KR20090055963A - Heat-shrinkable foamed film for label of glass bottles and method of preparing same - Google Patents

Abstract

A heat-shrinkable foamed film for a label of glass bottles is provided to reduce manufacturing and delivery costs by forming a base film having cushion property. A shrinkable foaming film(10) has a cushion property so that it protects a glass bottle from an external impact. A heat shrinkable foaming film has enough shock resistance and a printability which is the requisite for being used as a label, seaming property, and a standard stability. A manufacturing method of the heat shrinkable foaming film includes a process of mixing a polystyrene resin with a foaming agent and manufacturing the basic film promulgated with an extrusion method.

Description

Heat-Shrinkable Foamed Film for Label of Glass Bottles and Method of Preparing Same}

1 is a schematic perspective view of a label on a glass bottle container with a heat shrinkable foam film according to the present invention.

FIG. 2 is a schematic perspective view of a heat shrinkable foam film tubing or seaming cylindrically before forming a label on a vial container, ie prior to shrinkage.

Brief description of the main symbols in the drawings

10: shrinkable foam film 11: bonded portion

20: glass bottle container

Field of invention

The present invention relates to a heat shrinkable film for labels used when a label is to be formed on the exterior of various containers. More specifically, the present invention relates to a heat-shrinkable foam film for labels that can prevent breakage of glass bottles by providing cushioning properties when a label is formed on the outer circumference of the glass bottle.

Background of the Invention

The heat shrinkable film for labels is used for labels formed to surround the outer circumference of various containers such as polyester (PET) bottles and glass bottles. That is, the necessary content is printed on the heat-shrinkable film for labels, and the printed film is centrally attached to the container by tubing, and the film is adhered to the outer circumference of the bottle by forming a heat shrink by applying hot air from the outside.

The present inventors have already developed a heat shrinkable film having a high shrinkage and have been patented by Korean Patent No. 741935. In this patent, by developing a film with high shrinkage through two-stage stretching, various types of containers can be labeled.

However, when the container is a glass bottle, a product packaged in a box is often broken during transportation. For example, when transporting liquid oral medicine products including various carbonated drinks and drinks, glass bottles are broken by external impact. If any glass bottle is broken, the entire contents of the box must be discarded because the liquid contents spread throughout the box.

Until now, these glass bottles have used a heat shrinkable film or paper as a label. However, the conventional heat shrinkable film or paper does not have enough cushioning properties to protect the glass bottle from external impact.

As such, in order to prevent the glass bottle product from being damaged by external impact during transportation, the present inventors have developed the foam film of the present invention having impact resistance for glass bottle container labels.

When the heat-shrinkable foam film of the present invention is used as a vial container label, it has been shown that the breakage of the vial can be sufficiently prevented from external impact, and as a result, the thickness of the vial can be significantly reduced. Thinner glass bottles can reduce manufacturing costs and reduce transportation costs.

In addition, glass bottles using the heat-shrinkable foam film of the present invention as a label is easier to recycle than glass bottles using a conventional paper as a label. If paper is used as a label, the label is attached using adhesive. And the process is not simple because the label has to be burned to separate the glass during recycling. However, when the heat-shrinkable foam film of the present invention is used, the glass and the label can be easily separated by crushing the glass bottle during recycling, and the separated glass and the label can be recycled.

An object of the present invention is to provide a heat-shrinkable foam film for labels having impact resistance, that is, cushioning properties, to prevent breakage of the vial container from external impact.

Another object of the present invention is to provide a heat-shrinkable foam film for labels having a shock resistance that can reduce the thickness of the glass bottle by preventing the breakage of the glass bottle container, and eventually reduce the manufacturing cost and transportation cost of the glass bottle. .

It is still another object of the present invention to provide a heat shrinkable foam film having sufficient impact resistance to prevent breakage of the vial container as well as good printability, seaming, and specification stability, which are requirements for use as a label. It is to.

It is another object of the present invention to provide a heat shrinkable foam film that facilitates separation of glass and labels during recycling.

The above and other objects of the present invention can be achieved by the present invention described below.

Summary of the Invention

The heat-shrinkable foam film for glass bottle container labels of the present invention is mixed with a polystyrene resin 0.2 to 0.7% by weight of the foaming agent to produce a base film having a foaming ratio of 1.5 to 2.5 by the extrusion method, and the base film It is characterized by extending | stretching and manufacturing.

Stretching of the base film can be performed by conventional one-step stretching or two-step stretching according to Patent No. 741935. However, the final heat-shrinkable foamed film should be stretched to have a shrinkage of at least 30% at 90 ° C or at least 60% at 110 ° C.

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

Detailed Description of the Invention

The present invention relates to a heat-shrinkable foam film for labels that can impart impact resistance, that is, cushion (cushion) when the label is to be formed on the outer circumference of the glass bottle to prevent the glass bottle from being damaged from external impact.

