JP2019077453A - Pouch for storing sealant - Google Patents

Abstract

To provide a pouch for storing liquid sealant for building material with excellent gas barrier and content resistance, capable of securing a transparent state in which contents in a container can be seen through.SOLUTION: An outer layer or an inter layer is made of clear vapor evaporation laminated films, and an inner layer is made of unstretched co-extrusion laminated film. Each layer is made up of a laminated film bonded by a lamination process. The clear vapor evaporation laminated film consists of a polyester film, a silica layer or an alumina layer laminated on one side of the polyester layer and a protection coating layer laminated on the silica/alumina layer. The unstretched co-extrusion laminated film consists of at least three kinds of resin films, and the outer or the inter layer is made of ethylene-vinyl alcohol copolymer or polyamide, and the inner layer is made of low-density polyethylene resin.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a sealing material storage pouch, and more particularly to a liquid sealing material storage pouch for building materials.

  Liquid sealants for building materials are materials used for attachment of bathtubs and sinks, repair of cracks in walls and columns, joints of concrete panels in homes, etc. It is marketed.

  By the way, a pouch is a bag container used in various fields, taking advantage of features such as low cost, light weight, ease of surface printing, etc. For example, FIG. 1 (E of Patent No. 4365160 (Patent Document 1) The spouted pouch shown in 2.) can be suitably used as a pouch for containing a liquid sealing material for construction materials.

  Patent Document 1 relates to an apparatus for manufacturing pouches, and makes no mention at all with regard to proposals on the constituent materials of the films of the pouch and the required characteristics of the pouch for housing a liquid sealing material for building materials.

  The liquid sealing material storage pouch for building materials is required to have sufficient gas barrier properties capable of blocking the outside air, and for example, a biaxially stretched polyamide film is laminated on one side of an aluminum foil as a constituent material thereof. An aluminum laminated film in which a linear low density polyethylene film is laminated on the other side can be used.

  By the way, the liquid sealants for building materials include those colored in gray, white, ivory, off-white, amber, beige, etc. The information on the color is displayed in characters on the container. In order to select a sealing material of a color that is more suitable for color tone, it is desirable that the transparency of the contents of the container can be maintained.

  However, since the aluminum laminated film itself is opaque, it is impossible to secure the above-mentioned transparent state as a constituent material of the liquid sealing material storing pouch for building materials.

  There are various liquid sealing materials for building materials such as amine compounds containing modified silicones and solvents containing butyl rubbers, but as the material of the pouch, sealing comprising various chemical components as described above Content resistance is also required to enable stable storage of materials.

Patent No. 4365160

  The present invention has been made in view of the above-mentioned circumstances, and its object is to provide a liquid sealing material for building materials which has sufficient gas barrier properties and resistance to contents and which can ensure the transparent state in which the contents of the container can be seen. It is providing a storage pouch.

  As a result of repeated studies, the present invention has found that the above-mentioned problems can be achieved by a combination of specific laminated films.

The present invention has been completed based on the above findings, and the gist is that the outer layer or the intermediate layer comprises the transparent vapor deposited laminated film described below, and the inner layer comprises the unstretched coextruded laminated film described below A pouch for storing a liquid sealing material for building materials, which is composed of a laminated film in which each layer is laminated by a lamination method.
A transparent vapor deposition laminated film consists of a polyester film and the silica layer or alumina layer vapor-deposited on the single side | surface, and the protective coating layer laminated | stacked on it.
The unstretched co-extrusion laminated film is composed of at least three types of resin films, and the outer layer or middle layer is composed of ethylene vinyl alcohol copolymer or polyamide, and the inner layer is composed of low density polyethylene resin.

  According to the present invention, the above object is achieved.

It is explanatory drawing which shows the measurement location of the seal | sticker intensity | strength employ | adopted in the Example.

  First, the configuration of the pouch of the present invention will be described. The pouch of the present invention is composed of a laminated film consisting of an outer layer or an intermediate layer and an inner layer, and each layer is bonded by a lamination method.

  As an example of the constitution, the outer layer or the intermediate layer of the above-mentioned laminated film is constituted by a transparent vapor-deposited laminated film comprising a polyester film and a silica layer or alumina layer vapor-deposited on one side thereof and a protective coating layer laminated thereon. Ru.

