KR20140114249A

KR20140114249A - Ilheyong tonggigan el gubihan geogbeng

Info

Publication number: KR20140114249A
Application number: KR1020130051927A
Authority: KR
Inventors: 조효준
Original assignee: 조효준
Priority date: 2013-03-18
Filing date: 2013-05-07
Publication date: 2014-09-26

Abstract

Provided is an air permeable baby bottle especially reducing stomach troubles of a baby for a baby bottle or a straw cup, which uses a fine disposable tube (so called straw) having both sides opened and discarded after once used as a vent tube for a ventilation method to complete the function of ventilation to simplify the structure of the baby bottle, reduce the number of parts, be easily washed, and obtain convenience of being easily assembled.

Description

{ILHEYONG TONGGIGAN EL GUBIHAN GEOGBENG}

The present invention relates to a breathable bottle or a straw cup that prevents the colic of a baby. More particularly, the present invention relates to a breathable bottle that allows the inside of a bottle to communicate with the atmosphere simply by replacing the bottle with a fine disposable tube (aka drinking straw).

Generally, a bottle is equipped with a vent tube to prevent the baby from having a colic

However, the vent pipe has a complicated structure and a large number of parts, the airtightness is not perfect, and assembly and cleaning are inconvenient.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above problems by using a fine disposable tube (a so-called straw) which is opened on both sides and used once,

The present invention relates to a method of manufacturing a bottle or a straw cup, comprising the steps of: drilling a through hole for allowing the inside of the bottle and the atmosphere to communicate with any part of the bottle body or the bottle cap or the nipple; a fine disposable tube And connecting the tube to the hole to solve the above problems.

The present invention utilizes a disposable tube that once uses a vent tube in a breathable bottle or straw cup

Production cost reduction - Bottle body is a simple structure that does not require structural changes or separate parts.

Economy - The cost of using disposable tubes is currently around 15 won, which is rather economical compared to the cost of water and sewage charges used for cleaning the complicated structure or parts of existing ventilation pipes after breastfeeding and frequently sterilizing .

Environmental friendliness - It is environmentally friendly to dispose of disposable tubing after recycling and dispose of disposable tubes compared to the cost of sewage and sewage generation and disinfection, and the use of artificial disinfectant.

Reduced Labor - It is very difficult to assemble the ventilator parts to existing bottles or to sterilize them after use.

However, it is convenient to simply use this disposable tube and to separate it after feeding

Safety - Existing vent pipes must be cleaned inside the vent pipe, so that the inside diameter of the vent pipe must be constant, so that leakage of liquid contents inside is not safe. However, the use of disposable tubes makes the inner diameter narrower, and does not affect the length, shape, or curvature.

Hygienic - If the structure is complicated and there are many parts, washing or disinfection is not complete.

① nipple
② Bottle Cap
③ Bottle body
④ Air
⑤ Tube (disposable fine tube)
⑥ Through hole
⑦ Projection (stopper)
⑧ Lower part of nipple
⑨ Fastening part (hollow projecting part)

The present invention relates to a ventilator of a bottle or straw cup. Described below as a bottle.

In a bottle

In a conventional bottle having a bottle main body, a nipple part, and a bottle cap for connecting the bottle main body and the nipple part,

A through hole for communicating the atmosphere with the inside of the bottle, and a fine disposable tube disposed outside the bottle and open at both sides,

And one end of the tube is connected and coupled. That is, the atmosphere air and the inside of the bottle communicate with each other through the inside of the tube.

1, the through hole will be described in detail.

The through hole for communicating the atmosphere with the inside of the bottle is formed in either the nipple portion, the bottle cap, or the bottle body,

Regardless of the size of the tube. Further, the shape of the hole may be a hole or slit shape of various shapes. An integral, hollow projecting protrusion directed into or out of the bottle can be formed for tight coupling with the tube in the hole.

2, the fine ventilation tube will be described in detail.

The tube is disposable for use once and discarded and has a fine inner diameter of about 1 mm. The above-mentioned fine inner diameter of 1 mm is a numerical value for enhancing the understanding of the present invention on the shape and operation of the fine tube, but the numerical value is not limited or limited in the present invention. This can vary depending on the size of the nipple hole, the size of the bottle, the length of the tube, and the degree of flexion.