Liquid oral medicine products, including various carbonated drinks and drinks, mainly use glass bottle containers. When transporting them, glass bottles are broken by external impact. These glass bottles have used a heat shrinkable film or paper as a label. However, the conventional heat shrinkable film or paper does not have sufficient impact resistance to protect the glass bottle from external impact.

The present invention relates to a heat-shrinkable foam film capable of imparting impact resistance and preventing damage to the glass bottle from external impact. Among the heat-shrinkable films for labels that have been used so far, no foam film has been developed that can protect the container from external impact. When the container is made of synthetic resin such as PET, PE, PP, there is no risk of breakage, so there is no need for a foamable film having impact resistance. However, when the container is a glass bottle, since paper is mainly used for labeling, it is often broken by an external shock. That is, the conventional glass bottle product prints the contents necessary for a label made of paper, and the printed label is adhered to the glass bottle using an adhesive. Since such paper labels or heat shrinkable film labels do not have impact resistance, damage due to impact cannot be prevented.

The heat-shrinkable foam film for glass bottle container labels of the present invention is mixed with a polystyrene resin 0.2 to 0.7% by weight of the foaming agent to produce a base film having a foaming ratio of 1.5 to 2.5 by the extrusion method, and the base film It is characterized by extending | stretching and manufacturing.

The heat shrinkable film for labels is made of synthetic resin such as polystyrene (PS), polyvinyl chloride (PVC), polyester (PET) and the like, but the heat shrinkable foam film of the present invention is preferably made of PS. This is because PS is most effective for imparting foamability.

The heat-shrinkable foam film for labels of the present invention prepares a foamed base film by extrusion by mixing a foaming agent with a polystyrene resin. It is important that the foamed base film has a foaming ratio of 1.5 to 2.5. If the foaming ratio is less than 1.5, sufficient cushioning cannot be imparted, and thus sufficient breakage prevention cannot be expected. On the other hand, when the foaming ratio is 2.5 or more, the cushioning property is good, but since it has a considerable volume, there is no product value as a label.

The blowing agent is preferably used in an amount of 0.2 to 0.7% by weight compared to the polystyrene resin, which is a content considering the foaming ratio of the foamed base film. This is because when a foaming agent of 0.2% by weight or less is used, a foaming ratio of 1.5 or more cannot be expected, and when a foaming agent of 0.7% by weight or more is used, the foaming ratio becomes 2.5 or more.

Blowing agents used in the present invention include organic and inorganic blowing agents. Examples of commercially available azodicarbonamide, p, p'-oxybis (benzene sulfonyl hydrazide), p-toluene sulfonylhydrazide (p-tolune sulfonyl hydrazide, p-tolune sulfonyl acetone hydrazone, N, N'-dinirosopentamethylene tertamine, p-toluene sulfonyl semimicarba P-tolune sulfonyl semicarbazide, 5-phenyltertazole, sodium bicarbonate, and the like.

The foamed film has a microscopic structure in which cells containing bubbles are uniformly produced therein, and the cells are small and uniformly distributed in order to produce a high quality foamed film. The blowing agent should be able to generate gas uniformly during the extrusion process so that the small cells are uniformly distributed. The blowing agent is mixed with the polystyrene resin, heated and extruded in a molten state to prepare a sheet-shaped base film. The blowing agent generates a gas when heated in the resin.

As the polystyrene resin used in the present invention, any conventional polystyrene resin that has been used as a raw material for a heat shrinkable film for labels can be used.

The foamed base film prepared above is subjected to the stretching step to give a shrinkage rate. The heat-shrinkable foamed film of the present invention should be stretched to have a shrinkage of at least 30% at 90 ° C or at least 60% at 110 ° C.

1 is a schematic perspective view of a label on a vial container 20 with a heat shrinkable foam film 10 according to the present invention, and FIG. 2 is a tubing cylindrically before forming a label on a vial container, ie before shrinking A schematic perspective view of a heat shrinkable foam film that has been tubing or seaming. When the foamed film tubed as shown in Fig. 2 is placed on the outer circumference of the glass bottle and shrunk in the heat chamber, it shrinks and adheres as shown in Fig. 1. Therefore, the heat shrinkable film should have a high shrinkage rate.

The stretching method developed to give a high shrinkage rate is a two-step stretching method according to Patent No. 741935. In order to manufacture the heat-shrinkable foamed film of the present invention, the two-step stretching method according to Patent No. 741935 may be applied as it is. In the two-stage stretching method, the base film is heated to the stretching optimum temperature in the heating portion, the heated base film is stretched in the TD direction at the stretching portion, the stretched film is fixed at the tempering portion, and the fixed stretched film is cooled at the cooling portion. The first stage stretching is gradually annealed, and the stretched film subjected to the first stage stretching is continuously heated to another stretching temperature at another heating portion, and the heated primary stretched film is moved from the stretching portion to the TD direction. It is a method of manufacturing the heat shrinkable film which has high shrinkage by extending | stretching and fixing a stretched film in a anneal part, and performing a 2nd step extending | stretching which fixes a fixed stretched film gradually in a cooling part.

