CN212395410U - Flow regulator for sucking of feeding bottle - Google Patents

Abstract

The utility model discloses a flow regulator for sucking of a feeding bottle, which comprises a feeding bottle and a suction pipe, wherein one end of the suction pipe is positioned in the feeding bottle, the other end of the suction pipe is positioned outside the feeding bottle, the end part of the suction pipe positioned in the feeding bottle is connected with the flow regulator, the flow regulator comprises a flow channel, the flow channel is communicated with the suction pipe, an elastic part and a flow plug are arranged in the flow channel, the flow channel is a reducing channel, the elastic part pushes the flow plug to seal the flow channel in a natural state, the flow plug is moved by suction force from the suction pipe and compresses the elastic part during milk sucking, so that the flow channel is gradually opened, and liquid in the feeding bottle enters the suction pipe through the flow channel; the flow regulator for sucking the feeding bottle can automatically regulate the flow of milk according to the sucking condition of a baby, and avoids the conditions of milk choking caused by overlarge flow and difficult sucking caused by undersize flow.

Description

Flow regulator for sucking of feeding bottle

Technical Field

The utility model relates to a flow regulator for sucking of a feeding bottle, which belongs to the field of baby feeding bottles.

Background

In the process of feeding milk by using the feeding bottle in daily life of a baby, the baby is often choked because the flow of milk can not be automatically adjusted by a common feeding bottle, the milk in the feeding bottle can be dripped and leaked due to the inversion of the feeding bottle, meanwhile, in the process of continuous sucking and allowing of the baby, the air pressure in the bottle is reduced to form negative pressure, and the baby can not suck the milk for a long time. The existing method is to make the water outlet of the nipple very thin to reduce the flow of milk and slow down the milk leakage, but in this method, the flow of the outlet of the nipple is very small, the infant sucks and allows for a lot of effort, and only when the infant stops sucking, the air flows back slowly and enters the bottle, the time of the negative pressure of the feeding bottle is very long, the infant can not suck and allow continuously, the milk can not be sucked even for a small infant, and with the use of the feeding bottle, the nipple is bitten by the infant, the milk leakage is easy to occur, the time is too long, and the bad influence is caused to the physical and mental health of the infant.

In addition, the existing baby feeding bottle can be classified into a plastic, glass or silica gel feeding bottle, when milk is infused, hands are scalded due to overhigh temperature of the outer wall of the feeding bottle when the feeding bottle enters and exits, and the temperature of the feeding bottle cannot be observed visually, so that the feeding bottle can be drunk at overhigh or overlow temperature, the oral cavity of a baby is easily scalded, or the health of the baby is influenced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the flow regulator for sucking the feeding bottle can automatically regulate the flow of milk according to the sucking condition of a baby, prevent milk leakage when the feeding bottle is inverted, avoid milk choking of the baby and prevent scalding and display temperature so as to overcome the defects of the prior art.

The technical scheme of the utility model is that: a flow regulator for sucking a feeding bottle comprises the feeding bottle and a suction pipe, wherein one end of the suction pipe is positioned in the feeding bottle, the other end of the suction pipe is positioned outside the feeding bottle, the end part of the suction pipe positioned in the feeding bottle is connected with the flow regulator, the flow regulator comprises a flow channel, the flow channel is communicated with the suction pipe, a first elastic part and a flow plug are arranged in the flow channel, the flow channel is a reducing channel, the first elastic part pushes the flow plug to seal the flow channel in a natural state, the flow plug moves under the suction force from the suction pipe and compresses the first elastic part to gradually open the flow channel during milk sucking, and liquid in the feeding bottle enters the suction pipe through the flow channel;

the feeding bottle is characterized in that a detachable anti-scald ring pad is sleeved outside the middle of the feeding bottle, a display temperature sensing piece is arranged on the anti-scald ring pad, and the display temperature sensing piece is suitable for being in contact with the feeding bottle and displaying the temperature of the feeding bottle when the anti-scald ring pad is sleeved on the feeding bottle.

The flow regulator further comprises an air return channel, the air return channel is communicated with the suction pipe, a second elastic part and an air return plug are arranged in the air return channel, the air return channel is a diameter-variable channel, the second elastic part pushes the air return plug to seal the air return channel in a natural state, negative pressure is formed in the milk bottle when a milk sucking gap exists, the air return plug moves under the air pressure from the suction pipe and compresses the second elastic part, the air return channel is opened, and external air enters the milk bottle through the suction pipe and the air return channel.

The flow regulator comprises a valve core and a valve cover, the valve cover is detachably connected to the valve core, the flow channel and the air return channel are arranged on the valve core, a transfer channel is arranged on the valve cover, one end of the transfer channel is connected with the suction pipe, and the other end of the transfer channel is respectively communicated with the flow channel and the air return channel when the valve cover is assembled on the valve core.

