KR100600937B1 - High Impermeability Tube - Google Patents

Abstract

The present invention discloses a high barrier tube.

The high-shielding tube according to the present invention is a body formed by tubing a laminate sheet including a gas barrier layer in the form of a roll, a lead cap provided by pressing and washing an aluminum base material, and on the inner and outer surfaces of the lead cap. A coating layer formed by coating with a coating material having corrosion resistance and chemical resistance selectively, and a body and a lead cap are respectively provided in a tube-shaped tube mold including a body part, a shoulder part, and a lead cap part, and resin is injected on the outer surface of the shoulder It is a configuration including a surface layer to be integrated while forming a.

The high-shielding tube configured as described above, in forming the tube, press-forms an aluminum base material to form a lead cap, and the lead cap is formed in a tube mold having a tube shape together with the roll-shaped body. Since the tube is manufactured by integrating the lead cap and the body by injecting resin into the outer surface, it is possible to shorten the process by not requiring the process of attaching the conventional lead seal, and also solve various problems caused by the adhesion of the lead seal. It can be useful.

Tube, Laminate, Lead Cap, Aluminum

Description

High Impermeability Tube Manufacturing Method

1 is a perspective view for explaining a high barrier tube according to the prior art,

2 is a flowchart illustrating a method for manufacturing a high barrier tube according to an embodiment of the present invention;

3 is a view showing a tube formed by a high-shielding tube manufacturing method according to an embodiment of the present invention,

4 is a view schematically showing a forming process of a high-breaking tube manufacturing method according to an embodiment of the present invention.

<Description of the code | symbol about the principal part of drawing>

10: body

20: lead cap

30: coating layer

40: surface layer

50: shoulder

60: tube mold

The present invention relates to a high-shielding tube, and more particularly, to a high-shielding tube and a method for manufacturing the same, which improve the preservation of the contents by improving the molding process of the lead cap forming the extrusion hole of the tube.

In general, high-shielding tube refers to a tube for packaging such as cosmetics or pharmaceutical products ointment or the content for preserving the fragrance, look at the type is divided into aluminum tube and laminate tube largely formed of aluminum depending on the material.

The aluminum tube is used for the packaging of medicines or contents requiring chemical resistance, and is usually formed into a cylindrical shape of a predetermined size of the aluminum agglomerate by impact extrusion method, heat treatment process and printing process (convex plate offset tube printing machine) To a finished tube).

The aluminum tube manufactured as described above can be maintained in the entire body except the cap to maintain high barrier to gas and moisture, but is easily deformed due to the low restoring force of aluminum metal, which is inconvenient to use and also severely. In the case of bending, the bent portion is cut or broken, and the contents are leaked to the outside, which adversely affects the contents retention.

In order to overcome this disadvantage, a laminate having high resilience while maintaining high barrier properties has been developed.

The laminate tube is used as a tube for packaging toothpaste or food and ointment, which are various pasty materials, and is usually manufactured by extruded lamination to form a sheet by adhering the substrate to an adhesive resin and then sheeting it. It cuts into sheet or roll state, makes a finished tube through printing process and seal process for cylindrical molding, and performs sealing function after filling the final contents. It is.

The sheet forming the body in such a laminate tube is made of a gas barrier layer of aluminum thin plate as a gas barrier layer and a plurality of polymers laminated, and a copolymerization film of ethylenevinylalcohol, a high barrier plastic, as a gas barrier layer. It is distinguished by the type which laminated | stacked the polymer of.

1 is a view showing an embodiment of the manufacturing of a high barrier tube using a laminate sheet according to the prior art. As shown in the figure, the tube is processed into a cylindrical sheet in a large cylindrical shape, and one end is sealed-molded, the shoulder 200 joined to the other end of the body 100, and the shoulder It consists of a lead chamber 250 and a cap 300 which seal the inlet of the 200.

The body 100 is formed of a multilayered sheet, wherein the sheet includes a gas barrier layer made of a thin aluminum sheet or a high barrier plastic film, and an adhesive resin layer formed by extruding adhesive resin on both sides of the gas barrier layer; It consists of a multi-layered structure with a surface layer made by adhering a polyethylene film such as LLDPE (Liner Low Density Poly Ethylene) to the adhesive resin layer. It is completed by doing.

