KR20110083070A - Packing film - Google Patents

Abstract

PURPOSE: An one-way breakable film is provided to mold three layers of a heat-resistant layer, a direction layer and a slip layer through a coextrusion process simultaneously and to hold an one-way breakable feature. CONSTITUTION: The one-way breakable film is composed of a heat-resistant layer, a direction layer and a slip layer, and is torn into a specific direction. The content layer, the direction layer and the slip layer are composed of different resins with each other. A water vapor permeability is 0.3g/m2/24h or less. An air transmittance is 0.1cm3/cm2/s or less.

Description

Unidirectional Fractureable Film {PACKING FILM}

The present invention relates to a unidirectional fracture resistant film, and more particularly, to a unidirectional fracture resistant film having excellent unidirectional fracture resistance, air permeability, and moisture permeability by simultaneously molding three layers of a heat resistant layer, an aromatic layer, and an aromatic layer in a coextrusion process. will be.

In general, if a pharmacy sells pharmaceuticals, they use medicine bags to package the medicines. Such medicine bags should have good tearing properties and properties that can block air and moisture. That is, when you want to take the packaged medicine, it should be able to easily break the medicine bag. At this time, the direction in which the medicine bag is broken may be made only in a specific direction, so that the tearing direction may be predicted, thereby preventing the medicine from spilling.

In addition, the moisture inside the package must not penetrate the drug inside the packaging does not deteriorate or deform. In addition, the inside of the medicine bag should be excellent in the slip (slip) property so as not to get the medicine ingredients well.

These various characteristics are not only medicine bags, but are also commonly requested by various packaging materials such as food packaging materials.

By the way, the conventional medicine bag has a material attached to the cellophane paper using an adhesive on the surface of the polyethylene (Poly Ethylen) film. Therefore, there is a problem of weak unidirectional fracture resistance and weak slip performance.

The technical problem to be solved by the present invention is to provide a unidirectional fracture film excellent in one-way fracture resistance, air permeability and moisture permeability by simultaneously molding three layers of the heat-resistant layer, the aromatic layer and the aromatic layer in a coextrusion process.

One-way breakable film according to the present invention for solving the above-described technical problems, consists of three layers of a heat-resistant layer, an aromatic layer and a slip layer, and has a characteristic of tearing in a specific direction.

The unidirectional fracture resistant film of the present invention is characterized in that the heat-resistant layer, the aromatic layer, and the slip layer are simultaneously formed by co-extrusion of three resins.

And the unidirectional breakable film of the semi-invention is characterized in that the air permeability is 0.1 cm ³ / cm ² / s or less, and the water vapor transmission rate is 0.3 g / m ² / 24h or less.

In addition, the content layer, the aromatic layer and the slip layer is characterized in that made of different resins.

According to the present invention, air permeability and moisture permeability are excellent. In addition, since the heat-resistant layer, the aromatic layer, and the slip layer are formed integrally without using an adhesive, the inner surface has an excellent slip property, and when used as a medicine bag, there is an advantage that the contents do not get stuck. There is an advantage that the damage caused by heat used in the sealing process does not occur.

In addition, the unidirectional breakable film according to the present invention has an air permeability of 0.1 cm ³ / cm ² / s or less and a moisture permeability of 0.3 g / m ² / 24h or less, so that the storage of products that need to block moisture and external air, such as drugs or food And suitable for packaging.

In addition, there is an advantage that the directional layer is consistently and easily torn only in a specific direction, and selectivity that is not torn in other directions is good.

1 is a schematic cross-sectional view showing the structure of a pressure-sensitive adhesive film according to an embodiment of the present invention.

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

As shown in FIG. 1, the unidirectional fracture resistant film 1 according to the present exemplary embodiment may have a heat resistant layer 10 and a slip layer 20. 1 is a view schematically showing the cross-sectional shape of the unidirectional fractureable film according to an embodiment of the present invention. In the present embodiment, the "unidirectional fracture property" refers to a property of being easily torn while having a directionality in a specific one direction and not being torn or being very difficult to be torn in other directions.

In this embodiment, the heat-resistant layer 10 has a property that can withstand heat above a certain temperature, even after using the one-way breakable film according to this embodiment to insert the contents, using heat in the process of sealing the film It provides enough characteristics to withstand this. For example, when the one-way fracture film according to the present embodiment is used in a medicine bag, the prepared medicine is put in a bag, and then the inlet is heat sealed. In this process, the heat-resistant layer 10 is formed on the outer surface of the medicine bag. ) Is located to prevent heat damage or deformation. This heat resistant layer 10 is ?? ~ ?? It is configured to withstand temperatures of about ℃.

In the present exemplary embodiment, the heat resistant layer 10 may be formed at a predetermined depth from one surface of the unidirectional breakable film 1, for example, about the first depth d1 in the graph 1. This first depth d1 is a very important factor in the performance of the unidirectional breakable film, and thus needs to be precisely adjusted. Therefore, in the one-way breakable film 1 according to the present embodiment, the first depth d1 is preferably adjusted to about 5% to 50% of the total film thickness. In this case, when the first depth d1 is 5% or less, the heat resistance is too low. When the first depth d1 is 50% or more, the physical properties of the unidirectional fracture resistant film are inferior.

