KR102285554B1 - Bottle made of bio-resin compostion - Google Patents

Abstract

The present invention provides a container made of an eco-friendly bioplastic resin, which comprises: a main body unit, which is a portion for forming a main body of a bottle type container, having an inlet formed in an upper end for introducing and discharging content and having an opened lower end; and a floor unit coupled to the lower end of the main body unit to form a floor of the container.

Description

Container made of eco-friendly bioplastic resin {BOTTLE MADE OF BIO-RESIN COMPOSTION}

The present invention relates to a container made of a resin containing natural celluloid, and more particularly, to a container having a two-piece bonding shape to compensate for the disadvantages of natural celluloid.

General-purpose resins made from petroleum such as polypropylene and polyvinyl chloride are used in various fields such as daily necessities, home appliances, automobile parts, building materials or food packaging due to their good processability and durability. However, these resin products have an adverse effect on the ecosystem because good durability is a defect in the stage of being discarded after fulfilling their role, and degradability in nature is inferior.

In order to solve this problem, as a biodegradable resin as a thermoplastic resin, polylactic acid, a copolymer of lactic acid with other aliphatic hydroxycarboxylic acids, aliphatic polyesters derived from aliphatic polyhydric alcohols and aliphatic polyhydric carboxylic acids, etc. As biodegradable resins are being developed, bioplastic resins containing celluloids of natural components such as polylactic acid or succinate-based aliphatic polyesters, which are widely known as biodegradable resins, are being developed.

However, the current bioplastic resin containing natural celluloid has a difficulty in manufacturing a container by the blow molding method due to the problem of inferior processing characteristics compared to synthetic resins made from petroleum.

Patent Document 1: Republic of Korea Patent Registration No. 10-2239747 Patent Document 2: Republic of Korea Patent Registration No. 10-1288445

An object of the present invention is to provide a container having a two-piece combined form.

In order to achieve the above object, a container made of bioplastic resin according to an embodiment of the present invention is a part constituting the body of a bottle-type container, and has an inlet for taking out the contents at the upper end, and the lower end is open a body portion having a; and a bottom portion coupled to the lower end of the body portion to form the bottom of the container.

In this case, it is preferable that the body portion has a shape in which the inner diameter of the lower portion is equal to or greater than the inner diameter of the upper portion based on an arbitrary point so as to be moldable by the injection molding method.

In this case, the main body may include a first coupling protrusion having a sawtooth-shaped cross-section at the lower end.

At this time, the first coupling protrusion is formed on the inner surface of the lower end, the bottom portion, the bottom plate having a diameter corresponding to the inner diameter of the lower end to be inserted into the inner side of the lower end of the body portion; and a second coupling protrusion provided on the edge of the bottom plate and having a sawtooth-shaped cross section corresponding to the first coupling protrusion to be inserted and fixed to the first coupling protrusion.

At this time, the first coupling protrusion is formed on the outer surface of the lower end, the bottom portion, the bottom plate having a diameter corresponding to the inner diameter of the lower end so as to be inserted into the lower end of the main body portion; a coupling rim extending from the rim of the bottom plate as a shape surrounding the lower end of the main body in a U-shape; and a second coupling protrusion provided on the outer inner surface of the coupling rim and having a sawtooth-shaped cross-section corresponding to the first coupling protrusion so as to be inserted into and fixed to the first coupling protrusion.

At this time, the bottom portion, a sealing groove forming a space in which the sealing resin is injected so as to prevent separation of the second coupling protrusion and to seal with the lower end of the body portion; and an injection guide for forming a resin movement path so that the sealing resin is injected into the sealing groove, wherein the sealing groove is preferably in the form of a groove dug to a predetermined depth along the circumferential direction of the second coupling protrusion.

At this time, the injection guide, in the form of connecting the edge portion provided with the second coupling protrusion at the center portion of the bottom plate, it is preferable that a resin movement path connected to the sealing groove is formed therein.

In addition, the lower end of the main body portion on which the first coupling protrusion is disposed may be provided with through grooves at regular intervals.

On the other hand, the main body portion is provided at a point adjacent to the lower end and includes a first coupling protrusion protruding at a predetermined height along the circumferential direction of the outer surface, and the bottom portion is at the inner diameter of the lower end so as to be inserted into the inner side of the lower end of the main body portion. a sole plate having a corresponding diameter; a coupling rim extending from the rim of the bottom plate as a shape surrounding the lower end of the main body in a U-shape; and a coupling groove in the form of a groove into which the first coupling protrusion is fitted as provided on the outer inner surface of the coupling rim.

