CN112043603A - Anti-choking feeding bottle - Google Patents

Abstract

The invention relates to an anti-choking nursing bottle, which comprises a bottle body, a cover body and a rubber head; the bottle body comprises a bottle neck, a bottle bottom and a bottle body with a variable shape; the bottle body is provided with a plurality of shaping pipes, the upper pipe ends of the shaping pipes are closed, and the lower pipe ends of the shaping pipes extend to the bottom of the bottle and are communicated with a flow guide channel arranged at the bottom of the bottle; an adjusting cylinder is arranged in the bottle body, an adjusting column is arranged in the adjusting cylinder in a sliding mode, and adjusting liquid is filled in the closed space; when the feeding bottle is placed, the adjusting column slides downwards, the shaping pipe deforms and stretches under pressure and bends outwards, and the bottle body protrudes outwards and the volume of the bottle body is increased; when the feeding bottle is placed upside down, the adjusting column slides upwards, the shaping tube has the tendency of deformation shortening and restoring to the original long and straight state, the bottle body is compressed flat, and the volume of the bottle body is reduced; by adopting a unique structure and a brand new design, the generation of bubbles during air return is effectively reduced, and the milk choking and spitting probability is effectively reduced.

Description

Anti-choking feeding bottle

Technical Field

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

Background

The feeding bottle is one of the necessary articles for nursing babies, and comprises a bottle body, a cover body, a rubber head and other parts, wherein the rubber head is provided with a nipple convenient for sucking and an air return hole convenient for air return; when in use, the liquid level of the milk liquid is enabled to be over the nipple and not over the air return hole, so that the milk liquid can be easily and smoothly sucked by the baby, and the air pressure in the bottle body is balanced; however, the baby is always in a lying position or a half lying position in the sucking process, and even a slightly larger baby sucks the baby in a way that the rubber head inclines downwards and the bottle bottom is upwards; at the moment, the milk fills the whole rubber head, and the nipple and the air return hole are simultaneously blocked; in the sucking process, milk flows out of the nipple, and outside air enters the bottle body from the air return hole and needs to pass through the milk, so that a large amount of air bubbles are mixed in the milk, the swallowing function of a baby is not developed completely, the situations of cough, milk choking and the like are easy to occur after the milk mixed with the air bubbles is sucked, the normal feeding of the baby is influenced, and the situations of milk spitting and milk entering the lung are caused in serious situations; therefore, the existing milk bottle has a plurality of defects and hidden dangers.

Disclosure of Invention

Aiming at the problems, the invention provides the anti-choking feeding bottle which adopts a unique structure and a brand new design, effectively reduces the generation of bubbles during air return, avoids the air suction of a baby during milk drinking, thereby effectively reducing the probability of choking and spitting milk and effectively improving the safety and the use experience of the feeding bottle.

An anti-choking nursing bottle comprises a bottle body, a cover body and a rubber head; the rubber head is provided with a nipple;

the bottle body comprises a bottle neck, a bottle bottom and a bottle body with a variable shape;

the bottle body is provided with a plurality of shaping pipes, the upper pipe ends of the shaping pipes are closed, and the lower pipe ends of the shaping pipes extend to the bottom of the bottle and are communicated with a flow guide channel arranged at the bottom of the bottle; the bottle body is made of a flexible material, and the shaping pipe is made of an elastic material;

an adjusting cylinder is arranged in the bottle body, one end of the adjusting cylinder, which is far away from the bottle bottom, is plugged by a gas-liquid guiding sealing sheet, and one end of the adjusting cylinder, which is close to the bottle bottom, is communicated with the flow guide channel;

an adjusting column is arranged in the adjusting cylinder in a sliding mode, and the adjusting column can slide back and forth along the axis direction of the adjusting cylinder and keeps liquid seal with the inner wall of the adjusting cylinder; the shaping pipe, the flow guide channel, the adjusting cylinder and the adjusting column form a closed space with variable volume, and the closed space is filled with adjusting liquid;

when the feeding bottle is placed, the adjusting column slides towards the lower end of the adjusting cylinder, the adjusting liquid is pressed into each shaping tube, and the shaping tubes are deformed and stretched under pressure and are bent outwards, so that the bottle body protrudes outwards, and the volume of the bottle body is increased; when the feeding bottle is placed upside down, the adjusting column slides towards the upper end of the adjusting barrel, the adjusting liquid in the shaping pipe is sucked and returned into the adjusting barrel, the shaping pipe has the tendency of deformation shortening and restoring the original long and straight state, and the bottle body is enabled to be flat and the volume of the bottle body is reduced.