The valve cover is provided with a first channel and a second channel respectively, the upper ends of the first channel and the second channel are communicated with the transfer channel, the lower ends of the first channel and the second channel extend to the end face of the valve cover, the first channel is communicated with the flow channel on the valve core in an aligning mode during assembly, and the second channel is communicated with the air return channel on the valve core in an aligning mode.

The inner diameter of the port of the flow channel is smaller than the diameter of the flow plug, one end of the first elastic piece is installed in the first channel during assembly, and the other end of the first elastic piece extends into the flow channel and pushes the flow plug to close the port of the flow channel.

The inner diameter of the assembly position of the air return channel is larger than that of the second channel, one end of the second elastic piece is arranged in the air return channel during assembly, and the other end pushes the air return plug to seal the port of the second channel.

The upper end of the valve core is provided with a notch, and the valve cover is detachably arranged in the notch.

The valve core is provided with a positioning hole, the valve cover is provided with a positioning hole in a matched mode, and the positioning pin is inserted into the positioning hole to achieve assembling and positioning of the valve cover and the valve core.

The display temperature sensing piece is a temperature sensing color changing body, a display opening is arranged on the scald preventing ring pad, and the temperature sensing color changing body is fixed on the display opening.

The temperature-sensitive color-changing body is a temperature-sensitive color-changing component or temperature-sensitive color-changing ink.

The utility model has the advantages that: the flow regulator for sucking the feeding bottle can automatically regulate the flow of milk according to the sucking condition of a baby, thereby avoiding the conditions of milk choking caused by overlarge flow and difficult sucking caused by undersize flow; in addition, the condition that the baby can not suck the milk due to negative pressure formed in the bottle can be prevented, so that the baby can be well nursed.

In addition, prevent scalding the effect that the ring pad can play and prevent scalding, show that the temperature sensing piece can play and measure the feeding bottle temperature, the effect of conveniently drinking.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of the middle flow regulator of the present invention;

fig. 3 is a cross-sectional view of the middle valve cover of the present invention;

fig. 4 is a top view of the valve core of the present invention;

FIG. 5 is a half sectional view of the valve cartridge of the present invention;

FIG. 6 is a schematic view of the anti-scald ring pad and the temperature-sensing piece of the present invention showing an angle;

FIG. 7 is a schematic view of the anti-scald ring pad and the temperature-sensing piece of the present invention showing another angle;

in the figure: 1, a valve core, 2, an air return channel, 3, a second elastic part, 4, an air return plug, 5, a first elastic part, 6, a flow channel, 7, a valve cover, 9, a first channel, 10, a torsion spring, 11, a transit channel, 12, a second channel, 13, a feeding bottle and 14 straws; 15 burn-proof ring pads, 16 temperature sensing pieces.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

referring to fig. 1, the flow regulator for feeding bottle sucking according to the present invention comprises a feeding bottle 13 and a suction tube 14, wherein one end of the suction tube 14 is located in the feeding bottle 13, the other end of the suction tube is located outside the feeding bottle 13, the end of the suction tube 14 located in the feeding bottle 13 is connected to the flow regulator, and when sucking, the liquid in the feeding bottle 13 enters the suction tube 14 from the flow regulator, and then is sucked.

Referring to fig. 2 to 5, the flow regulator includes a flow channel 7, one end of the flow channel 7 is connected to the suction tube 14, and the other end of the flow channel 7 is in contact with the liquid in the feeding bottle 13, a first elastic member 6 and a flow plug 5 are disposed in the flow channel 7, and the flow channel 7 is a variable diameter channel. In a natural state, the first elastic part 6 pushes the flow plug 5 to seal the flow channel 7, and at the moment, the milk bottle 13 is inverted and rotated in the space, and the milk bottle is thermally expanded in the bottle or the baby stops sucking milk, so that the effect of preventing the milk from dripping and leaking is achieved. When sucking milk, the flow plug 5 is moved by the suction force from the suction pipe 14 and compresses the first elastic member 6, so that the flow channel 7 is gradually opened, and the liquid in the feeding bottle 13 enters the suction pipe 14 through the flow channel 7.

