KR20110011489A - A bottle - Google Patents

Abstract

PURPOSE: A bottle is provided to prevent the restoration force after being compressed in order to minimize the volume of an empty volume while maintaining the strength thereof during movement. CONSTITUTION: A container for liquids has a bottle-type main body(120) with an inner surface formed into a convex shape by means of a plurality of guides(121) wound spirally to enable the liquid contents in the bottle-type container to swirl toward an outlet in the neck of the bottle to be discharged. The plurality of guides are equipped with one or more cores which serve as a reinforcement for maintaining the main body of the bottle-type container formed by the plurality of upright guides.

Description

Courage {A BOTTLE}

The present invention relates to a container for containing liquid contents, and more particularly to the stable discharge of the contained liquid contents, as well as the upright strength is maintained intact in the flow of the received fluid through the angled guide having a bending point, and discarded It is related to a container having a shape structure that minimizes the restoring force after compression as the lower bending point is compressed to be folded into the upper bending point when compressed for.

Currently, containers made of various materials are used as containers for drinking water such as bottled water, cola, liquor, and liquid foodstuffs. Examples of such containers include paper bottles, PET bottles, glass bottles, and metal (aluminum can) bottles. There is this.

Among these containers, PET bottles have less gas permeation than conventional containers, so they can be stored for a long time without deterioration of their contents, do not break even when dropped into a filled state, and do not cause debris even when forcibly broken by physical external force. It is widely used because it provides the advantages of light weight and convenient movement and storage compared to the bottle.

Conventional PET bottle having the above advantages, the bottleneck part and the outlet to form a screw thread that can be fastened with a lid for airtightness, and the body portion extending to the bottleneck portion to store the contents, and is stored Production is made in various sizes and designs depending on the contents.

In the case of discharging the contents from such a conventional PET bottle, it may be inclined to a container such as a cup or drink directly by the consumer.

In this case, the contents stored in the body portion may not be naturally discharged, but may be suddenly discharged due to excessive pressure, thereby causing problems such as when the contents are splashed or spilled out of the container.

In particular, when the consumer drinks directly, it may cause a problem of contaminating clothes or the surroundings with a pretend.

In addition, in the case of a blank PET bottle is very large, it is difficult to process a large amount, or there was a problem that must be provided with a separate device that can reduce the volume.

Accordingly, the present invention has been made to solve the above conventional problems, the object of the present invention is to stand up to the stable discharge of the contained liquid contents, as well as the flow of the received fluid through the angled guide having a bending point. It is to provide a container of a shape structure in which the strength is maintained as it is, and when the lower bending point is compressed to be folded into the upper bending point when compressed for disposal, the restoring force after the compression can be minimized.

The present invention for achieving the above object, in the container containing the liquid contents, the bottle body is part or all of the inner circumferential surface is convex shape so that the discharge is induced while the accommodated liquid contents are rotated toward the outlet of the bottleneck portion. It is formed of a plurality of guides are wound in a spiral, wherein the plurality of guides, when viewed by cutting the bottle body vertically, one guide shape is an angled shape of ">" or "<", one The outermost center point c of the horizontal centerline with respect to the guide is formed in one of rounded or angular forms, and an upper bend point a is formed at an upper portion of the length extending from the outermost center point c. On the contrary, the lower bent point (c) is formed at the lower portion of the position extending length relative to the outermost center point (c), the flow of the fluid contained therein Discloses a container which is characterized by a structure formed of the upright strength is maintained.

Preferably, the guides have different extension lengths between upper and lower bending points (a) and lower bending points (b) respectively formed on the upper and lower sides with respect to the outermost center point (c) so that the corresponding positions are staggered. It is formed, the upper length (ac) connecting the upper bending point (a) and the outermost center point (c) is longer than the lower length (bc) connecting the lower bending point (b) and the outermost center point (c), Since the inner angle of the lower bending point (b) is larger than that of the upper bending point (a), the lower bending point (b) having a larger cabinet angle during bending for compression is bent toward the upper bending point (a) having a smaller cabinet angle. As it is compressed into a folded shape, the restoring force after compression is minimized.

Preferably, the plurality of guides are formed in any one of a round shape having a curved surface of the inner circumferential surface, which is a connection point between the guides, a cut surface having a vertically cut shape, and a probe shape having a sharp shape.

The plurality of guides are configured as one of shapes in which the spirally wound lines are increased evenly by 2 lines based on four, and the progressing rotation direction is formed in one of a clockwise direction and a counterclockwise direction. Do.

