 2 to separate the first chamber 101 from the second chamber 201. The partition 3 is provided with a through-hole 301, which through-hole 301 communicates the first chamber 101 and the second chamber 201.

The valve sheet 4 is arranged on one side of the partition piece 3 close to the bottle body 1, and the edge 401 of the valve sheet is attached to one side of the through hole 301 so as to seal the through hole 301; a connecting pipe 402 is arranged in the middle of the valve sheet 4, one end of the connecting pipe 402 extends into the first chamber 101, and the other end extends into the second chamber 201; one end of the connecting tube 402 extending into the second chamber 201 of the nipple 2 is provided with a connecting tube one-way valve 403, the flow direction controlled by the connecting tube one-way valve 403 is that liquid flows from the first chamber 101 to the second chamber 201, and one end of the connecting tube 402 extending into the first chamber 101 is used for connecting a silica gel straw 8 with a gravity ball.

The on-off button 5 is provided on the nipple 2 corresponding to the through hole 301 for pushing the edge 401 of the valve sheet 4, thereby opening the through hole 301.

In use, the feeding bottle 1 is turned over firstly so that the nipple 2 faces downwards and the bottle body 1 faces upwards, then the start-stop button 5 is pressed, the start-stop button 5 moves towards the valve piece 4 to push the edge 401 on the valve piece 4, so that the through hole 301 on the separation piece 3 is opened, milk flows into the second chamber 201 of the nipple 2 from the first chamber 101 through the through hole 301 under the action of gravity until the second chamber 201 is filled, the start-stop button 5 is loosened, the edge 401 of the valve piece 4 resets to close the through hole 301, and then the feeding bottle is fed to infants to drink milk. Thereafter, as the milk in the second chamber 201 of the nipple 2 is continuously sucked away, the milk in the first chamber 101 of the bottle body 1 passes through the silicone suction tube 8 with the gravity ball, the connection tube 402 of the valve sheet 4 and the connection tube check valve 403 is opened by flushing, thereby being replenished into the second chamber 201 of the nipple 2, so that the second chamber 201 is always filled with milk due to the pressure difference. Moreover, after the infant's mouth leaves the nipple 2 in the interval of drinking milk, because the edge 401 of the valve piece 4 blocks the through hole 301 of the separation piece 3, the milk in the second chamber 201 of the nipple 2 can not flow back to the first chamber 101 from the through hole 301, and the valve piece 4 is provided with the connecting pipe one-way valve 403, and the milk can not flow back to the first chamber 101 of the feeding bottle 1 from the connecting pipe 402 of the valve piece 4, therefore, when the infant drinks milk again, the infant drinks the milk all the time until the infant drinks the milk in the feeding bottle, the infant can not drink air all the time, thereby avoiding the occurrence of flatulence caused by the infant drinking excessive air into the stomach, and further solving the problem of milk regurgitation caused by flatulence.

The separator 3 includes a sheet-like base 31, and the through hole 301 penetrates the base 31. The valve sheet 4 can seal the through hole 301 by being abutted against one side of the partition piece 3, and has a very simple structure and is convenient to detach, install and clean. Further, the valve 4 is made of a silica gel material or other soft materials which can be contacted with food. The silica gel or other soft materials which can be contacted with food have certain elasticity and can bear certain weight, the opening and closing key 5 applies certain force to the edge 401 of the valve sheet 4 to push the edge 401 to deform, so that the through hole 301 is opened, the applied force is removed, and the edge 401 of the valve sheet 4 can automatically reset to close the through hole 301.

The number of through holes 301 of the separator 3 is one or more. The present invention does not limit the number of through holes 301.

The partition 3 further includes a mounting portion 32 extending from the edge of the base 31 toward the body 1, and the mounting portion 32 is annularly provided. The mounting part 32 has a simple structure and is convenient to mount, and when in use, the partition 3 can be arranged in the opening of the bottle body 1, and the mounting part 32 is clamped at the opening of the bottle body 1. Specifically, the opening of the bottle body 1 is provided with a fixing step 11, the mounting part 32 is provided with a fixing flange 321 matched with the fixing step 11, the fixing flange 321 is clamped on the fixing step 11, and when the bottle body is assembled, the fixing flange 321 can be blocked by the fixing step 11 only by mounting the mounting part 32 of the partition 3 into the opening of the bottle body 1, so that the partition 3 is prevented from falling into the bottle body 1. When the bottle body 1 is disassembled, the bottle body is turned over to enable the opening to face, and the partition piece 3 automatically falls down under the action of gravity. The separating piece 3 is convenient to assemble and disassemble and easy to clean.

The separator 3 is preferably made of a rigid plastic.

The partition 3 is provided with a mounting hole 310 penetrating the base 31, and the connection pipe 402 of the valve sheet 4 is mounted on the partition 3 through the mounting hole 310. The end of the connecting tube 402 extending into the first chamber 101 is provided with a flange locking position 404, and the flange locking position 404 is locked on one side of the mounting hole 310 of the partition 3, so that the valve plate 4 is firmly mounted on the partition 3.