The flow regulator also comprises an air return channel 2, one end of the air return channel 2 is communicated with the suction pipe 14, the other end of the air return channel 2 is contacted with liquid in the feeding bottle 13, a second elastic part 3 and an air return plug 4 are arranged in the air return channel 2, and the air return channel 2 is a reducing channel. Under the natural state, the second elastic part 3 pushes the air return plug 4 to seal the air return channel 2, the inside of the feeding bottle 13 is isolated from the outside air, so that excessive air is prevented from entering the bottle to oxidize milk, and the effect of preventing air from oxidizing milk is achieved. When the milk bottle 13 is in the milk sucking gap, negative pressure is formed in the milk bottle 13, the air return plug 4 moves under the air pressure from the suction pipe 14 and compresses the second elastic part 3, the air return channel 2 is opened, and outside air enters the milk bottle 13 through the suction pipe 14 and the air return channel 2, so that the internal pressure and the external pressure of the bottle are balanced in a dynamic manner, air is prevented from being sucked when an infant sucks milk, and the milk spitting prevention effect is achieved.

The flow regulator comprises a valve core 1 and a valve cover 8, wherein the valve cover 8 is detachably connected to the valve core 1, preferably, the upper end of the valve core 1 is provided with a notch, and the valve cover 8 is detachably arranged in the notch, for example, the valve cover 8 is locked and pressed in the notch by a torsion spring 10. The flow channel 7 and the air return channel 2 are arranged on the valve core 1, the valve cover 8 is provided with a transfer channel 11, one end of the transfer channel 11 is connected with a suction pipe 14, for example, the transfer channel 11 is in a conical structure and is in interference connection with the suction pipe 14, and the other end of the transfer channel is respectively communicated with the flow channel 7 and the air return channel 2 when the valve cover 8 is assembled on the valve core 1. Preferably, a first channel 9 and a second channel 12 are respectively arranged on the valve cover 8, the upper ends of the first channel 9 and the second channel 12 are communicated with the intermediate channel 11, the lower ends of the first channel 9 and the second channel 12 extend to the end surface of the valve cover 8, the first channel 9 is aligned and communicated with the flow channel 7 on the valve core 1 when the valve cover is assembled, and the second channel 12 is aligned and communicated with the return air channel 2 on the valve core 1.

Preferably, the inner diameter of the port of the flow channel 7 is smaller than the diameter of the flow plug 5, and when assembled, one end of the first elastic element 6 is installed in the first channel 9, and the other end extends into the flow channel 7 and pushes the flow plug 5 to close the port of the flow channel 7. The inner diameter of the assembly position of the air return channel 2 is larger than that of the second channel 12, one end of the second elastic element 3 is arranged in the air return channel 2 during assembly, and the other end pushes the air return plug 4 to close the port of the second channel 12. The first elastic member 6 and the second elastic member 3 are conventional elastic members such as springs.

For convenience of installation, positioning holes are formed in the valve core 1 and the valve cover 8, and the valve cover 8 and the valve core 1 are assembled and positioned by inserting positioning pins into the positioning holes.

The valve core 1 and the valve cover 8 of the flow regulator are made of conventional materials suitable for milk bottles, and preferably food-grade non-toxic silica gel. The flow plug 5 and the return air plug 4 are preferably spherical in shape.

Referring to fig. 6 and 7, a detachable anti-scald ring pad 15 is sleeved outside the middle portion of the feeding bottle, and it is worth mentioning that the anti-scald ring pad 15 is made of an elastic rubber material, such as silica gel, and after the anti-scald ring pad is sleeved on the middle portion of the feeding bottle, the anti-scald ring pad 15 can be fixed on the feeding bottle by means of its own elastic force. The scald-proof ring pad 15 can play a role in preventing scald.

In order to sense the temperature of the feeding bottle conveniently, the anti-scalding ring pad 15 is provided with a display temperature sensing piece 16, and when the anti-scalding ring pad 15 is sleeved on the feeding bottle, the display temperature sensing piece 16 is suitable for being in contact with the feeding bottle and displaying the temperature of the feeding bottle. Specifically, the anti-scalding ring pad 15 is provided with a display opening, the display temperature sensing piece 16 is fixed in the display opening, and when the display temperature sensing piece 16 senses the temperature of the feeding bottle, the measurement condition can be obtained from the display opening. Preferably, the display temperature-sensitive sheet 16 is a thermochromic material, and may be a thermochromic ink or a thermochromic ink, for example. The temperature-sensitive color-changing body is in a letter shape, a number shape, a character shape or a character shape, or a combination of the letter shape, the number shape, the character shape and the character shape. The temperature sensing color-changing body can be provided with temperature digital display and temperature range text explanation and indication. For example, the upper label is cold at 32-35 deg.C, drinking at 36-38 deg.C, and hot at 40-42 deg.C.