Preferably, the container is more preferably any one of a paper bottle, a PET bottle, a metal bottle, and a glass bottle.

Another embodiment of the present invention for achieving the above object is, in the container containing the liquid contents, the bottle body of the inner circumferential surface so that the discharge is induced while the accommodated liquid contents are rotated toward the outlet of the bottleneck portion It is formed of a plurality of guides which are partially or entirely convex and spirally wound, wherein the plurality of guides, each of the guide shape is ">" or "<" when viewed by cutting the bottle body vertically The outermost center point (c) of the horizontal center line with respect to one guide has a binary shape and is rounded or formed in one of an angular form, and is bent downward only at the lower part of the length extending from the outermost center point (c). Point (b) is formed, the guide, the upper inner angle (x) formed based on the horizontal center line of the outermost center point (c) is horizontal of the lower bending point (b) It is formed larger than the lower inner angle (y) formed on the basis of the core wire, and the upper connection length (AC) to the connection point between the guide and the outermost center point (c) is the lower connection length to the connection point and the lower bending point (b) Since it is formed longer than AB), the lower bending point (b) is compressed to be folded upward when the waste is compressed so that the restoring force after compression is minimized, and the upright strength is maintained even in the flow of the fluid contained therein. Disclosed is a container characterized by being formed.

According to the container according to the present invention as described above, the upright strength is maintained even in the flow of the fluid received through the guide of the angled shape having each bending point to the upper and lower, the lower bending point at the time of compression for disposal Compression is performed by bending to the bending point, thereby restoring the restoring force after compression, thereby minimizing the volume of the empty bottle.

In addition, the present invention is to ensure that the liquid content is rotated naturally while being discharged stably toward the outlet, it is possible to safely follow or drink as the rapid discharge of the liquid content is minimized, to prevent contamination that may occur due to rapid discharge It has an effect.

In addition, when the present invention is applied to a portable beverage, such as bottled water, cola or juice, there is an effect that can be prevented safety accidents such as when the sieve is minimized even when the consumer drastically drastically minimized.

In addition, the present invention is a plurality of guides are crimped in multiple stages to be hermetically sealed to each other, the restoring force after the crimping is a shape structure that is easy to separate the collection in a minimized volume.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall perspective view showing a container according to an embodiment of the present invention, Figure 2 is a cross-sectional view AA of Figure 1, Figure 3 is a reference diagram shown to explain the guide formed in the container according to the present invention 4 is a front view illustrating the shape of a guide according to the present invention.

As shown, the container 100 according to the present invention may be largely composed of a bottleneck 110, and the bottle body 120.

Here, the bottleneck 110 has a discharge port 111, and forms a screw 112 that is fastened through the screw 113 and the screw coupling. In this case, the bottleneck 110 may be applied in various ways in addition to the screw fastening method for fastening the lid 113 and the airtight, the lid 113 is a bottleneck, for example one of a variety of methods applied for the airtight. There is a way to be detached to the unit (110).

The bottle body 120 extends to the bottleneck 110 to store the liquid contents.

The container 100 having such a configuration may contain bottled water, beverages such as cola, liquor, saline, liquid food, and the like, and may be formed of various materials.

The container 100 of the present invention may be composed of any one of a paper bottle, a PET bottle, a metal bottle, and a glass bottle depending on the material of the material to be manufactured.

Hereinafter, a case in which the container according to the preferred embodiment of the present invention is a PET (Polyethylene terephthalate resin: polyethylene terephthalate resin) bottle will be described as an example.

First, the bottle body 120 is a spiral or part of the inner peripheral surface of the bottle body 120 has a convex shape so that the discharge is induced as the liquid contents received are rotated toward the outlet 111 of the bottle neck 110, spirally It is formed of a plurality of guides 121 to be wound.

Here, as shown in FIG. 5, when the plurality of guides 121 cut the bottle body 120 vertically, one guide 121 has an angled shape of “>” or “<”. As illustrated in FIG. 6, the outermost center point c of the horizontal center line with respect to one guide 121 may be formed in a rounded or angular form.

And, as shown in Figure 5, the plurality of guides 121, the upper bent point (a) is formed on the upper portion of the length of the extended position with respect to the outermost center point (c), conversely the outermost center point The lower bending point c is formed at the lower portion of the position where the length is extended based on (c).

As described above, the container 100 having the shape structure of the plurality of angled guides 121 maintains the upright strength even in the flow of the fluid contained therein.

In addition, the guide 121 is formed with the extension lengths of the upper and lower bending points (a) and the lower bending point (b) respectively formed on the upper and lower sides with respect to the outermost center point (c), so that the corresponding positions are alternately formed. do.