The shoulder 200 is formed in an approximately fallopian tube shape as shown in the drawing and the inlet is formed to squeeze the contents filled in the body 100 to the outside.

That is, since the shoulder 200 is mostly bonded to the other opening of the tube and has a shape capable of extruding the contents filled in the body 100, the shoulder 200 is injection molded from a resin such as polyethylene. The shoulder 200 is bonded by high frequency or heat welding. In the case of high frequency bonding, when the aluminum layer of the body 100 is heated, the sheet and the shoulder 200 are continuously joined while the aluminum layer is heated. .

The lead seal (SEAL) 250 is provided in the opening of the shoulder 200 to maintain the airtight state after the contents are filled in the body 100 is usually bonded by applying an adhesive such as a hot melt on an aluminum thin film. The lead seal 250 is integrally formed with a handle protrusion so that the user can easily separate.

The cap 300 is formed by injection and is a member that covers a portion of the opening side of the shoulder 200 as described above. The cap 300 is coupled to the shoulder 200 by screwing or is provided by an elastic fitting structure.

However, the high-shielding tube of the above structure has a disadvantage in that the sealing state is weak by adhering the lead seal using an adhesive resin such as hot melt.

In more detail, in recent years, nitrogen is filled into the tube to prevent the dispersal of the contents. At this time, the molding state on the opening side is not uniform, so that the adhesive state with the hot melt is incomplete, and the leakage phenomenon occurs. It caused a problem.

In addition, when external force is applied to the tube filled with contents, the structurally vulnerable lead seal part is easily separated, and even when the storage temperature of the tube is high, the adhesive strength of the hot melt decreases, so that the lead seal cannot maintain the sealed state. As a result, air is introduced into the tube, and the contents are deteriorated or the contents are leaked to the outside, thereby reducing the merchandise and reliability as a storage container.

The present invention has been made in order to solve the above problems, by injecting a lead cap formed by pressing the aluminum together with the body to form a shoulder integrally while producing a tube by the contents leakage due to the lead seal provided by the adhesive method and It is an object of the present invention to provide a high barrier tube that can prevent the deterioration of the source.

According to an aspect of the present invention, there is provided a method of manufacturing a high barrier tube, comprising: tubing a laminate sheet including a gas barrier layer in a roll form to form a body; Pressing the aluminum base material to form and wash the lead cap; Forming a coating layer with any one of paints having corrosion resistance or chemical resistance on inner and outer surfaces of the lead cap; It characterized in that it comprises the step of forming a surface layer with a shoulder using a resin integrally with the body and the lead cap and the outer surface of the tube mold having a tube shape.

One preferred feature of the present invention is to wash using ultrasonic and degreasing detergent in the washing step of the retcap.

Another desirable feature of the present invention, in the washing step of the lid cap, it is to wash by incineration of impurities using a heating furnace.

As another preferred feature of the present invention, the coating layer is selectively used among vinyl-based, phenol-based, epoxy-based, and epoxy phenol-based paints, and is formed by drying at 160 ° C to 200 ° C for 5 to 10 minutes.

In another preferred aspect of the present invention, the tube mold is composed of a body portion provided with a body, a fallopian tube-shaped shoulder portion extending from one end of the body portion, and a lead cap portion extending from one end of the shoulder portion and provided with a lead cap. It is in becoming.

A high barrier tube according to the present invention includes a body formed by tubing a laminate sheet including a gas barrier layer in a roll form; Lead cap is provided by pressing the aluminum base material and washing it; A coating layer formed by coating any one of paints having corrosion resistance or chemical resistance on the inner and outer surfaces of the lead cap; It is characterized in that it comprises a surface layer which is provided with a body and a lead cap in the tube-shaped tube mold made of a lead cap portion of the body portion and the shoulder portion, and by injecting a resin on the outer surface thereof to form a shoulder to be integrated.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are consistent with the technical spirit of the present invention based on the principle that the inventor can appropriately define the concept of the term in order to explain the invention in the best way. It must be interpreted as meaning and concept.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the high-shielding tube manufacturing method according to the present invention.

2 is a flowchart illustrating a method of manufacturing a high barrier tube according to an embodiment of the present invention, Figure 3 is a view showing a tube formed by a method of manufacturing a high barrier tube according to an embodiment of the present invention. 4 is a view schematically illustrating a molding process of a method for manufacturing a high barrier tube according to an embodiment of the present invention.