The relevant content in the above technical solution is explained as follows:

1. the shaping pipe can be a separately designed conduit, and the specific arrangement position can be embedded in the bottle body or arranged on the inner wall or the outer wall of the bottle body; in addition, the shaping pipe can also be designed to be integrally formed with the bottle body, so that the production steps are simplified; when the shaping pipe is integrally formed and designed, the shaping pipe can be a hollow pipeline arranged inside the bottle body.

2. The flexible material and the elastic material are various common materials, such as a soft material commonly used in the milk bottle, and can be one or more of a soft rubber material, an elastic silica gel material, a flexible plastic material and the like.

The term "liquid seal" means that liquid cannot pass through the contact gap to achieve a sealing effect; "air-conducting liquid seal" means that air can pass through but liquid cannot flow through due to surface tension, capillary effect, etc.

4. When the feeding bottle is used for air return, a special air return hole can be formed in the rubber head, and the structure is the same as that of a common rubber head; the air return hole can only allow air to enter the bottle body, and milk cannot flow out through the air return hole; in addition, air can be returned through the nipple, namely the rubber head is only provided with the nipple and is not provided with an independent air return hole; however, when the traditional feeding bottle returns air through the nipple, a large amount of milk is generated in the milk, which causes milk choking of the baby; therefore, the traditional feeding bottle can not save the air return hole structure.

The feeding bottle is placed upside down, and the feeding bottle is placed in a vertical upside down mode and in an inclined mode at a certain angle.

Preferably, a hollow pipeline is arranged in the bottle body to form a shaping pipe; so as to realize the design of integrally forming the shaping tube and the bottle body and effectively simplify the production steps and the production process.

Preferably, the shaping pipes are distributed at equal intervals in the circumferential direction of the bottle body, and each shaping pipe extends along the direction parallel to the axis of the bottle body; so as to form a cage-shaped structure taking the axis of the bottle body as the central line, thereby facilitating the symmetrical deformation of the bottle body in all directions.

Preferably, the shaping tubes are rotationally and symmetrically distributed in the circumferential direction of the bottle body, and each shaping tube extends along the direction obliquely crossed with the axis of the bottle body; so as to form a spiral cage-shaped structure taking the axis of the bottle body as the center.

Preferably, the scales of the feeding bottle are marked on the outer cylinder surface of the adjusting cylinder; compare in the bottle, the size of adjusting a section of thick bamboo is less, and the scale of mark on it covers the most of adjusting a section of thick bamboo circumference, and the milk volume is observed from each angle that can be convenient, need not the scale that the rotatory feeding bottle of user observed the body to promote and use experience.

The principle and advantages of the invention are as follows:

when the feeding bottle is placed, the adjusting column slides towards the lower end of the adjusting cylinder, the adjusting liquid is pressed into each shaping pipe, the shaping pipes are deformed and stretched under pressure and are bent outwards, the bottle body protrudes outwards, the volume of the bottle body is increased, and more milk can be conveniently brewed at one time; meanwhile, water poured into the bottle body can promote the bottle body to protrude outwards, the bottle body with the protruding part has a larger caliber, the dissolving speed of milk powder can be increased after the milk powder is poured, and the brewing speed is effectively increased.

When the baby drinks, the feeding bottle is in an inverted state, the adjusting column slides towards the upper end of the adjusting cylinder at the moment, the adjusting liquid in the shaping pipe is sucked back into the adjusting cylinder, and the shaping pipe has the tendency of deformation shortening and recovery to the original long and straight state, so that the bottle body is compressed flat, and the volume of the bottle body is reduced; therefore, in the process of drinking milk by the baby, as the milk is continuously reduced, the bottle body is synchronously flattened, and the volume of the bottle body is reduced, so that the air pressure in the feeding bottle is kept balanced with the outside, the low pressure of the feeding bottle caused by the reduction of the milk is effectively avoided, the outside air is prevented from entering the feeding bottle, the generation of bubbles in the process of drinking milk is effectively prevented, and the milk choking is further avoided; when the baby drinks milk, the adjusting column slides to the lower end of the adjusting cylinder when the bottle body is placed right at the gap between the baby and the baby, at the moment, the volume of the bottle body is increased, outside air is supplemented into the bottle body in time, but milk flows back to the bottom of the bottle, and air entering the bottle body cannot generate bubbles.