In addition, various materials may be used for the heat resistant agent 12 distributed in the heat resistant layer. For example, PE, PP, PET, or the like may be used. In addition, these heat-resistant agents may be used alone, or a mixture of two or more may be used.

In the unidirectional fracture resistant film according to the present embodiment, the heat resistant agent 12 preferably has a concentration distribution as shown in Graph 1 below.

<Graph 1>

That is, the concentration of the heat-resistant agent 12 component is maintained at a constant depth from one surface of the unidirectional breakable film toward the middle portion, i.e., from the first depth d1 until the first depth d1. The concentration of the heat resistant component is drastically reduced and eventually has a distribution in which the heat resistant component disappears. Herein, the portion up to the first depth d1 having a constant value of the heat resistant component is defined as the heat resistant layer 10.

Meanwhile, in the unidirectional fractureable film according to the present embodiment, the film itself may be made of various resins. For example, it may be made of any one selected from PP, PE, PET, or a mixture thereof.

Although the whole one-way breakable film may consist of one resin here, the part which comprises a heat-resistant layer and resin which comprises the remainder may be comprised differently. For example, the part constituting the heat resistant layer 10 may be made of polypropylene (PP) resin, and the remaining part may be made of poly ethylene (PE) resin. The resin is composed differently according to each part of the film because there is an advantage that can be easily molded while uniformly blending the heat-resistant component.

In addition, although the heat-resistant layer 10 and the remaining portions are shown as being separated on FIG. 1 in the present embodiment, the interface may be indeterminate and may not be clearly distinguished. In other words, the heat-resistant component continues to decrease and will not appear at any depth or more, but the depth may vary depending on the position of the film. In addition, when the heat-resistant layer and the remaining portions are made of different resins, the interface is not clearly distinguished, but at the interface, different resins may be mixed to have an unclear state.

Next, the slip layer 20 refers to a portion where the slip agent 22 is distributed on the opposite surface of the heat resistant layer 10 by a second depth d2 from the surface. This slip layer 20 imparts a property of not depositing any substance on the film surface. For example, when the one-way breakable film according to the present embodiment is used for the medicine bag, the slip layer 20 is disposed on the inner surface of the medicine bag, thereby preventing the injected medicine powder or the like from sticking to the bag inner surface.

In this embodiment, the slip layer 20 also has a structure in which the slip agent component is distributed inside the unidirectional breakable film 1 similarly to the heat-resistant layer described above. Therefore, there is an advantage that the slip agent component is not exposed or leaked from the film at all in the use process.

Here, the second depth d2 in which the slip agent 22 component is distributed is preferably 5% to 40% of the total thickness of the unidirectional breakable film 1. If the second depth d2 is 3% or less, there is a problem in that slip performance is not properly implemented. If the second depth d2 is 40% or more, there is a problem in that molding of the unidirectional fractureable film is difficult.

In the present embodiment, various components may be used as the slip agent 22. For example, one of silicone series may be used alone or a mixture thereof may be used.

On the other hand, in the present embodiment, the slip agent 22 is characterized by having a concentration distribution as shown in Graph 2 below.

<Graph 2>

That is, like the heat-resistant layer 10 described above, the slip layer 20 maintains the slip agent 22 component at a constant concentration up to a constant depth, but rapidly decreases the concentration of the slip agent component after the constant depth d2. In the end, you have a graph that disappears. In this case, the second depth d2 in which the slip agent component is kept constant has a very important meaning. In this embodiment, the second depth d2 is about 5 to 40% of the total film thickness. desirable.

The slip layer 20 may also be composed of the same resin component as the heat-resistant layer 10 described above, although the resin component constituting the slip layer 20 may be made of the same resin as the resin component constituting the remaining portions. . Accordingly, the resin constituting the heat resistant layer 10, the resin constituting the slip layer 20, and the resin component constituting the remaining portion may each have a three-layer shape.

In this embodiment, the middle portion of the entire film except for the heat-resistant layer 10 and the slip layer 20 forms an aromatic layer. Here the fragrance layer serves to provide unidirectional breakability. The unidirectional fracture resistant film according to the present embodiment is co-extruded to form the heat-resistant layer, the aromatic layer and the slip layer. Therefore, it is possible to have a different function for each layer of the film without using a separate adhesive or the like.

10: heat resistant layer 12: heat resistant agent
20: slip layer 22: slip agent

Claims (5)

A unidirectional fracture resistant film composed of three layers of a heat resistant layer, an aromatic layer and a slip layer, and torn in a specific direction. The method of claim 1,
The heat resistant layer, the aromatic layer, and the slip layer are unidirectional breakable films, characterized in that formed by co-extrusion of three resins. The method of claim 2,
Air permeability is 0.1 cm ³ / cm ² / s or less, characterized in that the breakable film in one direction. The method of claim 2,
Moisture permeability is 0.3g / m ² / 24h or less, characterized in that the breakable film in one direction. The method of claim 2,
The inner layer, the aromatic layer, and the slip layer is a unidirectional breakable film, characterized in that made of different resins.

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