As shown therein, the high-breaking tube according to the present invention looks at a body 10 which provides a space in which contents are filled and a lid provided to open and close the contents filled in the opening side of the body 10. Cap 20, the coating layer 30 is formed by selectively coating a predetermined thickness on the inner and outer surfaces of the lead cap 20, and the injection molding is formed on the outer surface of the body 10 and the lead cap 20 to integrate them It consists of the surface layer 40 provided with.

The body 10 is formed of a multilayer laminate sheet, the sheet being a gas barrier layer made of a thin aluminum sheet or a high barrier plastic film or a coextrusion film, and an adhesive layer formed by extruding adhesive resin on both sides of the gas barrier layer. And a heat-adhesive surface layer formed by adhering a polyethylene film material such as LLDPE (Liner Low Density Poly Ethylene) to the adhesive layer, which is tubing, that is, rolled and bonded in a roll form and sealing one side opening. Completed by

Such a structure of the body 10 may be implemented in the same manner as before, and in the present invention, if the body 10 has a structural feature having gas barrier properties, the shape or material may be variously modified. .

The lead cap 20 is a part for quantitatively discharging the contents filled in the body 10 to the outside to press-process the aluminum base material and is formed in a cup shape.

Referring to the molding process of the lead cap 20 as follows.

First, an aluminum sheet having a predetermined size or a billet of aluminum agglomerate (billet) is pressed to have a cylindrical shape to complete the form, the press working is molded using at least one mold.

Second, the press-formed lead cap 20 washes impurities such as powder or drawing oil and hydraulic fluid generated in the pressing process.

Here, the cleaning method of the lead cap 20 is made through a method of cleaning the surface using an ultrasonic cleaning or a degreasing cleaner, and incineration of impurities at a high temperature using a heating furnace.

Third, the lead cap 20 from which the impurities are washed is formed with a coating layer 30 formed of paint having corrosion resistance or chemical resistance on its inner surface and outer surface. That is, the coating layer is formed on the inner surface and the outer surface of the lead cap 20 as a coating material, at this time, any one of the coating material having corrosion resistance or chemical resistance is used.

Here, the coating layer 20 may be formed of any one of vinyl, phenol, epoxy, and epoxy phenol based paints, depending on the characteristics of the contents. The resin to be applied may have a constant temperature of 160 ° C. to 200 ° C. The coating layer 30 is completed by drying the film for 5 to 10 minutes to completely cure the coating. At this time, a method of coating the resin in a liquid phase and spraying the same using a spray injector is used.

The lead cap 20 configured as described above does not require the contents sealing process using the conventional lead seal, and the consumer selectively drills a hole using a chimpan (usually formed integrally with the rear side of the cap). As a result, the contents can be prevented from being leaked and deteriorated through the conventional lead seal.

The surface layer 40 includes a body 10 and a lead cap 20 in a tube mold 60 having a tube shape, and an outer surface thereof is integrally injected with a resin to be formed together with a shoulder 50. Resin is used.

That is, the surface layer 40 is the outer surface of the body 10 and the lead cap 20 in a state in which the body 10 and the lead cap 20 are positioned at the corresponding positions of the tube mold 60 in the form of tubes, respectively. It is formed by injection molding integrally with polyethylene series resin.

On the other hand, the tube mold 60 is a body portion to which the body 10 is fitted, a shoulder portion connected to one side of the body portion and having an approximately fallopian tube shape, and a lead connected to one side of the shoulder portion to quantitatively discharge the contents. Cap 20 is composed of a lead cap portion is fitted. In this configuration, when the body 10 and the lead cap 20 are provided with the body portion and the lead cap portion of the tube mold 60, respectively, and the surface layer 40 is formed by injection into the outer surface, the shoulder 50 is naturally formed. ) Is formed so that the body 10 and the lead cap 20 can be provided integrally.

As described above, the high-breaking tube according to the present invention is to press-process the lead cap 20 in the form of a cup and to integrally inject it with the body 10, the finished tube is the other side of the body 10 After filling the contents through the openings, the portions are sealed by welding or bonding.