That is, the upper length (ac) connecting the upper bending point (a) and the outermost center point (c) is longer than the lower length (bc) connecting the lower bending point (b) and the outermost center point (c), The inner angle b 'of the lower bending point b is larger than the inner angle a' of the upper bending point a.

As shown in FIG. 8 at the time of compression to dispose of the container 100, it is compressed as the lower bending point (b) having a large cabinet is folded into a folded shape toward the upper bending point (a) of a small cabinet. The restoring force of the is removed to minimize the volume, which facilitates the separate collection process.

In addition, the plurality of guides 121 may form an inner circumferential surface that is a connection point between the guides 121 in various forms.

Figure 7 is a reference diagram showing various forms of connection points between the guide according to the present invention, Figure 7 (a) shows a probe shape having a pointed shape, Figure 7 (b) is a round having a curved shape (C) of FIG. 7 shows the shape of the cut surface which has the form cut | disconnected vertically.

In addition, the plurality of guides 121 may be configured as one of shapes in which the spirally wound line is increased evenly by 2 lines based on four, and the progressing rotation direction is any one of a clockwise or counterclockwise direction. It may be formed in the form.

FIG. 2A illustrates the case where the number of the plurality of guides 121 is eight, and FIG. 2B illustrates the case where the number of the plurality of guides 121 is four.

3 is a reference diagram for explaining the guide formed in the container according to the present invention, Figure 3 (a) shows a case where a plurality of guides 121 are formed only in the upper region, Figure 3 (b) is a plurality of 3 illustrates a case where the guide 121 is formed in the entire upper region and the lower region, and FIG. 3 (c) illustrates a case where the plurality of guides 121 are formed in some or all of the lower region. The case where the guide 121 is formed to a part of the upper region and the lower region is shown.

9 is a cross-sectional view showing the curvature of another example of the guide form of the container according to the present invention, and FIG. 10 is a reference diagram illustrating the guide compression of the container according to FIG. 9.

As shown in Figures 9 and 10, the guide 121 according to the present invention is most of the same configuration as compared to the container 100 of the embodiment shown in Figures 1 to 8, the guide 121 The form of another example is shown in form structure.

Hereinafter, in describing the guide 121 showing another example of the present invention, the guide 121 is repeated on the premise that the guide 121 is applied to the container 100 shown in FIGS. 1 to 8. Will be omitted, and only differences will be described.

The guide 121 is an angled shape of one guide shape is ">" or "<" when the bottle body 120 is vertically cut and viewed, and the maximum of the horizontal center line with respect to the one guide 121. The outer center point c is formed in one of rounded or angular forms. At this time, unlike the above-described example, the guide 121 forms a lower bending point b only at the lower portion of the position where the length is extended based on the outermost center point c.

In addition, the guide 121 has an upper inner corner x formed on the horizontal center line of the outermost center point c and larger than the lower inner corner y formed on the horizontal center line of the lower bending point b. Done.

In addition, the upper connection length (AC) to the connection point and the outermost center point (c) between the guide 121 is formed longer than the lower connection length (AB) to the connection point and the lower bending point (b).

As the guide 121 of the container 100 described above with reference to FIGS. 1 to 8 as described above, the guide 121 is compressed in a form in which the lower bending point b is folded into the upper side when compressed for disposal and then compressed. Of course, the restoring force of the structure is minimized, and the upright strength is maintained even in the flow of the fluid contained therein.

As shown in FIG. 11, each guide 121 applied to the container 100 of the present invention as described above has a plurality of guides 121 formed on the bottle body 120 by twisting and compressing the guides 121. In each guide 121 as shown, the lower bending point (b) having a large internal angle is folded to be folded into the upper bending point (a) having a small internal angle, and the restoring force after the compression is completely removed. .

In addition, as shown in FIG. 10, even in the case of the guide 121 in which the upper bending point is not formed, the lower bending point b is folded upward to the upper side, and the restoring force in subsequent compression is completely as shown in FIG. 8. Will be removed.

This provides the benefit of a separate collection process by minimizing the volume, making it impossible to recover from the distorted state without artificially forcing.

Although the container of the present invention has been described in more detail with reference to the examples above, the present invention is not necessarily limited to these examples, and various modifications can be made without departing from the spirit of the present invention.

1 is an overall perspective view showing a container according to an embodiment of the present invention,

2 is a cross-sectional view taken along line A-A of FIG.

