JPS61227037A - Normal-temperature moisture curing one component type sealing agent package for caulking gun - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention [Industrial Field of Application] The present invention relates to a package of a one-component sealant that cures at room temperature and with moisture for a caulking gun and is suitable for being directly filled into a caulking gun, particularly a polyurethane sealant. The present invention relates to a package with excellent workability and storage stability.

[Conventional technology]

Conventionally, sealants that cure at room temperature and moisture, especially this type of sealant in the component type, have been commercially available mainly filled in aluminum tubes, cartridges, or metal cans.
Recently, as described in Japanese Patent Publication No. 59-3345, a double package for a caulking gun has appeared, in which the interior is made of a flexible resin film and the exterior is made of an aluminum laminate film or an aluminum vapor-deposited resin film. In other words, the invention described in this publication is based on "a cylindrical container made of a flexible resin film with a thickness of 25 to 250 microns filled with a room temperature moisture curable liquid sealant, and the open end of the cylindrical container being squeezed. A filled package is formed by ligating and sealing with a thread-like material, and one or more of these filled packages is covered with an aluminum laminated resin film or an aluminum vapor-deposited resin film, and the overlapping part of the outer film is bonded by heating or adhesive. "Room temperature moisture curable liquid sealant packaging for caulking guns, characterized by an airtight seal on the inside."This packaging is characterized in that the exterior aluminum laminate film and aluminum vapor deposited film are made of a general synthetic resin film. In comparison, because it has a moisture-proofing effect, it can significantly delay the curing of the sealant (sealant) inside the cylindrical container made of flexible synthetic resin film, and it can be easily cut with scissors or a cutter when applying the sealant. It is said to have the effect of making it easier to take out the cylindrical container.

[Problem that the invention seeks to solve]

However, since the double packaging described in the above-mentioned Japanese Patent Publication No. 59-3345 is double-wrapped just to improve storage stability, the outer packaging must be removed one by one to remove the contents. Not only is it a waste of work to have to load it, but also the shelf life depends only on the exterior, and the interior material is usually a synthetic resin film with insufficient moisture permeability. If a pinhole occurs due to scratches, there is a risk that it will harden all at once due to the moisture permeability of the entire interior. Another disadvantage of conventional guns is that the interior film does not fold smoothly between the vessel wall and the plunger.

The previous ones had even more problems in terms of workability. For example, canned products have drawbacks such as air being drawn into the caulking gun when filling, repeating the filling process, and resulting in material loss.Cartridges are efficient when used in small quantities, but they are not suitable for large joints. On the other hand, the length of construction for each piece is short, which also becomes a cost issue. On the other hand, aluminum tubes are not originally intended for caulking guns and cannot be loaded into caulking guns. However, as described in the above publication, it seems that products made of aluminum laminate film or aluminum vapor-deposited film have been proposed for use in caulking guns, but the technology at the time was This can easily cause pinholes to form in the aluminum layer, and the sealant will harden through these pinholes, and the aluminum laminate film or aluminum vapor deposited film will inevitably become hard, so be careful when extruding it with a caulking gun. It has the drawbacks of being difficult to crush and leaving a large amount of sealant even after extrusion, and it was considered unsuitable as a sealant container for a caulking gun, so it was not developed to be commercially available.The present invention Under these circumstances, we are conducting intensive research aimed at improving the drawbacks of sealant containers, that is, eliminating the drawbacks of double packaging and creating a single packaging that can meet a wide range of needs. The result is complete.

(Means for solving the problem) A cylindrical container made of an aluminum laminate film laminated with the Koren film, polyamide film, aluminum foil, and Volip-O-pyrene film of the present invention aimed at solving the problem was heated with dry nitrogen gas. It is filled in an air stream, and both open ends are heat-sealed in an airtight state. To explain this with a diagram, reference numeral 1 is a room-temperature curable component type sealant, which is filled into a container in which an aluminum laminate film 2 with high flexibility and low moisture permeability is heat-sealed into a double-folded cylindrical shape. In this state, both open ends are heat-sealed to prevent air bubbles from entering (see Figures 1 to 3).

The main feature of the present invention is that by using a specific aluminum laminate film for this packaging body, for example, one part of the aluminum foil 6 is
A polyethylene layer 8 is provided on one side via an oriented polyamide layer 7, and an oriented polypropylene layer W5 is provided on the other side (see Fig. 4).More preferably, the thickness of these film layers is such that the polyethylene layer from the bottom is 30 mm thick. ~70 microns, the oriented polyamide layer is 5-25 microns, the aluminum foil is 5-15 microns and the top oriented polypropylene layer is 10-30 microns, for a total of 50 ~
It is 140 microns.

By selecting a material within this range, the flexibility and moisture permeation prevention properties of this aluminum laminate film can be particularly improved.