  As polyester, for example, polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, polytetramethylene terephthalate and the like are used. The thickness of the polyester film is usually 9 to 30 μm, preferably 12 μm.

  The deposition of the silica layer or the alumina layer is performed by vacuum deposition, ion plating, sputtering, CVD or the like, and the thickness thereof is usually 0.1 to 500 nm.

The protective coating layer is made of solvent-soluble or water-soluble polyester resin, isocyanate resin, urethane resin, acrylic resin, vinyl alcohol resin, ethylene vinyl alcohol resin, vinyl modified resin, epoxy resin, oxazoline group containing resin, modified styrene resin, modified silicone It is formed of a resin or the like, and its thickness is usually 0.1 to 10 μm.
Representative examples of commercially available transparent vapor deposition laminated films include “GL film” manufactured by Toppan Printing Co., Ltd., “Tech Barrier” manufactured by Mitsubishi Chemical Corporation, and the like.

The inner layer of the laminated film is composed of at least three types of resin films, and the outer layer or the intermediate layer is constituted by an unstretched coextrusion laminated film consisting of ethylene vinyl alcohol copolymer or polyamide and the inner layer of low density polyethylene resin.
Such unstretched coextrusion laminated films are commercially available, and typically include "Diamilon" manufactured by Mitsubishi Chemical Corporation.

  The outer layer, the intermediate layer (all are transparent vapor deposited laminated films) and the inner layer (unstretched coextrusion laminated film) of the laminated film are laminated by a dry lamination method, and in this case, a urethane-based adhesive is preferred as the adhesive. Used for

  The layer configuration of the above-mentioned laminated film is as follows.

  Transparent vapor deposited PET // transparent vapor deposited PET // EVOH / PA / LLDPE. Note that EVOH / PA / LLDPE may be PA / EVOH / LLDPE.

  In the above, PET is a polyester film, EVOH is an ethylene vinyl alcohol copolymer, PA is a polyamide, LLDPE is a linear low density polyethylene resin, the symbol "//" is dry lamination, the symbol "/" is a laminated film Represents an interlayer.

  The shape of the pouch of the present invention is not particularly limited as long as filling and discharging of the liquid sealing material for building materials can be easily performed, but the spouted pouch shown in FIG. 1E of Japanese Patent No. 4365160 is It is an example of a suitable shape. The pouch can be made by the apparatus described in Japanese Patent No. 4365160, but may be made by another bag making method using a heat sealer.

The pouch of the present invention can be provided with sufficient gas barrier properties comparable to the pouch composed of the aluminum laminate film by using the transparent vapor deposition laminate film, and can not be obtained with the pouch composed of the aluminum laminate film It has transparency.
In addition, depending on the type of liquid sealant for building materials, there is a property that does not cure immediately, and it may be good to use one transparent vapor deposition laminated film, but when making a flat film as a pouch, the bag is bent In this case, it is preferable to use two transparent vapor deposition laminated films because there is a concern that the transparent vapor deposition layer may be cracked.
In addition, liquid sealants for building materials include those containing an amine compound, a solvent and the like, and these chemical components pass through the sealing layer and react with the urethane bond in the adhesive to form urethane. It breaks the bond and causes a significant reduction in adhesive strength and seal strength.
Then, by suppressing the exudation of the chemical component which comprises a sealing material by the EVOH layer of a non-stretching co-extrusion laminated film, the outstanding content resistance can be exhibited and a sealing material can be preserve | saved stably. In addition, PA exhibits the function of improvement in strength and impact resistance, and LLDPE exhibits heat sealability.

  The pouch of the present invention is subjected to printing such as information necessary for contents and a bar code by a multi-color gravure printing machine or the like, as in a conventional pouch. Although the print display area can be designed freely, it is necessary to leave the non-print display area so that the transparency can be secured so that the contents can be seen. A non-printed display area that can be seen through the upper surface and the lower surface as a non-printed display area is preferable because confirmation of the color of the contained liquid sealant for building materials is easy and reliable.

  Hereinafter, the present invention will be described in more detail by way of examples, but the present invention is not limited to the following examples as long as the gist thereof is not exceeded.

Example 1 and Comparative Example 1:
By the laminated film of the layer configuration described in Table 1 below, a pouch having a shape shown in FIG. 1 (E) of Japanese Patent No. 4365160 was prepared as a basic shape. The meanings of the symbols of the layer configurations in Table 1 are as follows.