In conclusion, in the process of feeding the baby with milk, the feeding bottle can not generate negative pressure, air can not enter the feeding bottle, and air bubbles can not be generated in milk, so that milk choking is effectively avoided; air is supplemented in time when the milk bottle is placed in the gap between the milk and the milk bottle, so that the air pressure in the bottle body and the outside air is kept balanced all the time, and bubbles in the milk are prevented from being generated again; therefore, the invention has good choking effect; in addition, the shape and the size of the bottle body are variable, and the feeding bottle has a smaller size when being placed upside down in an empty state, so that the feeding bottle is convenient to carry and store; because no air bubble is generated when the nipple is used, the rubber head can be provided with only one nipple, the design of an air return hole is omitted, normal air return can be met, no air bubble is generated, and the production process is greatly simplified; the opening of the air return hole is omitted, the integrity of the rubber head can be further guaranteed, cleaning and sterilization are convenient, bacteria are effectively prevented from being attached and bred at the air return hole, and the feeding bottle is healthier to use.

Drawings

FIG. 1 is a schematic structural view of a feeding bottle according to an embodiment of the present invention.

FIG. 2 is a schematic structural view of the baby bottle according to an embodiment of the present invention when the baby bottle is placed upside down.

Fig. 3 is a schematic structural view of another arrangement of sizing tubes in an embodiment of the invention.

Detailed Description

The invention is further described with reference to the following figures and examples:

example (b): referring to fig. 1 and 2, an anti-choking nursing bottle includes a bottle body, a cap body 1 and a rubber head 2; the rubber head 2 is provided with a nipple 21 without an air return hole;

the bottle body comprises a bottle neck 3, a bottle bottom 5 and a bottle body 4 with a variable shape; the bottle body 4 is made of elastic silica gel materials, and a hollow pipeline is arranged in the bottle body 4 to form a shaping pipe 41; the shaping pipes 41 are distributed on the circumference of the bottle body at equal intervals, each shaping pipe 41 extends along the direction parallel to the axis of the bottle body, the upper pipe end of each shaping pipe 41 is closed and extends to the bottle neck 3, and the lower pipe end of each shaping pipe 41 extends to the bottle bottom 5 and is communicated with the flow guide channel 51 arranged at the bottle bottom 5;

the bottle neck 3 is detachably connected and fixed with the cover body 1, an adjusting cylinder 6 is arranged in the bottle body, the adjusting cylinder 6 is coaxially arranged with the bottle body, and scales for recording the milk volume are marked on the outer cylinder surface of the adjusting cylinder 6; one end of the adjusting cylinder 6, which is far away from the bottle bottom 5, is blocked by a gas-liquid guiding sealing sheet 61, and one end of the adjusting cylinder 6, which is close to the bottle bottom 5, is communicated with the flow guide channel 51;

an adjusting column 62 is arranged in the adjusting cylinder 6 in a sliding mode, and the adjusting column 62 can slide in the adjusting cylinder 6 in a reciprocating mode along the axial direction of the adjusting cylinder 6 and keeps liquid seal with the inner wall of the adjusting cylinder 6; the shaping pipe 41, the flow guide channel 51, the adjusting cylinder 6 and the adjusting column 62 form a closed space with variable volume, and the closed space is filled with adjusting liquid;

when the feeding bottle is placed, the adjusting column 62 slides towards the lower end of the adjusting cylinder 6, the adjusting liquid is pressed into each shaping tube 41, and the shaping tubes 41 are deformed and stretched under pressure and are bent outwards, so that the bottle body 4 protrudes outwards, and the volume of the bottle body is increased; when the feeding bottle is placed upside down, the adjusting column 62 slides towards the upper end of the adjusting cylinder 6, the adjusting liquid in the shaping tube 41 is sucked back into the adjusting cylinder 6, the shaping tube 41 has the tendency of deformation shortening and recovery to the original long and straight state, and the bottle body 4 is compressed flat and the volume of the bottle body is reduced; if no external sucking exists, the milk keeps the nipple 21, and when the external sucking exists, the milk can smoothly flow out.

The following explains the present embodiment:

in the milk drinking process, the air pressure in the milk bottle is gradually reduced along with the outflow of milk, so that an independent air return hole is formed in the traditional milk bottle, and air can conveniently enter the traditional milk bottle; because the baby always holds the feeding bottle for feeding, the feeding bottle is in an inverted state under most conditions, the air return hole is blocked by the milk, and a large amount of air bubbles are generated in the milk when air enters the feeding bottle, so that the baby is easy to choke; the principle that the air return hole can be omitted in the invention is as follows: when the baby drinks milk, the bottle body 4 can be synchronously and slowly deformed and flattened, so that the air pressure in the milk bottle is always kept balanced with the outside, and the outside air is effectively prevented from entering the milk bottle, thereby preventing the generation of bubbles; the invention returns air in the time of putting down the feeding bottle for rest in the gap between the milk and the baby, and the milk is positioned at the bottle bottom 5 in the time, the nipple 21 communicates the outside air and the bottle body, the air can be quickly supplemented, and no air bubbles are generated.