In addition, it is also possible to produce the heat-shrinkable foam film of the present invention by a one-step stretching method conventionally applied.

The shrinkage rate of the heat shrinkable film for labels may vary depending on the shape of the container to which the film is applied. That is, when the shape of the container is simple and the change in the contracted portion is not large, it is sufficient to have a small shrinkage rate. However, if the change of the contracted part is large, it should have a high shrinkage rate. Therefore, one-step drawing or two-step drawing may be selected as necessary, and this may be easily performed by those skilled in the art.

In order to use as a film for labeling, in addition to shrinkage, generally printability, seaming property, and standard stability should be good. Even if the shrinkage rate or impact resistance is good, it cannot be used because of poor printability, adhesiveness, and standard stability. The heat-shrinkable foamed film of the present invention has good printability and there is no problem to use. In addition, the heat-shrinkable foam film of the present invention also has good adhesion. 2 schematically shows a film seaming before shrinking. The bonding part 11 of FIG. 2 is a cylindrical shape by seaming both edges of the film, and the bonding property is good to facilitate the labeling operation.

The heat-shrinkable foam film for labels should have good standard stability. Although only one tubed label is shown in FIG. 2, in the actual working process, since they are automatically cut one by one and continuously, the continuous automatic process cannot be performed unless the standard stability is good.

When the heat-shrinkable foam film of the present invention is used as a vial container label, it has been shown that the breakage of the vial can be sufficiently prevented from external impact, and as a result, the thickness of the vial can be significantly reduced. Compared to the case of using a conventional paper label, it is possible to reduce the glass raw material by about 20% to manufacture a thin glass bottle. As such, even if the glass bottle became thin, it was found that it could sufficiently prevent breakage due to external impact. Since glass raw materials are reduced, manufacturing costs can be reduced, and transport costs can be reduced accordingly.

Glass bottles using the heat-shrinkable foam film of the present invention as a label is also easier to recycle than glass bottles using conventional paper as a label. If paper is used as a label, the label must be burned off during recycling to separate the glass. However, when the heat-shrinkable foam film of the present invention is used, the glass and the label can be easily separated by crushing the glass bottle during recycling, and the separated glass and the label can be recycled.

The present invention has a shock resistance, that is, cushioning properties to prevent damage to the glass bottle container from external impact, and can reduce the manufacturing cost and transportation cost of the glass bottle, sufficient impact resistance as well as printing, bonding ( The invention has the effect of providing a heat shrinkable foam film having good seaming properties and standard stability.

Simple modifications and variations of the present invention can be readily used by those skilled in the art, and all such variations or modifications can be considered to be included within the scope of the present invention.

Claims (8)

Preparing a base film having a foaming ratio of 1.5 to 2.5 by extrusion by mixing 0.2 to 0.7 wt% of a blowing agent with respect to the polystyrene resin; And Stretching the base film; The manufacturing method of the heat-shrinkable foam film for glass bottle container labels which consists of a. The method for producing a heat shrinkable foam film for labeling a glass bottle according to claim 1, wherein the stretching step is performed by a one-step stretching method. The method for producing a heat shrinkable foam film for labeling a glass bottle according to claim 1, wherein the stretching step is performed by a two-step stretching method. The method of claim 3, wherein the two-step stretching method, Heating the base film to the drawing optimum temperature in the heating section, stretching the heated base film in the TD direction at the drawing section, fixing the stretched film in the tempering section, and slowly cooling and stabilizing the fixed stretched film in the cooling section ( annealing) the first step; And The stretched film subjected to the first stage stretching is successively heated to the optimum temperature at another heating portion, the heated primary stretched film is stretched in the TD direction at the stretched portion, and the stretched film is fixed at the tempered portion and fixed. A second step of gradually cooling and cooling the stretched film in the cooling unit; The manufacturing method of the heat shrinkable foam film for glass bottle container labels characterized by the above-mentioned. The method of claim 1, wherein the blowing agent is azodicarbonamide, p, p'-oxybis (benzene sulfonyl hydrazide), p- toluene sulfonylhydra P-tolune sulfonyl hydrazide, p-tolune sulfonyl acetone hydrazone, N, N'-dinitrosopentamethylene tertamine, p-tolune sulfonyl acetone hydrazone For vial container labels, characterized in that it is one or more selected from the group consisting of toluene sulfonyl semicarbazide, 5-phenyltertazole, and sodium bicarbonate Method for producing a heat shrinkable foam film. A heat shrinkable foam film for labeling a vial container produced by any one of claims 1 to 5. The heat-shrinkable foam film for labeling a glass bottle according to claim 6, wherein the heat-shrinkable foam film has a shrinkage ratio of at least 30% at 90 ° C or at least 60% at 110 ° C. The heat shrinkable foam film for labeling a glass bottle container according to claim 6, wherein the heat shrinkable foam film has a foaming ratio of 1.5 to 2.5.

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