The valve sheet 4 is of a sheet structure, a connecting pipe 402, a connecting pipe one-way valve 403 and a flange clamping position 404 are designed in the middle, a mounting sleeve 405 capable of mounting a silica gel suction pipe 8 with a gravity ball is arranged at the bottom, and the periphery is an edge 401.

One side of the valve piece 4 is provided with a mounting sleeve 405, and the inside of the mounting sleeve 405 is communicated with the inside of the connecting pipe 402 and is used for mounting a silica gel suction pipe 8 with a gravity ball. When the nipple 2 is used, the silica gel suction pipe 8 with the gravity ball is arranged in the installation sleeve 405, the inside of the silica gel suction pipe 8 is communicated with the inside of the connection pipe 402, liquid in the first chamber 101 of the bottle body 1 can enter the connection pipe 402 from the suction pipe 8, pass through the connection pipe one-way valve 403 from the connection pipe 402, and finally enter the second chamber 201 of the nipple 2. The silica gel suction tube 8 with the gravity ball 81 can be selected for the silica gel suction tube 8, so that the tail end of the silica gel suction tube 8 is always under the liquid level, and the infant can drink milk when the feeding bottle is at any inclination angle during feeding.

The connecting pipe check valve 403 may be a wave valve (as shown in fig. 7) or a V-valve, which is not limited in the present invention.

The opening and closing button 5 comprises a columnar opening part 51, and when in use, the free end of the opening part 51 stretches into the through hole 301 of the separation sheet 3. Only the opening part 51 is pressed, a certain pushing force can be applied to the edge 401 of the valve sheet 4 to push the edge 401 to deform, so that the through hole 301 of the separation sheet 3 is opened very conveniently. The column may be a cylinder or a taper column with a large upper part and a small lower part, and the invention is not limited thereto.

The opening button 5 further comprises an umbrella-shaped connecting part 52, the top end of the connecting part 52 is connected with the opening part 51, and the bottom end of the connecting part 52 is connected with the nipple 2. The umbrella-shaped connecting part 52 enables the opening part 51 of the opening and closing key 5 to be pressed and reset more easily, so that the operation of opening the through hole 301 is simpler and more convenient. Further, the opening and closing button 5 and the nipple 2 are of an integral structure.

The feeding bottle also comprises a handle which is detachably arranged on the bottle body 1 and is convenient to hold. The feeding bottle further comprises a dust cover, wherein the dust cover is arranged on the outer side of the nipple 2, and the nipple 2 is kept clean.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover all equivalent structures as modifications within the scope of the invention, either directly or indirectly, as may be contemplated by the present invention.

Claims

1. A feeding bottle, comprising:

a bottle body having a first chamber;

the separating piece is arranged between the bottle body and the nipple and separates the first cavity from the second cavity, and is provided with a through hole which is communicated with the first cavity and the second cavity; the separator comprises a sheet-shaped base, wherein the through holes penetrate through the base, and the number of the through holes is one or more;

the valve piece is arranged on one side of the partition piece, which is close to the bottle body, and is stuck to one side of the through hole so as to seal the through hole of the partition piece; a connecting pipe is arranged in the middle of the valve sheet, one end of the connecting pipe stretches into the first chamber, the other end of the connecting pipe stretches into the second chamber, one end of the connecting pipe stretches into the second chamber is provided with a connecting pipe one-way valve, the flow direction controlled by the connecting pipe one-way valve is that liquid flows from the first chamber to the second chamber, and one end of the connecting pipe stretches into the first chamber is used for connecting a silica gel straw with a gravity ball; the opening and closing button is arranged on the nipple and corresponds to the through hole of the partition piece and is used for pushing the valve piece to open the through hole; the connecting pipe one-way valve is a wave valve or a V-shaped valve; the partition is provided with a mounting hole penetrating through the base part, the valve sheet is mounted on the partition through the mounting hole by a connecting pipe part, one end of the connecting pipe part extending into the second cavity is provided with a flange, and the flange is clamped on one side of the partition;

the valve piece is sheet structure, valve piece one side is equipped with the installation cover, and this installation cover is inside to communicate with the connecting pipe is inside for the silica gel straw of installation area gravity ball.

2. The feeding bottle of claim 1, wherein the divider further comprises a mounting portion extending from the base edge in the direction of the body, the mounting portion being annularly disposed.

3. The feeding bottle of claim 1, wherein the valve flap has an annular planar edge at its periphery for sealing the through hole of the partition to prevent milk in the nipple from flowing back into the feeding bottle in a free state.

4. The feeding bottle of claim 1, wherein said valve sheet is made of a silicone material or other soft material that can be contacted by food.

5. The feeding bottle of claim 1, wherein the on-off button comprises a cylindrical opening portion, and a free end of the opening portion extends into the through hole.

6. The feeding bottle of claim 5, wherein said on-off button further comprises an umbrella-shaped connecting portion, the top end of which is connected to the opening portion, and the bottom end of which is connected to the nipple.