This flexibility is an extremely important property in the case of caulking gun packaging. That is, the sealant package filled in this laminated film container facilitates the deformation of the container when it is loaded into a caulking gun and extruded.
This is because the amount of sealant remaining after extrusion can be reduced.

This laminated film may be manufactured by any method such as film lamination method, extrusion lamination method, coating method, etc., but since the purpose is to provide moisture permeation prevention properties, it is important to In particular, extreme care must be taken to avoid pinholes in the aluminum foil. The structure in which synthetic resin films are laminated on both sides of the aluminum foil is also taken into consideration to protect the aluminum foil from pinholes.

The package of the present invention is obtained by filling such an aluminum laminate film with a room-temperature-curable component type sealant, and the sealant contained therein includes silicone resin-based and polyurethane-based sealants. In the case of the cylindrical container made of the aluminum laminate film of the present invention, the inner surface material of the polyurethane container is polyethylene and the outer surface material is oriented polypropylene, and the heat sealing of both open ends after cylindrical formation and filling is also carried out by a conventional method. This is easily done.

[Effect]

The room-temperature curable component-type sealant package of the present invention is constructed as described above, and exhibits flexibility suitable for use in caulking guns due to the material, thickness, etc. of the aluminum laminate film used, while also preventing moisture permeation. It has the effect of preventing the sealant in the contents from hardening. and the upper end in use [Example] Example 1 A 15-μm thick polyethylene film on a 50-μm-thick polyethylene film.
An aluminum laminate film obtained by sequentially laminating a micron oriented polyamide film, a 9 micron thick aluminum foil, and a 20 micron oriented polypropylene film is heat-sealed into a cylindrical shape, and a low modulus polyurethane one-component sealant is applied. The package was filled in a stream of dry nitrogen gas and airtightly heat-sealed at both open ends, but the contents did not harden at all even after being stored for one year.

Example 2 An alternative example in which an oriented polyamide film of 20 microns in thickness, an aluminum foil of 10 microns in thickness, and an oriented polypropylene film of 25 microns in thickness were sequentially laminated on a polyethylene film of 30 microns in thickness as an aluminum laminate film. A package was obtained in the same manner as in 1, but even after being stored at 25° C. for 9 months, there was no change in the physical properties of the contents, and the package could be loaded into a caulking gun and applied immediately.

Example 3 An aluminum laminate film was prepared by sequentially laminating a 10 micron thick polyamide film, a 7 micron thick aluminum foil, and a 15 micron oriented polypropylene film on a 60 micron thick polyethylene film. A package was obtained in the same way, but
There was no change in the condition after storage for 10 months.

On the other hand, immediately after manufacturing this package, a hardening test was conducted by making small holes in several places.
Even after several months, only the surrounding area 101a1 had hardened.

〔Effect of the invention〕

The room-temperature-curable, component-type sealant package of the present invention exhibits flexibility and moisture permeation prevention properties based on the above-mentioned structure, and prevents the sealant itself from hardening. This has the excellent effect of preventing residual loss and withstanding long-term storage.

Furthermore, since the complicated operations required when using the conventional double-wrapped package are no longer necessary, it can be said that there is an advantage that workability is improved and efficiency is improved.

Furthermore, even if a pinhole occurs in the package, it has been confirmed that curing will occur locally, unlike in the case of a single-layer package, as described above, and this is also an advantage when considering the use of the remaining material. .

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view of the sealant package of the present invention, FIG. 3 is a central cross-sectional view of the sealant package, and FIG. 4 is an aluminum laminate film used in the sealant package of the present invention. It is a block diagram about an example. 1... Room temperature curable component type sealant 2... Cylindrical aluminum laminate film 3... Both ends heat-sealed portion 4... Cylindrical heat-sealed portion 5... Oriented polypropylene layer 6... Aluminum foil 7...Oriented polyamide layer 8...Polyethylene layer

Claims (3)

[Claims] (1) A cylindrical container made of a flexible aluminum laminate film laminated with polyethylene film, polyamide film, aluminum foil, and polypropylene film is filled with a one-component sealant that cures at room temperature and humidity in a stream of dry nitrogen gas, and both open ends are closed. An airtight heat-sealed one-component sealant package for caulking guns that cures at room temperature and humidity. (2) A room-temperature, moisture-curing single component for a caulking gun according to claim 1, wherein the aluminum laminate film is formed by sequentially laminating an oriented polyamide film, an aluminum foil, and an oriented polypropylene film on a polyethylene film. shaped sealant packaging. (3) The aluminum laminate film has a thickness of 30~
A 50-14mm thick laminate consisting of a 70 micron polyethylene film, a 5-25 micron thick oriented polyamide film, a 5-15 micron thick aluminum foil, and a 10-30 micron thick oriented polypropylene film.
The one-component one-component sealant package for a caulking gun as claimed in claim 1 or 2, which is a 0 micron film.