In addition, the main body portion is provided at a point adjacent to the lower end and includes a first coupling protrusion protruding at a predetermined height in the circumferential direction of the inner surface, and the bottom portion is located on the inner diameter of the lower end so as to be inserted into the inner side of the lower end of the main body portion. a sole plate having a corresponding diameter; a coupling rim extending from the rim of the bottom plate as a shape surrounding the lower end of the main body in a U-shape; and a coupling groove in the form of a groove into which the first coupling protrusion is fitted as provided on the inner and outer surface of the coupling rim.

In addition, the bottom portion further comprises an injection guide for forming a movement path so that the sealing resin is injected into the space between the lower end of the body portion and the coupling edge, the injection guide, the coupling in the center portion of the bottom plate It is preferable that a resin movement path connected to the space between the lower end of the main body and the coupling rim is formed in the form of connecting the inner surface of the rim.

In addition, the lower end of the main body portion in contact with the resin movement path may be provided with through grooves at regular intervals.

According to the container made of the bioplastic resin according to the present invention,

First, a container can be manufactured with an eco-friendly bioplastic resin.

Second, since the bottom part has a one-way insertion structure, it is possible to manufacture containers of various cross-sectional shapes.

1 and 2 illustrate a container made of a bioplastic resin according to the first embodiment.
3 and 4 illustrate a container made of a bioplastic resin according to the second embodiment.
5 and 6 illustrate a container made of a bioplastic resin according to the third embodiment.
7 and 8 illustrate a container made of a bioplastic resin according to the fourth embodiment.
9 illustrates that the container of the present invention can be implemented in a form having a rectangular cross section.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this case, it should be noted that in the accompanying drawings, the same components are denoted by the same reference numerals as much as possible. In addition, detailed descriptions of well-known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some components are exaggerated, omitted, or schematically illustrated in the accompanying drawings.

1 and 2 illustrate a container made of a bioplastic resin according to a first embodiment of the present invention. 1 and 2 , the container 1000 made of the bioplastic resin according to the first embodiment includes a body part 100 and a bottom part 200 .

The body part 100 is a part constituting the body of the bottle type container, and has an inlet (A) for taking out the contents at the upper end, and has an open shape at the lower end.

The bottom part 200 is coupled to the lower end of the body part 100 to form the bottom of the container. The bottom part 200 is coupled to the open lower end of the body part 100 to be fitted. In the present invention, the coupling of the bottom part 200 is not a rotation coupling by a screw thread, but a method in which the protruding protrusions are engaged. For example, a method in which projections such as a latch structure are combined by an interference fit method is applied.

The main body 100 preferably has a shape in which the inner diameter of the lower part is equal to or greater than the inner diameter of the upper part based on an arbitrary point so that it can be molded by the injection molding method by the injection molding method. This is a form for easy removal of the mold corresponding to the inner surface when the body part 100 is manufactured by injection molding.

The body part 100 includes a first coupling protrusion 110 having a sawtooth-shaped cross-section at the lower end. In the embodiment described in FIGS. 1 to 2 , the first coupling protrusion 110 is formed on the lower inner surface of the main body 100 .

The first coupling protrusion 110 preferably has a sawtooth shape in the form of a right-angled triangle. For the unidirectional insertion of the second coupling protrusion 220, the first coupling protrusion 110 has a shape in which the slope is upward in the upward direction.

The bottom part 200 includes a bottom plate 210 , a second coupling protrusion 220 , a sealing groove 230 , and an injection guide 240 .

The bottom plate 210 has a diameter corresponding to the inner diameter of the lower end so as to be inserted into the inner side of the lower end of the main body 100 . The bottom plate 210 preferably has a curved arch shape for durability of the container.

The second coupling protrusion 220 is provided on the edge of the bottom plate 210 and has a sawtooth-shaped cross section corresponding to the first coupling protrusion 110 so as to be inserted into and fixed to the first coupling protrusion 110 . The second coupling protrusion 220 has a shape in which the slope is downward in the upward direction. It is possible to press-fit in the forward direction in the direction in which the serrated slope of the second coupling protrusion 220 rides up the slope of the first coupling protrusion 110 , and the reverse removal is difficult.

The sealing groove 230 forms a space in which the sealing resin (S) is injected to prevent separation of the second coupling protrusion 220 and seal with the lower end of the body part 100 .