Looking at the manufacturing process of the high-shielding tube of the present invention configured as described above in detail as follows, the high-shielding tube of the present invention requires a tube mold 60 having a tube shape, the tube mold 60 at this time ) Is a body portion having a body 10 for filling the contents, a shoulder-shaped shoulder portion extending from one end of the body portion, and a lead extending from one end of the shoulder portion and having a lead cap 20. It is a structure which consists of a cap part.

First, the laminate 10 including the gas barrier layer is tubed in the form of a roll to form the body 10.

Subsequently, the aluminum base material is pressed into a container to form and wash the lead cap 20. In this case, the cleaning method may be performed by washing with ultrasonic waves or a degreasing cleaner or by incineration of impurities by heat treatment at a high temperature.

In addition, the coating layer 30 is formed of a paint having corrosion resistance or chemical resistance on the inner surface and the outer surface of the lead cap 20 where the cleaning is completed. That is, the coating layer is formed on the inner and outer surfaces of the lead cap with a paint having one selected from corrosion resistance and chemical resistance. Here, as the material of the coating layer 30, any one or more of vinyl-based, phenol-based, epoxy-based, and epoxy phenol-based paints may be selectively used, and may be formed by drying at 160 ° C to 200 ° C for 5 to 10 minutes.

Subsequently, the body 10 and the lead cap 20 are positioned in the body portion and the lead cap portion of the tube mold 60 having a tube shape, and the outer surface is integrally injected into the resin to form the surface layer 40. At this time, the surface layer 40 is integrally formed on the surface of the body portion and the lead cap 20 to form a shoulder 50 to connect them integrally.

As described above, the shoulder 50 connecting the body 10 and the lead cap 20 in the process of forming the surface layer 40 by injection of the body 10 and the lead cap 20 provided in each process. The tube is completed as it is generated.

The completed tube may fill the contents through the other opening of the body 10 and then seal the portion by welding.

On the other hand, the present invention is not limited to the described embodiments, it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

The high-shielding tube constructed and operated as described above is formed by pressing an aluminum base material to form a lead cap in forming a tube, and the lead cap thus formed is provided in a tube mold having a tube shape together with a roll-shaped body. Since the tube is manufactured by integrating the lead cap and the body by injecting the resin into the outer surface of the back, the process can be shortened by not requiring a process of adhering the conventional lead seal, and also causing various problems caused by the adhesion of the lead seal. It provides a useful effect that can be solved.

In other words, since the lead cap is molded by pressing, the process of sealing the opening using the lead seal is not required, and thus the preservation of the contents can be significantly improved compared to the existing tube, and thus, the reliability can be improved. .

Claims (6)

Tubing the laminate sheet including the gas barrier layer in the form of a roll to form a body; Pressing the aluminum base material to form and wash the lead cap; Forming a coating layer with any one of paints having corrosion resistance or chemical resistance on inner and outer surfaces of the lead cap; Forming a surface layer with a shoulder using a resin integrally with an outer surface of the body and a lead cap in a tube mold having a tube shape; High-breaking tube manufacturing method comprising a. The method of claim 1, wherein the washing process of the lead cap is performed using ultrasonic waves and a degreasing cleaner. The method of manufacturing a high barrier tube according to claim 1, wherein in the washing step of the lid cap, an impurity is incinerated and cleaned by using a heating furnace. According to claim 1, wherein the coating layer is selectively used among vinyl-based, phenolic, epoxy-based, epoxy phenolic-based paints, higher order, characterized in that formed by drying for 5 to 10 minutes at 160 ℃ to 200 ℃ Single tube manufacturing method. 4. The tube mold according to claim 1, wherein the tube mold has a body portion provided with a body, a fallopian shoulder portion extending from one end of the body portion, and a lead cap extending from one end of the shoulder portion and provided with a lead cap. High-breaking tube manufacturing method characterized in that consisting of. A body formed by tubing a laminate sheet including a gas barrier layer in a roll shape; Lead cap is provided by pressing the aluminum base material and washing it; A coating layer formed by coating any one of paints having corrosion resistance or chemical resistance on the inner and outer surfaces of the lead cap; A surface layer having a body and a lead cap respectively provided in a tube-shaped tube mold including a lead portion of a body portion and a shoulder portion, and having a shoulder formed by injecting a resin into an outer surface thereof to form a shoulder; Highly shielding tube comprising a.

Images