The tube coupled to the hole is disposed inside or outside the bottle, one end is coupled to the hole and the other end is directed away from the hole

It can be straight or diagonal. The tube may also be straight, but preferably has a shape bent more than once. The curved shape includes a certain angle or a gentle curvature. It is preferable that at least one of both ends of the tube or the middle part of the tube is always positioned on the bottle level when the bottle is bent or bent more than once. The tube length can also be adjusted

At this time, one end of the tube is preferably closest to the inner bottom of the bottle. Also, the tube may have a shape in which one end of each end is closed by closing one end of the tube.

At this time, when one end of the tube is closed,

Thereby forming a through hole. In addition, the diameter and the shape of the tube may differ from one end to the other. Further, the shape of the tube may be a T shape or a cross shape, and the tube may be a stretchable material. The tube may also be circular or polygonal. In addition, the whole or a part of the tube may be squeezed to form a thin two-layer film. At this time, the film may be flexible. Further, a protruding stopper may be formed on a certain portion of the outer surface of the tube.

4, a method of combining the hole and the tube will be described.

- fitting one end of the tube into the hole

When the hole is formed at the upper end of the bottle cap, a hole is formed in the flat portion of the nipple portion abutting the hole, and then one end of the tube is inserted into the two holes and the tube can be screwed

- forming a hollow, integrally hollow protrusion in said hole for a more rigid coupling to join one end of said tube to said protrusion. The protrusions can also be directed inside the bottle or outside the bottle.

In this case, when the outer circumferential surface of the tube is fitted to the inner circumferential surface of the protrusion, a stopper protruding from a certain portion of the outer surface of the tube may be formed. Further, the inner circumferential surface of the tube can be fitted to the outer circumferential surface of the protruding portion. The projection and the tube can also be screwed together.

(Refer to FIG. 1)

The bottle neck 5, the nipple 1, the vent tube 6, the bottle cap 4, the through-hole 2 formed in the bottle cap, the through-hole and the vent tube 6 The vent tube 6, which is connected to the fastening part 3 in the feeding bottle and the straw cup, which is integrally formed with the bottle cap and has a hollow protruding fastening part 3, is a fine disposable tube having both open sides. One end of the tube is connected to the other end of the tube and the other end is bent down to the lower part of the bottle body and is bent toward the upper part of the bottle so that the tube is closed above the water level of the contents of the bottle.

In Example 1)

To learn more about how to use it

A. Milk is put on the bottle.

B. One end of the V-shaped tube is connected to the bottled bottle lid fastening part

C. Screw the bottle bottle and bottle cap.

This is as shown in FIG. 1 of Embodiment 1).

That is, the outside air and the inside of the bottle communicate with each other, but the connected tube has an air tunnel without liquid contents. Therefore, even if the bottle is upside down or tilted, the contents of the liquid can not easily flow out.

Since the passage of the connected tube is narrow, long and curved, and an air tunnel is initially formed, even when the tube is tilted or inverted, the inside of the bottle becomes a weak vacuum state when the contents of the liquid are filled at the end of the tube, There is little

(FIG. 2)

In the above-described embodiment 1), the end of the tube closed at the upper part of the bottle body is bent and extended to the bottom of the bottle body and closed at the bottom of the bottle body.

This is as shown in Fig. 2

This form improves the airtightness of the bottle and does not cause air bubbles when tilted or inverted. Air bubbles do not occur and oxidation of milk and destruction of vitamins can be prevented, which is a preferred embodiment. Further, the tube may be integrally formed, and the straight tube may be formed with wrinkles to form a curvature.

The tube can also be made in the form of a double film. See the picture below.

Further, the length of the air tunnel of the tube can be shortened as long as airtightness is maintained. In other words, '

'.

(FIG. 3)

In Example 1), the vent tube is connected to the nipple in the same manner as connecting the vent tube to the bottle cap

That is, a hole is formed in a part of the nipple and the fastening part is integrally formed with the nipple, and then the ventilation tube is connected to the fastening part (FIG. 3)

(FIG. 4)

In Example 3), the end of the tube closed at the top of the bottle body is bent and extended to the bottom of the bottle body and closed at the bottom of the bottle body.