The injection guide 240 forms a resin movement path K so that the sealing resin is injected into the sealing groove 230 .

The sealing groove 230 is preferably in the form of a groove dug to a predetermined depth along the circumferential direction of the second coupling protrusion 220 . The sealing resin (S) is injected into the resin movement path (K) and filled in the sealing groove 230 to prevent the second coupling protrusion 220 from being separated from the first coupling protrusion 110 and sealing the gap. Thus, the container 1000 of the present invention has a function as an airtight container.

The injection guide 240 connects the edge portion provided with the second coupling protrusion 220 in the central portion of the bottom plate 210, and the resin movement path K connected to the sealing groove 230 is formed therein. will be. The resin movement path (K) is preferably in the shape of a letter L, and one end is located in the center of the bottom plate (210). This is an embodiment for omitting a separate position alignment when connecting the injection port for injection of the sealing resin (S). The other end of the resin movement path (K) is connected to the sealing groove (230). On the other hand, it is preferable that a through hole (K') for smooth injection of the sealing resin (S) is provided at a point symmetrical with the other end of the resin movement path (K).

In the second embodiment described in FIGS. 3 to 4 , the first coupling protrusion 110 is formed on the lower outer surface of the main body 100 ′.

In order to distinguish it from the first embodiment, in the description of the second embodiment, the main body part will be described with the identification code 100' and the bottom part will be described with the identification code 200'.

The bottom portion 200 ′ includes a bottom plate 210 , a coupling edge 250 , a second coupling protrusion 220 , a sealing groove 230 , and an injection guide 240 .

The bottom plate 210 has a diameter corresponding to the inner diameter of the lower end so as to be inserted into the inner side of the lower end of the body portion 100'.

The coupling rim 250 is provided in a form that surrounds the lower end of the main body 100 ′ in a U-shape and extends from the rim of the bottom plate 210 . That is, the coupling is made in such a way that the lower end of the body part 100 ′ is fitted to the coupling rim 250 .

The second coupling protrusion 220 is provided on the outer inner surface of the coupling rim 250 and is inserted into and fixed to the first coupling protrusion 110 so as to have a sawtooth-shaped cross-section corresponding to the first coupling protrusion 100 . have Since the shapes of the first coupling protrusion 110 and the second coupling protrusion 220 are the same as those of the first embodiment, overlapping descriptions will be omitted.

The sealing groove 230 forms a space in which the sealing resin (S) is injected to prevent separation of the second coupling protrusion 220 and to seal with the lower end of the body portion 100 ′.

The injection guide 240 forms a resin movement path K so that the sealing resin is injected into the sealing groove 230 .

The sealing groove 230 is preferably in the form of a groove dug to a predetermined depth along the circumferential direction of the second coupling protrusion 220 . The sealing resin (S) is injected into the resin movement path (K) and filled in the sealing groove 230 to prevent the second coupling protrusion 220 from being separated from the first coupling protrusion 110 and sealing the gap. Thus, the container 1000 of the present invention has a function as an airtight container.

The injection guide 240 connects the edge portion provided with the second coupling protrusion 220 in the central portion of the bottom plate 210, and the resin movement path K connected to the sealing groove 230 is formed therein. will be. The resin movement path (K) is preferably in the shape of a letter L and one end is located at the center of the bottom plate (210). This is an embodiment for omitting a separate position alignment when connecting the injection port for injection of the sealing resin (S). The other end of the resin movement path (K) is connected to the sealing groove (230). On the other hand, it is preferable that a through hole (K') for smooth injection of the sealing resin (S) is provided at a point symmetrical with the other end of the resin movement path (K).

In the second embodiment, the resin (S) for sealing should be injected between the lower outer surface of the main body portion 100 ′ and the outer inner surface of the coupling rim 250 , so the body portion in which the first engaging protrusion 110 is disposed. It is preferable that through grooves (H) are provided at the lower end of the (100') at regular intervals. Therefore, the sealing resin (S) may be injected into the sealing groove (230) through the through groove (H).

5 and 6 illustrate a third embodiment of the present invention. For the purpose of classification, in the third embodiment, the body part will be described with the identification code 100'' and the bottom part will be described with the identification code 200''.

The body portion 100 ″ is provided at a point adjacent to the lower end and includes a first coupling protrusion 110 ″ protruding at a predetermined height along the circumferential direction of the inner surface.