AVMPET:
Transparent vapor deposition laminated film (manufactured by Toppan Printing Co., Ltd. trade name: GX-P-F)
PET film (thickness: 12 μm) / Evaporated alumina layer (thickness: 10 to several tens of nm) / silicate-polyvinyl alcohol hybrid coating layer (coated film, thickness: 0.2 to 0.6 μm)

Unstretched coextrusion laminated film:
Made by Mitsubishi Chemical Co., Ltd. Product name: Diamillon V-130
EVOH / PA / LLDPE co-pressed film

ONY:
Biaxially Oriented Nylon (Polyamide) by Kojin Films & Chemicals Co., Ltd. Product Name: Bonille W

LLDPE:
Linear low density polyethylene (Futamura Chemical Co., Ltd. trade name: XMTN)

  “#”: Represents the thickness (μm) of the subsequent numerical value.

  "//": Dry lamination (use of urethane adhesive)

  The above-mentioned pouch was evaluated by the following method, and the results are shown in Table 2.

Seal strength:
After adjusting the humidity in an environment of 23 ° C. and 50% RH, measurement was performed according to “JIS Z 1707”.
As shown in FIG. 1, the seal strength of a: open part, b: corner, c: main body was cut out and measured in a strip of 15 mm width.
In addition, the main body and the base material use the same material, and both of the seal strengths are the measurement of the adhesion strength between the LLDPE / LLDPE surfaces.

(1) Oxygen permeability:
It measured based on "JIS K7162 2" in 23 degreeC-65% RH environment. In addition, "bending | flexion n times" represents the measured value after implementing the bending operation | movement of the Gelboflex test (ASTM F 392) n times (the same also in the following).

(2) Water vapor permeability:
It measured based on "JIS K7129 B" in 40 degreeC-90% RH environment.
As gas barrier properties necessary to prevent the curing of the sealing material, the gas barrier properties in the normal state are 0.1 cc / m ² · d · atm or less as oxygen permeability, 0.1 g / m as water vapor permeability ² · d or less is required, and preferably, the oxygen permeability is 0.05 cc / m ² · d · atm or less, and the water vapor permeability is 0.05 g / m ² · d or less.
Also, as described in the preceding paragraph, when making a flat film as a pouch or when filling the sealing material at the customer's site, the bag is folded or heat sealed, but in this case the outer layer Or it is known that the phenomenon in which the transparent vapor deposition layer of an intermediate | middle layer fractures may occur, and may cause a barrier fall.
Since it was difficult to measure the gas barrier property inside the pouch, in order to reproduce the decrease in the barrier property in the cracking of the transparent deposition layer due to the flexing, the flexing test by the gelvoflex test is introduced and evaluated.

(3) Barrier property:
After the one-component moisture-curable silicone sealant was filled, the degree of cure of the sealant was evaluated by visual observation.
[Evaluation criteria]
○: No curing was observed even after 6 months of filling Δ: Slight curing was observed at the seal corner after 6 months of filling ×: Significant occurrence of curing was observed within 6 months of filling

(5) Contents resistance:
After the one-component moisture-curable modified silicone-based sealing material (amine-containing type) was filled, the strength retention was determined from the laminate strength and the seal strength measurement.
[Evaluation criteria]
○: No significant decrease in strength is observed even after 6 months of filling Δ: A decrease in strength is observed within 6 months of filling ×: A significant decrease in strength is observed within 6 months of filling

a: Opening part b: Corner c: Main body

Claims (2)

It is characterized in that the outer layer or the intermediate layer is composed of the transparent vapor deposited laminated film described below, the inner layer is composed of the unstretched coextrusion laminated film described below, and each layer is composed of the laminated film laminated by a lamination method. Pouches for storing liquid sealants for building materials.
A transparent vapor deposition laminated film consists of a polyester film and the silica layer or alumina layer vapor-deposited on the single side | surface, and the protective coating layer laminated | stacked on it.
The unstretched co-extrusion laminated film is composed of at least three types of resin films, and the outer layer or middle layer is composed of ethylene vinyl alcohol copolymer or polyamide, and the inner layer is composed of low density polyethylene resin.   The pouch for storing a liquid sealing material for building materials according to claim 1, wherein the outer layer and the intermediate layer are formed of a transparent vapor deposition laminated film.

Images