Therefore, as shown in Fig. 4

(FIGS. 5-1 and 5-2)

A through hole is formed in any one of the sides of the bottle to form a fastening part, and then the vent tube is connected.

(FIG. 5-1), a through hole is formed at the upper part of the bottle body (upper than the bottle water level in the bottle), a fastening part is formed, and one end of the ventilation tube is connected. The other end is bent outside the bottle, do.

(Figure 5-2), a through hole is formed in the lower part of the bottle body to form a fastening part, and one end of the aeration tube is connected, and the other end is bent outward from the bottle to extend toward the upper part of the bottle,

(Figure 6-1), (Figure 6-2)

(Figure 5-1), the vent tube end

And is closed at the upper side of the upper water level

(Figure 5-2), the vent tube end

And is closed at the bottom of the bottom of the bottle body

(FIG. 7)

A through hole is formed in the bottom of the bottle body to form a fastening part. One end of the ventilation tube is connected to the fastening part, and the other end is extended toward the upper part of the bottle body, but is bent at the bottom of the bottle bottom.

Referring to FIG. 8,

A through hole is formed on the side of the bottle cap or the upper side of the bottle body (any one above the bottle contents) so as to form a fastening portion, and then one end of the ventilation tube is connected to the bottle.

(FIG. 9)

A through hole is formed in the lid of the nipple or bottle to form a fastening part, and one end of the ventilation tube is connected to the fastening part and the other end is extended to the bottom of the bottle main body, but is bent at the bottom bottom of the bottle main body, .

Referring to FIG. 10,

A through hole is formed in the bottom of the bottle body to form a fastening part. One end of the ventilation tube is connected to the fastening part, and the other end is extended toward the upper part of the bottle body, but is bent and bent laterally from the upper part of the bottle water level.

(See FIG. 11)

Detailed description omitted

See the above example.

Detailed description omitted

See above example

Detailed description omitted

See above example

Detailed explanation omitted

See above example

Detailed explanation omitted

See above example

Detailed explanation omitted

See above example

(FIG. 17)

A through hole is formed in either one of the nipple or the bottle cap to form an integrally formed fastening part, and both ends of the V-shaped vent tube are connected. Place a hole or sheath at the lowest bottom of the vent tube.

Detailed explanation omitted

See above example

conclusion,

The features of the present invention have been described briefly up to Examples 1) to 18)

Again, the greatest feature of the present invention is the use of a disposable, fine tube that once uses a vent tube in a bottle or straw cup.

Therefore, it is possible to smooth the diameter, length, bending and deformation of the tube because no washing is required.

In addition, air can be easily distributed even if the tube is thin, long, narrow or curved, but the contents of the liquid phase are limited by the thickness, length, narrowness, The air is circulated even if the bottle is inverted or tilted, but the contents of the liquid phase are difficult to pass through the inside of the tube.

The above-mentioned bending of the tube includes not only bending by giving an angle but also gently bending in a circular shape.

So the tube Starting from the shape, it can be variously shaped to bend more than once.

FIG. 19, FIG. 20, FIG. 21, and FIG. 22 are embodiments according to the present invention. Detailed description omitted. Is another embodiment of the same apparatus as the above embodiment

The bottles are provided with a through hole so that the inside of the bottles can communicate with the atmosphere at the upper part of the bottle neck, and the tube is connected to the hole.

&Lt; 23 > See the above embodiment.

24 is a film form in which a tube is compressed.

That is, two thin films are stacked, and an extremely fine air passage is formed between both films so that both ends of the tube communicate with each other. The film may also have flexibility.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be clear to those with knowledge

As another embodiment

<Fig. 25> will be described.

FIG. 25 is a view showing a state in which a through hole is formed in the plane portion of the nipple for communication between the atmosphere and the bottle, and a tube is connected to the hole. In detail, the groove of the nipple is drilled in a part of the plane portion of the nipple, and the groove of the nipple extending in the upper end of the hole and formed in the upper end of the nipple is moved in the circumferential direction. At some point, It comes down through the outer end.

That is, when the inner surface of the bottle top and the side surface of the flat portion of the nipple are closely contacted with each other, an air passage is formed along the groove between the two contact surfaces.

Here, the groove may be a spiral shape rather than a complete circle as shown in the drawing.