The bottom part 200'' is a bottom plate 210'' having a diameter corresponding to the inner diameter of the bottom so as to be inserted inside the lower end of the body part 100'', the lower end of the body part 100'' is U The first coupling protrusion 110'' as being provided on the inner and outer surfaces of the coupling rim 220 '' and the coupling rim 220 '' extending from the rim of the bottom plate 210 '' as being in a shape surrounding the shape. ) includes a groove-shaped coupling groove 230'' into which it is fitted.

The first coupling protrusion 110'' corresponds to the first coupling protrusion 110 of the first embodiment, and the coupling groove 230'' corresponds to the second coupling protrusion 220 of the first embodiment. plays a role

The bottom part 200 '' is an injection guide ( 240) is further included.

Injection guide 240 is in the form of connecting the inner surface of the coupling rim 220 '' in the central portion of the bottom plate 210 '', the lower end of the body portion 100 '' and the coupling rim 220 '' ), a resin movement path (K) connected to the space is formed. Since the injection guide 240 has the same shape as the injection guide 240 of the first and second embodiments, a redundant description will be omitted.

7 and 8 illustrate a fourth embodiment of the present invention. For the purpose of classification, in the fourth embodiment, the main body part will be described with the identification code 100''' and the bottom part will be described with the identification code 200'''.

The body portion 100''' includes a first coupling protrusion 110''', which is provided at a point adjacent to the lower end and protrudes at a predetermined height along the circumferential direction of the outer surface.

The bottom part 200''' is a bottom plate 210''' having a diameter corresponding to the inner diameter of the bottom so as to be inserted inside the lower end of the body part 100''', and the body part 100''') As a form surrounding the lower end of the U-shape as provided on the outer inner surface of the coupling rim 220 ''' and the coupling rim 220 ''' extending from the rim of the bottom plate 210 ''' It includes a coupling groove 230 ″″ in the form of a groove into which the first coupling protrusion 110 ″″ is fitted.

The first coupling protrusion 110''' corresponds to the first coupling protrusion 110 of the second embodiment, and the coupling groove 230''' is on the second coupling protrusion 220 of the second embodiment. play a corresponding role.

The bottom part 200''' is an injection forming a movement path K so that the sealing resin (S) is injected into the space between the lower end of the body part 100''' and the coupling rim 220'''. A guide 240 is further included.

Injection guide 240 is in the form of connecting the inner surface of the coupling rim 220 '' in the central portion of the bottom plate 210 '', the lower end of the body portion 100 '' and the coupling rim 220 '' ), a resin movement path (K) connected to the space is formed. Since the injection guide 240 has the same shape as the injection guide 240 of the first and second embodiments, a redundant description will be omitted.

On the other hand, it is preferable that through grooves (H) are provided at regular intervals at the lower end of the body portion (100''') of the portion in contact with the resin movement path (K).

9 illustrates a container of rectangular cross-section in a first embodiment and a second embodiment, respectively. Since the second coupling protrusion 220 is fitted to the first coupling protrusion 110 , it is also possible to implement the shape of the container in the form of a rectangle.

Embodiments of the present invention disclosed in the present specification and drawings are merely provided for specific examples in order to easily explain the technical contents of the present invention and help the understanding of the present invention, and are not intended to limit the scope of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

1000: Container made of eco-friendly bioplastic resin
100: body part
200: bottom

Claims (12)

