KR20130086695A - Dual type tube vessel and the method of making it - Google Patents

Abstract

PURPOSE: A production method of a tube container is provided to freely adjust the discharge quantity and rate of the container by the user preference. CONSTITUTION: A first film is cut to form a first container member (S10). A second film is cut to form a second container member (S20). The first and second films with the cut predetermined width are rolled into a circular form, and each one side is combined (S30). The first and second films are molded into semi-circular forms using one side surface as a flat surface by a jig (S40). The flat side surfaces of the first and second films are faced to each other, and the lower side of the films are attached and fixed using heat (S50). Contents are inserted into the films after sealing the lower side through openings on the upper side, and a neck part is heat-attached to the openings for integrating (S60). [Reference numerals] (S10) First cutting process; (S20) Second cutting process; (S30) First attaching process; (S40) Semi-circle formation process; (S50) Second attaching process; (S60) Attaching process

Description

Dual tube container manufacturing method and dual tube container manufactured therefrom {Dual type Tube Vessel and the Method of Making it}

The present invention relates to a method for producing a double tube container and a double tube container manufactured therefrom. In detail, the present invention relates to a circular tube or film formed of a plurality of tubes having the same shape and size. In the bonded state, the jig is inserted into a jig so as to have a semicircular shape, and then the plurality of semicircular tube containers face a flat surface, and then a plurality of semicircular tube container bottom separators are opened by ultrasonic or high frequency. By providing a double tube container manufacturing method, which is obtained through a series of processes of filling the contents by gluing and integrating the neck having the discharge port on the top of the tube container, the manufacturing process is simplified and the plurality of tubes are opened only at the bottom separation part. As it is integrated by bonding, it is not necessary to construct a separate separator. Even relates to a tube container is made double type method for producing double type tube container to prevent the printing of the restrictions on the film surface and therefrom.

Tube containers filled with the contents of cosmetics, toothpaste, dyes, etc. are distributed and stored in the lamination process using a film.

When used in such a tube container, the tube container that allows the use of two or more contents together is referred to in the art as a double tube container, such a double tube container can be said to be an increasing use.

As a precedent of the double tube container, No. 20-304903 was disclosed to allow simultaneous discharging so that different contents can be mixed at a constant ratio. However, since the double tube container is integrated by inserting two inner tubes into one outer tube, there is a problem in that the manufacturing process is complicated and the cost of materials increases due to high consumption of materials. There is a problem that the bonding between the inner tube and the outer tube due to the difference between the heat of the inner side and the outer side is caused by the high frequency or ultrasonic bonding used to increase the.

Accordingly, Patent Publication No. 2010-51047 discloses that the present invention has been devised to solve in view of the above. In the case of the prior art, a main body separating plate which traverses the inside of one tube and both ends of the tube and the laminating bonding process is separately. To this end, there is a problem in that to form a tube in each semi-circular shape, and then go through the process of bonding both sides in a state in which the main body separating plate is placed therebetween.

In addition, it is presented as another embodiment of the prior art, by using a single film to give an example that the main body separating plate is one bar, for example, one side of the film is contacted by rolling to have the shape of the Taegeuk shape The lamination bonding process allows the double tube to be formed even if the above-mentioned main body separator plate is not provided separately.

However, in the case of this embodiment there is a problem that the printing process itself is impossible when trying to print a variety of patterns, shapes, etc. for explaining the product on the outer surface of the double tube container, advertising.

That is, when one film is spoken in the form of Taegeuk, when one side is printed on one side in advance, one side of the printed side faces the inside of the tube and the other side faces the outside of the tube so that the printing effect is not reflected. In order to process the printing after forming the double tube in the form of Taegeuk in advance, there is a problem that a new printing device, etc. must be devised and developed.

Therefore, as one of the methods to overcome this problem, it is possible to think of a method of inserting and joining the double tube to the outer tube by separately remanufacturing the outer tube that completely wraps the double tube in the form of Taegeuk. There is a problem in that the reliability of the product can not be obtained as not in accordance with the above object of the prior art.

Therefore, the present invention has been made to solve the problems of each of the prior art, in forming a double tube, two films each formed by using a jig in a semi-circular shape after the flat surface of the semi-circular tube formed in this way After facing each other, the bottom is fixed by thermal bonding, etc., and after filling the contents into the openings of the upper part, the neck is thermally bonded. Then, the printing process is performed on the elliptical part opposite to the flat surface before forming the double tube. By passing through such a process, the printing process is convenient and free, thereby simplifying the manufacturing process and obtaining the reliability of the product. In particular, the present invention provides the first container member and the second container member which are independent containers of filler. Since each is filled, the user can freely adjust the desired discharge rate and ratio. The purpose of the present invention is to control the rate of freely filled contents according to the skin or other conditions of the child so as to enable discharge.