The length of the groove can be adjusted.

Also, although not shown in the figure, in the same manner as above, a groove may be formed in the inner surface of the bottle top in the same manner as described above to form an air passage.

As a result, the atmosphere and the inside of the bottle are ventilated by a normal method. When the bottle body, the nipple portion and the bottle cap are completely joined to each other, air in the atmosphere enters from the lower side of the side of the bottle cover to form a screw and a bottle cap And then enters the inside of the bottle through the hole along the groove to form airways in the tube

26 is a principle similar to Fig. 25.

FIG. 27 illustrates a tube connection unit integral with the main body so that the tube can be coupled to the bottle top.

FIG. 28 shows an annular air reservoir inside the bottled bottle as shown in the drawing.

As described above, FIGS. 25 to 28, which are still another embodiment of the present invention, can additionally form a separate long air tunnel in addition to the conventional embodiment shown in FIG. 1 to FIG. 24, Thereby further improving the function of the display device.

As described above, the air can be easily circulated even if the passage is narrow, long, narrow, or curved, but the contents of the liquid phase are not so, Thereby forming an air passage

In the invention of the previous <Figures 1 to 24, the air may enter the bottle and the tube may be bent once or more than twice in order to prevent the milk in the bottle from flowing out. However, To < FIG. 28 > may be effective.

Claims

In a conventional bottle having a bottle main body, a nipple part, and a bottle cap for connecting the bottle main body and the nipple part,
A through hole for communicating the atmosphere with the inside of the bottle, and a fine disposable tube disposed outside the bottle and open at both sides and bent at least once,
And one end of the tube is connected to the other end. That is, air in the atmosphere and the inside of the bottle communicate with each other through the inside of the tube.

A feeding bottle comprising a feeding bottle main body containing a milk powder liquid and a nipple portion coupled to the feeding bottle main body,
An inflow device is provided to allow the inside and the outside of the bottle to communicate with each other. The inflow device includes a disposable ventilation tube which is bent at least once and opened on both sides and which is discarded after a single use, and a nipple, Wherein the fastening part is formed so as to connect the ventilation tube to the through hole by inserting a predetermined through hole in the ventilation tube and connecting the ventilation tube to the fastening part so that the inside and the outside of the bottle are communicated with each other.

In claim 1
A hole is formed in a part of the bottle cap to form a hollow projecting part inside the bottle cover and then one end of the aeration tube is connected to the coupling part so that the end of the aeration tube comes close to the bottom surface of the bottle Characterized in that the end of the vent tube which is bent and closed to the upper part of the bottle body is always above the content level of the contents of the bottle body,

The breathable bottle according to claim 2, wherein the end of the ventilation tube is extended again, but is bent to extend to the bottom of the bottom of the bottle main body.

In claim 1
A predetermined hole is formed in any one of the bottom surfaces of the bottle body to form a fastening part for connecting the ventilation tube and then one end of the ventilation tube is inserted and connected, But extends again laterally beyond the full water level of the bottle contents

The method of claim 1, wherein a predetermined hole is formed in one of the bottom surfaces of the bottle body to form a fastening portion for connecting the ventilation tube, and after one end of the ventilation tube is inserted and connected to the other end of the ventilation tube, Extends upwardly from the inside of the main body, is bent again above the full water level of the contents of the bottle main body, extends to the bottom surface of the bottle main body, and is closed at the bottom.

In claim 1
A predetermined hole is formed in one side of the bottle body or the lid part to form a fastening part so that the ventilation tube can be connected to the fastening part and the tube is inserted into and connected to the outside of the bottle, And its position is located above the full water level of the contents of the bottle body, and the other end of the tube is bent to extend from the bottle outside the bottle body to the bottom of the bottle closest to the bottle body and close at the bottom

8. The method of claim 7, further extending the end of the tube upwardly

In claim 1
A through hole is formed in the bottle cap or nipple to form a hollow protruding connection part inside the bottle and then one end of the tube is inserted into the hole and the other end is lowered to the bottom of the bottle main body and bent at the bottom bottom, And the other end of the tube is connected to the hole after a through hole is formed in any one of the bottle cap or the nipple to form a fastening portion.
On the other hand, through holes or sheath holes are formed in the lowest part of the aeration tube for ventilation.