a body portion constituting the body of the bottle-type container, the body portion having an opening at the upper end for taking out the contents, and the lower end having an open shape; and
A bottom portion coupled to the lower end of the body portion to form the bottom of the container,
The body part,
It has a shape in which the inner diameter of the lower part is equal to or greater than the inner diameter of the upper part based on any point so as to be moldable by the injection molding method,
The body part,
Including a first coupling protrusion having a sawtooth-shaped cross section at the bottom,
The first coupling protrusion is formed on the inner surface of the lower end,
the bottom part,
a bottom plate having a diameter corresponding to the inner diameter of the lower end so as to be inserted inside the lower end of the main body; and
and a second coupling protrusion having a sawtooth-shaped cross section corresponding to the first coupling protrusion so as to be inserted into and fixed to the first coupling protrusion as provided on the edge of the bottom plate.
the bottom part,
a sealing groove forming a space in which a sealing resin is injected to prevent separation of the second coupling protrusion and to seal with the lower end of the main body; and
Further comprising an injection guide for forming a resin movement path so that the sealing resin is injected into the sealing groove,
The sealing groove is
A container made of bioplastic resin, characterized in that it is in the form of a groove dug to a predetermined depth along the circumferential direction of the second coupling protrusion. delete delete delete a body portion constituting the body of the bottle-type container, the body portion having an opening at the upper end for taking out the contents, and the lower end having an open shape; and
A bottom portion coupled to the lower end of the body portion to form the bottom of the container,
The body part,
It has a shape in which the inner diameter of the lower part is equal to or greater than the inner diameter of the upper part based on any point so as to be moldable by the injection molding method,
The body part,
Including a first coupling protrusion having a sawtooth-shaped cross section at the bottom,
The first coupling protrusion is formed on the outer surface of the lower end,
the bottom part,
a bottom plate having a diameter corresponding to the inner diameter of the lower end so as to be inserted inside the lower end of the main body;
a coupling rim extending from the rim of the bottom plate as a shape surrounding the lower end of the main body in a U-shape; and
It is provided on the outer inner surface of the coupling rim and includes a second coupling protrusion having a sawtooth-shaped cross section corresponding to the first coupling protrusion so as to be inserted into and fixed to the first coupling protrusion,
the bottom part,
a sealing groove forming a space in which a sealing resin is injected to prevent separation of the second coupling protrusion and to seal with the lower end of the main body; and
Further comprising an injection guide for forming a resin movement path so that the sealing resin is injected into the sealing groove,
The sealing groove is
A container made of bioplastic resin, characterized in that it is in the form of a groove dug to a predetermined depth along the circumferential direction of the second coupling protrusion. delete 6. The method according to claim 1 or 5,
The injection guide,
A container made of bioplastic resin, characterized in that a resin movement path connected to the sealing groove is formed therein in the form of connecting the edge portion provided with the second coupling protrusion in the center portion of the bottom plate. 6. The method of claim 5,
A container made of bioplastic resin, characterized in that through grooves are provided at regular intervals at the lower end of the main body on which the first coupling protrusion is disposed. a body portion constituting the body of the bottle-type container, the body portion having an opening at the upper end for taking out the contents, and the lower end having an open shape; and
A bottom portion coupled to the lower end of the body portion to form the bottom of the container,
The body part,
It has a shape in which the inner diameter of the lower part is equal to or greater than the inner diameter of the upper part based on any point so as to be moldable by the injection molding method,
The body part,
It is provided at a point adjacent to the lower end and includes a first coupling protrusion protruding at a predetermined height along the circumferential direction of the outer surface,
the bottom part,
a bottom plate having a diameter corresponding to the inner diameter of the lower end so as to be inserted inside the lower end of the main body;
a coupling rim extending from the rim of the bottom plate as a shape surrounding the lower end of the main body in a U-shape; and
It is provided on the outer inner surface of the coupling rim and includes a coupling groove in the form of a groove into which the first coupling protrusion is fitted,
the bottom part,
Further comprising an injection guide forming a movement path so that the sealing resin is injected into the space between the lower end of the main body and the coupling edge,
The injection guide,
A container made of bioplastic resin, characterized in that a resin movement path connected to the space between the lower end of the main body and the coupling edge is formed therein in the form of connecting the inner surface of the coupling edge at the center part of the bottom plate . a body portion constituting the body of the bottle-type container, the body portion having an opening at the upper end for taking out the contents, and the lower end having an open shape; and
A bottom portion coupled to the lower end of the body portion to form the bottom of the container,
The body part,
It has a shape in which the inner diameter of the lower part is equal to or greater than the inner diameter of the upper part based on any point so as to be moldable by the injection molding method,
The body part,
It is provided at a point adjacent to the lower end and includes a first coupling protrusion protruding at a certain height in the circumferential direction of the inner surface,
the bottom part,
a bottom plate having a diameter corresponding to the inner diameter of the lower end so as to be inserted inside the lower end of the main body;
a coupling rim extending from the rim of the bottom plate as a shape surrounding the lower end of the main body in a U-shape; and
It is provided on the inner and outer surface of the coupling rim and includes a coupling groove in the form of a groove into which the first coupling protrusion is fitted,
the bottom part,
Further comprising an injection guide forming a movement path so that the sealing resin is injected into the space between the lower end of the main body and the coupling edge,
The injection guide,
A container made of bioplastic resin, characterized in that a resin movement path connected to the space between the lower end of the main body and the coupling edge is formed therein in the form of connecting the inner surface of the coupling edge in the central part of the bottom plate . delete 10. The method of claim 9,
A container made of bioplastic resin, characterized in that a through-groove is provided at regular intervals at the lower end of the main body portion in contact with the resin movement path.

Images