After the air return hole is omitted, the rubber head 2 has stronger integrity, is convenient for a user to clean and disinfect, and can effectively avoid bacteria from attaching and breeding at the air return hole, so that the rubber head 2 is cleaner and more sanitary; meanwhile, the production process of the rubber head 2 can be simplified, and the production cost is effectively reduced.

In general, the invention can realize the periodic air return of the feeding bottle, effectively avoid the air return in the process of drinking milk by the baby, thereby reducing the possibility of milk choking; the invention can maintain the balance between the air pressure in the bottle body and the outside when the baby drinks the milk, thereby not only ensuring no air bubbles, but also ensuring the milk to flow out smoothly and not causing resistance to the baby to suck; the air pressure of the bottle body can be quickly recovered in the gap between the infants for drinking milk, so that the next milk drinking is convenient; when the milk bottle is placed right, the bottle body 4 protrudes outwards and has a larger caliber area, so that the milk powder can be conveniently and quickly dissolved.

In addition to the above embodiments, the sizing tubes 41 on the bottle body 4 may be arranged in other ways, for example, the sizing tubes 41 are rotationally symmetrically distributed around the circumference of the bottle body, and each sizing tube 41 extends along a direction oblique to the axis of the bottle body, as shown in fig. 3; thereby forming a spiral cage-shaped structure taking the axis of the bottle body as the center; the appearance of the feeding bottle is more novel and unique, and can arouse the interest of infants.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. An anti-choking nursing bottle comprises a bottle body, a cover body and a rubber head; the rubber head is provided with a nipple; the method is characterized in that:

the bottle body comprises a bottle neck, a bottle bottom and a bottle body with a variable shape;

the bottle body is provided with a plurality of shaping pipes, the upper pipe ends of the shaping pipes are closed, and the lower pipe ends of the shaping pipes extend to the bottom of the bottle and are communicated with a flow guide channel arranged at the bottom of the bottle; the bottle body is made of a flexible material, and the shaping pipe is made of an elastic material;

an adjusting cylinder is arranged in the bottle body, one end of the adjusting cylinder, which is far away from the bottle bottom, is plugged by a gas-liquid guiding sealing sheet, and one end of the adjusting cylinder, which is close to the bottle bottom, is communicated with the flow guide channel;

an adjusting column is arranged in the adjusting cylinder in a sliding mode, and the adjusting column can slide back and forth along the axis direction of the adjusting cylinder and keeps liquid seal with the inner wall of the adjusting cylinder; the shaping pipe, the flow guide channel, the adjusting cylinder and the adjusting column form a closed space with variable volume, and the closed space is filled with adjusting liquid;

when the feeding bottle is placed, the adjusting column slides towards the lower end of the adjusting cylinder, the adjusting liquid is pressed into each shaping tube, and the shaping tubes are deformed and stretched under pressure and are bent outwards, so that the bottle body protrudes outwards, and the volume of the bottle body is increased; when the feeding bottle is placed upside down, the adjusting column slides towards the upper end of the adjusting barrel, the adjusting liquid in the shaping pipe is sucked and returned into the adjusting barrel, the shaping pipe has the tendency of deformation shortening and restoring the original long and straight state, and the bottle body is enabled to be flat and the volume of the bottle body is reduced.

2. The anti-choking baby bottle of claim 1, wherein: a hollow pipeline is arranged in the bottle body to form a shaping pipe.

3. The anti-choking baby bottle of claim 1 or 2, wherein: the shaping pipes are distributed on the periphery of the bottle body at equal intervals, and each shaping pipe extends along the direction parallel to the axis of the bottle body.

4. The anti-choking baby bottle of claim 1 or 2, wherein: the shaping pipes are rotationally and symmetrically distributed in the circumferential direction of the bottle body, and each shaping pipe extends along the direction obliquely crossed with the axis of the bottle body.

5. The anti-choking baby bottle of claim 1, wherein: the scales of the feeding bottle are marked on the outer barrel surface of the adjusting barrel.

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