The display temperature sensing piece 16 is made of thermosensitive color-changing powder and thermosensitive color-changing ink, is very sensitive to temperature, is designed into a centigrade style, can enable a user to visually see the actually measured temperature, helps the user to accurately master the actual temperature of milk, and prevents the situation that the temperature of milk is inaccurately mastered to cause the infant to be scalded or the milk with low drinking temperature from influencing the health of the infant.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. A flow regulator for feeding bottle sucking comprising a feeding bottle (13) and a suction pipe (14), one end of the suction pipe (14) being located in the feeding bottle (13) and the other end being located outside the feeding bottle (13), characterized in that:

the end part of a suction pipe (14) in the feeding bottle (13) is connected with a flow regulator, the flow regulator comprises a flow channel (7), the flow channel (7) is communicated with the suction pipe (14), a first elastic part (6) and a flow plug (5) are arranged in the flow channel (7), the flow channel (7) is a variable-diameter channel, in a natural state, the first elastic part (6) pushes the flow plug (5) to close the flow channel (7), when milk is sucked, the flow plug (5) is moved by suction force from the suction pipe (14) and compresses the first elastic part (6), so that the flow channel (7) is gradually opened, and liquid in the feeding bottle (13) enters the suction pipe (14) through the flow channel (7);

feeding bottle middle part overcoat is equipped with detachable prevents scalding ring pad (15) prevent being equipped with on scalding ring pad (15) and show temperature-sensing piece (16) prevent scalding ring pad (15) cover and establish when on the feeding bottle, show temperature-sensing piece (16) be suitable for with the feeding bottle contact shows its temperature.

2. The flow regulator for baby bottle sucking according to claim 1, characterized in that: the flow regulator further comprises an air return channel (2), the air return channel (2) is communicated with the suction pipe (14), a second elastic part (3) and an air return plug (4) are arranged in the air return channel (2), the air return channel (2) is a variable diameter channel, in a natural state, the second elastic part (3) pushes the air return plug (4) to seal the air return channel (2), negative pressure is formed in the milk bottle during a milk sucking gap, the air return plug (4) moves under the air pressure from the suction pipe (14) and compresses the second elastic part (3), the air return channel (2) is opened, and external air enters the milk bottle (13) through the suction pipe (14) and the air return channel (2).

3. The flow regulator for baby bottle sucking according to claim 2, characterized in that: the flow regulator comprises a valve core (1) and a valve cover (8), wherein the valve cover (8) is detachably connected to the valve core (1), a flow channel (7) and an air return channel (2) are arranged on the valve core (1), a transfer channel (11) is arranged on the valve cover (8), one end of the transfer channel (11) is connected with a suction pipe (14), and the other end of the transfer channel is respectively communicated with the flow channel (7) and the air return channel (2) when the valve cover (8) is assembled on the valve core (1).

4. The flow regulator for baby bottle sucking according to claim 3, characterized in that: the valve cover (8) is provided with a first channel (9) and a second channel (12) respectively, the upper ends of the first channel (9) and the second channel (12) are communicated with the transfer channel (11), the lower ends of the first channel (9) and the second channel (12) extend to the end face of the valve cover (8), the first channel (9) is communicated with the flow channel (7) on the valve core (1) in an aligning mode during assembly, and the second channel (12) is communicated with the air return channel (2) on the valve core (1) in an aligning mode.

5. The flow regulator for baby bottle sucking according to claim 4, characterized in that: the inner diameter of a port of the flow channel (7) is smaller than the diameter of the flow plug (5), one end of the first elastic piece (6) is installed in the first channel (9) during assembly, and the other end of the first elastic piece extends into the flow channel (7) and pushes the flow plug (5) to close the port of the flow channel (7).

6. The flow regulator for baby bottle sucking according to claim 4, characterized in that: the inner diameter of the assembly position of the air return channel (2) is larger than that of the second channel (12), one end of the second elastic part (3) is arranged in the air return channel (2) during assembly, and the other end pushes the air return plug (4) to seal the port of the second channel (12).

7. A flow regulator for feeding bottle sucking according to any of claims 3 to 6, characterized in that: the upper end of the valve core (1) is provided with a notch, and the valve cover (8) is detachably arranged in the notch.

8. A flow regulator for feeding bottle sucking according to any of claims 3 to 6, characterized in that: the valve core (1) is provided with a positioning hole, the valve cover (8) is provided with a positioning hole in a matched mode, and the positioning pin is inserted into the positioning hole to achieve assembly positioning of the valve cover (8) and the valve core (1).

9. The flow regulator for baby bottle sucking according to claim 1, characterized in that: the display temperature sensing piece (16) is a temperature sensing color changing body, a display opening is arranged on the scald preventing ring pad (15), and the temperature sensing color changing body is fixed on the display opening.

10. The flow regulator for baby bottle sucking according to claim 9, characterized in that: the temperature-sensitive color-changing body is a temperature-sensitive color-changing component or temperature-sensitive color-changing ink.

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