In order to achieve the above object, the present invention,

A container body in which the bottom surface is integrally thermally bonded to face a flat surface, which is one side of the first and second container members of the semi-cylindrical opening, and the upper and lower portions of the first and second container members; A neck portion having a discharge opening covering the entire opening of the container member is integrally bonded to each other, and the first discharge hole is provided in the opening of the first container member on the upper surface of the discharge hole, and the second discharge hole is provided in the opening of the second container member. Dual tube container, characterized in that,

A method of manufacturing a tube container, comprising: a first cutting step of cutting a first film for forming a first container member, a second cutting step of cutting a second film for a second container member, and the first cutting step The first bonding process of joining one side by rolling each of the first and second films having a predetermined width cut by the second cutting process in a circular shape, and the first and second container members formed in the respective circular shapes using a jig To form a semicircular shape with one side as a flat surface, and to face a flat surface that is one side of the first and second container members formed in the semicircular shape, and then joint and fix the bottom surface, that is, the bottom, by thermal bonding. After the second bonding step and the lower end is sealed by the second bonding step to fill the contents in each of the plurality of openings of the upper end, the neck portion having a discharge port covering the whole of the plurality of openings is thermally bonded and integrated. The above object can be attained by making the tube container manufacturing method which consists of a neck joining process "the structural feature.

According to the present invention, the two films can be easily divided into two spaces by simply combining the two films, so that different contents can be filled in one tube, and the printing layer can be easily and conveniently formed. The effect of increasing the reliability of the product can be expected.

In the above, the present invention has been described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments. Various changes and modifications may be made by the user.

1 is a process flow diagram of the present invention
Figure 2 is a perspective view showing the separation of the container body and the cap manufactured by the present invention
Figure 3 is a schematic front cross-sectional view of the cap and the container body coupled by Figure 2
4 is an exploded perspective view showing the inside of the container body shown in FIG.
5 is a schematic flowchart illustrating a process of working according to the process flow diagram of FIG.

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

The present invention can produce a double tube container according to the same process as in FIG.

That is, the time sequence of the first cutting step S1, the second cutting step S2, the first joining step S3, the semicircular forming step S4, the joining step S5, and the neck joining step S6. It is possible to manufacture a double tube container by.

The first cutting process S1 refers to a process of cutting the first film 102 which is a material of the first container member 100 that forms one of the components constituting the container body 10.

The first film 102 may use a film of PE material or other materials that can be adopted in the industry.

As shown in FIG. 5, the first film 102 selected from these types is cut to have an appropriate width and length to obtain the first film 102.

The second cutting process (S2) refers to a process of cutting the second film 112, which is a material of the second container member 110, which forms another one of the components of the container body 10.

The second film 112 may use a film of PE material or other materials that can be adopted in the industry.

The second film 112 selected from these types is cut to have an appropriate width and length as shown in FIG. 5 to obtain the second film 112.

In this process, it is possible to solve the difficulty of a print job as in the above-described problems in the background art.

In other words, in the present invention, the print job may be selected after the present process.

For example, after cutting the first and second films 102 and 112 (S1 and S2), an operator may arbitrarily set the semicircular areas of each of the first and second films 102 and 112 to display advertisements of goods. The printing can be performed, and the following first bonding step S3 can be performed.

That is, the first bonding step (S3) is to roll each of the first and second films (102, 112) having a predetermined width cut by the first and second cutting steps (S1, S2) in a circular shape to bond one side thereof. It means the process of, after all, two films, that is, the first container member 100, the second container member 110 is formed and the upper and lower openings.

Next, the semi-circular forming step (S4), the first and second cutting process (S1, S2) after the arbitrarily selected printing site as an elliptical site and the remaining semi-circular area by forming a flat surface using a jig to elliptical This process is to display the print advertisement on the site is a semi-circular forming process of molding one side of each of the cylindrical first and second container members (100,110), that is, the opposite side of the printing portion to a flat surface using a jig.

Next, the second bonding step (S5), the heat bonding to the bottom surface, that is, the bottom surface to face the opposite side of the oval formed with a printing portion that is one side of the first and second container members (100,110) formed in the semi-circular shape Refers to bonding and fixing by thermal bonding.

Next, the neck joining step (S6), after filling the contents in each of the plurality of openings (101, 111) formed on the upper end of the first and second container members (100,110), that is, the container body 10, the thermally bonded bottom surface This means that the neck portion 20 having a discharge port 200 covering the entirety of the plurality of openings 101 and 111 is heat-bonded to be integrated.