Figure 3 is a reference diagram shown to explain the guide formed in the container according to the invention,

4 is a front view showing to explain the shape of the guide according to the invention,

5 is a cross-sectional view showing the curvature of the guide of the container according to the present invention;

6 and 7 are reference views showing various forms of connection points between the outermost center point (c) and the guide of the guide according to the present invention,

8 is a reference diagram shown to explain the guide compression of the container according to the invention,

9 is a cross-sectional view showing the curvature of another example of the guide form of the container according to the present invention;

10 is a reference diagram shown for explaining the guide compression of the container according to FIG.

11 is a reference diagram showing a waste treatment process when the container according to the present invention is a PET bottle.

<Explanation of symbols for the main parts of the drawings>

100: container 110: bottleneck

111 outlet 112 threaded portion

113: lid 120: bottle body

121: Guide

a: upper bending point b: lower bending point

c: outermost center point

ac: upper length bc: lower length

a ': upper bending point cabinet b': lower bending point cabinet

x: upper cabinet y: lower cabinet

AC: Upper Extension Length AB: Lower Extension Length

Claims (8)

A container for containing liquid contents, The bottle body is formed of a plurality of guides wound in a spiral shape in part or the whole of the inner circumference of the bottle body so that the discharged liquid is rotated toward the outlet of the bottleneck part, so that the discharge is induced. The plurality of guides, when viewed by cutting the bottle body vertically, one guide shape is an angular shape of ">" or "<", and the outermost center point c of the horizontal center line with respect to one guide is Is formed in one of the rounded or angular form, the upper bending point (a) is formed at the upper portion of the position extending length relative to the outermost center point (c), on the contrary based on the outermost center point (c) The lower bent point (c) is formed in the lower portion of the length extending position, the container characterized in that it is formed in a structure in which the upright strength is maintained even in the flow of the fluid contained therein. The method of claim 1, The guides have different extension lengths between upper and lower bending points (a) and lower bending points (b) respectively formed on the upper and lower sides with respect to the outermost center point (c), and corresponding positions are alternately formed. The upper length (ac) connecting the upper bending point (a) and the outermost center point (c) is longer than the lower length (bc) connecting the lower bending point (b) and the outermost center point (c), and the upper cutting point Since the inner angle of the lower bending point (b) is larger than the inner angle of the bending point (a), the lower bending point (b) having a larger internal angle is folded into the upper bending point (a) with a smaller internal angle during compression for disposal. The container characterized in that the restoring force after compression is minimized as it is compressed to. The method of claim 1, The plurality of guides, the container characterized in that it is formed of any one of a round shape having a curved surface of the inner peripheral surface that is the connection point between the guide, a cutting surface having a vertically cut shape, and a probe shape having a pointed shape. The method according to any one of claims 1 to 3, The plurality of guides, The spirally wound line is composed of one of the shapes that are increased evenly by 2 lines based on four, the progressing direction of rotation is formed in one of the clockwise or counterclockwise form. The method of claim 4, wherein The container is any one of a paper bottle, a PET bottle, a metal bottle, and a glass bottle. A container for containing liquid contents, The bottle body is formed of a plurality of guides wound in a spiral shape in part or the whole of the inner circumference of the bottle body so that the discharged liquid is rotated toward the outlet of the bottleneck part, so that the discharge is induced. The plurality of guides, when viewed by cutting the bottle body vertically, one guide shape is an angular shape of ">" or "<", and the outermost center point c of the horizontal center line with respect to one guide is It is formed in one of rounded or angular form, and forms a lower bent point (b) only at the lower portion of the length extending relative to the outermost center point (c), The guide may have an upper inner corner x formed on the horizontal center line of the outermost center point c and larger than a lower inner corner y formed on the horizontal center line of the lower bending point b. Since the upper connection length AC to the connection point between the guide and the outermost center point c is formed longer than the lower connection length AB to the connection point and the lower bending point b, the lower bending point during compression for disposal (b) the container is characterized in that it is compressed into a folded form to the top to minimize the restoring force after compression, and to maintain the upright strength even in the flow of the fluid contained therein. The method of claim 6, The plurality of guides are formed of any one of a round shape having a curved surface of the inner circumferential surface, which is a connection point between the guides, a cut surface having a vertically cut shape, and a probe shape having a sharp shape, The spirally wound line is composed of one of the shapes that are increased evenly by 2 lines based on four, the progressing rotation direction is formed in any one of a clockwise or counterclockwise direction. The method according to claim 6 or 7, The container is any one of a paper bottle, a PET bottle, a metal bottle, and a glass bottle.

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