In this state, as shown in FIGS. 2 to 4, the lower and upper ends of the first and second container members 100 and 110, which are container bodies 10, are sealed by heat bonding or heat bonding, but are not bonded to the middle. In other words, the shapes are formed independently of each other.

The neck portion 20 is configured to form two discharge holes, that is, the first discharge hole 201 and the second discharge hole 210 to the upper side of the discharge port 200 as shown in Figures 2 to 4, The material of 20 may be made of the same material as the first film 102 or the second film 112 or by using a different material, and may be adopted as the same material as that of the conventional neck 20. Of course.

On the other hand, the neck portion 20 is obtained by molding and molding in advance into two unit pieces to form a single neck portion 20, the two unit pieces for constituting the neck portion 20 is completed by bonding each other After obtaining the neck portion 20 is bonded to the upper end of the container body 10 having the first and second container members 100 and 110 described above.

Meanwhile, before the bonding process between the neck part 20 and the container body 10 as described above, the contents are filled through the openings 101 and 111 formed at the upper ends of the first and second container members 100 and 110 which are the container body 10. After the neck part 20 and the container body 10 through the joining step (S6) of the joining process between the neck can be produced a complete double tube container.

The double tube container obtained through the manufacturing process described above (described and shown as the container body 10 for the coincidence of the terms and reference numerals described throughout the specification of the present invention), as shown in FIGS. Will have the same configuration.

A container body 10 in which the bottom surface is integrally thermally bonded by facing the flat surface, which is one side of the first container member 100 and the second container member 110 of the semi-cylindrical opening,

The neck portion 20 having the discharge port 200 covering the entire openings 101 and 111 of the upper first container member 100 and the second container member 110 of the container body 10 is thermally bonded and integrated, but the discharge port ( The first discharge hole 201 is provided in the opening 101 of the first container member 100 and the second discharge hole 210 is provided in the opening 111 of the second container member 110 on the upper surface of the 200. It's a structure.

The container body 10 is a state in which only the upper and lower ends of the first and second container members 100 and 110 are integrally bonded to each other, and then different types of contents are filled into respective spaces, and then the upper end of the container body 10 is closed. Sealed with the neck 20 can be obtained to obtain a finished product, and after pressing the container body 10 to open the cap 30 to use the product, the contents of the heterogeneous first, second discharge holes (201, 210) Ejected through the user can easily use the contents to be mixed by the same ratio, in particular, the present invention, according to which part the user gives a grip to the first container member 100 and the second container member 110 By freely adjusting the amount of the contents filled in the discharge to be able to exhibit a significant difference from the prior art having a compartment inside.

On the other hand, the contents can be mixed and discharged along the extension discharge port 31 provided in the cap 30 coupled to the discharge port 200 of the container body 10 to facilitate the mixing of the contents. have.

In particular, in order to facilitate the mixing of the contents, it is preferable that the extension discharge port 31 has a shape of tapering in cross section as a whole.

S1; First cutting process S2; 2nd cutting process
S3; First bonding step S4; Semicircular Forming Process
S5; Second bonding step S6; Wood joining process
10; Container body 20; xylem
30; Cap 31; Extension Discharge Outlet
100; First container member 101; Opening
110; Second container member 111; Opening
200; Outlet 201; First discharge hole

Claims (2)

A container body 10 in which the bottom surface is integrally thermally bonded by facing the flat surface, which is one side of the first container member 100 and the second container member 110 of the semi-cylindrical opening,
The neck portion 20 having the discharge port 200 covering the entire openings 101 and 111 of the upper first container member 100 and the second container member 110 of the container body 10 is thermally bonded and integrated, but the discharge port ( The first discharge hole 201 is provided in the opening 101 of the first container member 100 and the second discharge hole 210 is provided in the opening 111 of the second container member 110 on the upper surface of the 200. Double tube container characterized in that.
In the tube container manufacturing method,
First cutting process (S1) for cutting the first film 102 for forming the first container member 100,
A second cutting process S2 for cutting the second film 112 for forming the second container member 110, and
A first bonding step S3 for bonding one side by rolling the first and second films 102 and 112 having a predetermined width cut by the first and second cutting steps S1 and S2, respectively;
Semi-circular forming step (S4) of forming the first and second container members (100, 110) formed in a circular shape, respectively, in a semicircle with one side as a flat surface using a jig,
A second joining step (S5) of joining and fixing a bottom surface, that is, a lower end, by thermal bonding after facing the flat surfaces of one side of the first and second container members 100 and 110 formed in a semicircular shape;
The neck part 20 having a discharge port 200 covering the entirety of the plurality of openings 101 and 111 after filling the contents into the upper plurality of openings 101 and 111 in a state where the lower end is sealed by the second bonding process S5. Method for producing a tube container consisting of a neck joining step (S6) to thermally bond the integral.

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