JP5578669B2 - Manufacturing method of spout stopper - Google Patents

Description

The present invention relates to a method for producing a spout stopper for a container filled with a beverage or the like.

Conventionally, spout stoppers for paper containers filled with liquid foods such as milk and soft drinks are formed in advance and perforated into the container or its packaging material into a paper container or packaging material before container molding. Inserted into the pouring hole from the inside and welded by ultrasonic sealing, hot melt, heat seal, etc. or applied to the outside of the pouring hole and welded, or drilled in packaging material for paper containers The spout stopper is directly molded and attached to the poured out hole by injection molding, and is attached by the second method of forming the packaging material into a container.

The packaging container to which the spout stopper according to the first method is attached includes a spout attached after molding the container to the extraction hole of the liquid paper container sealed so as to be ruptured, a cap that covers the spout, and a spout There are opening means incorporated in the container, for example, a spout stopper composed of an opening blade and a pull ring, and a packaging container for the liquid. (See Patent Documents 1 and 2)
There are many pouring spouts for roof-type paper containers filled with milk, etc., and a spout with a flange is inserted from the inside into a hole made in a packaging material (blank) after molding the container, and ultrasonic sealing is performed. The flange is welded to the blank by hot melt, heat sealing or the like.
As the above-mentioned spout, there are known a one-piece simple spout, a two-piece spout having a pull ring, a spout having a membrane, and a screw cap.

The spout is usually made of polyethylene having no gas barrier properties because it is thermally welded to a polyethylene coating material (blank). In any case, since the spout stopper is formed of plastic at a low cost, the normally formed spout stopper has no barrier property.
When a gas barrier property is required for a container, the container itself is provided with a barrier property, and a spout membrane is covered with a two-piece spout lined with a film laminated with a gas barrier aluminum foil or a spout opening is made of aluminum. A two-piece spout sealed with a film laminated with foil is employed.

When the packaging container to which the spout stopper according to the second method is attached needs a gas barrier property, it has an injection molding cavity so as to cover the inside of the pouring hole of the packaging material corresponding to the inside of the container, and the inner bottom wall A first mold for injection molding having a gas barrier film placed thereon is disposed, a second mold having a predetermined cavity is disposed so as to cover the outside of the pouring hole corresponding to the outside of the container, and the cavity gate. Then, the molten resin is injected into the cavity to mold the spout tube and spout of the spout stopper, and integrated with the gas barrier film. (See Patent Document 3)

Japanese Utility Model Publication No. 63-86021 Japanese Patent Laid-Open No. 08-183555 International Publication WO2009 / 000927

In the packaging container in which the spout stopper according to the first and second methods is mounted, the spout stopper is bonded to the container by joining to the container wall via the flange. In the case of heat sealing, for example, the bottom surface of the flange is heated and melted with a radiant heat source immediately before the spout stopper is bonded to the container, and the outer surface polyethylene of the container is melted with the heat to weld each other. In this case, if the spout plug flange is heated excessively until it is melted, the tip of the opening means around the flange and relatively small parts provided for preventing falsification are deformed or damaged by heat. In order to prevent this, a special heat source that can be heated locally is required.

On the contrary, the outer surface polyethylene of the container or an adhesive layer provided in the periphery thereof can be similarly heated by a radiant heat source, and the flange of the spout stopper can be melted and bonded by heat storage. However, the amount of heat that can be stored in a range that does not damage the container is limited compared to heating and melting the flange of the spout stopper. Generally, the container is provided with an embrittled portion so that it can be easily opened. For example, an easy-opening hole is formed by punching a hole in the packaging material base paper of the container and then laminating and closing the hole from both sides of the base paper. Since the base paper is removed, this hole is easily damaged by heat.

In addition, it is conceivable to heat and melt the two after press-contacting the spout stopper with the filled container, but as the counter pressure at this time, only the internal pressure of the container can be expected. There is a risk that a gap may be created between the container wall and the container wall, and stable adhesion cannot be obtained. Further, at this time, if heating is performed so as to melt the polyethylene on the outer surface of the container through the flange of the spout stopper, a long heating time is required.

This invention does not require a special heat source for localized heating, a bondable to the container in a short time, thermal deformation of the weak to the heat of the peripheral portion, the spout stopper can be protected from damage It aims at providing the manufacturing method of.

A spout stopper according to the manufacturing method of the present invention has a spout tube provided in a spout hole of a liquid paper container, and a flange that is integrated with the spout tube and is joined to a container inner wall or an outer wall around the spout hole. A spout comprising a spout, preferably a squee cap or hinged cap that covers the spout, and a breakable pull tab or an easily openable sealing membrane cutter built in to seal the spout of the container opening means A stopper,
The flange seal layer joined to the container wall includes a heating promoting material that promotes heating by the heating means.

In a preferred embodiment of the present invention, the heating accelerator is made of a material having high compatibility with the packaging resin such as polyethylene on the container wall and the flange resin, and having a lower melting temperature than the resin, and the sealing layer is the heating accelerator. including.
For example, when polyethylene is the resin, there are ethylene vinyl acetate copolymer (EVA) and ethylene acrylic acid copolymer resin (EAA).

For example, even if the flange resin is polypropylene, a resin having good compatibility with both the polypropylene and the packaging material polyethylene is selected as the heating accelerator polymer for the seal layer. The spout stopper made of polypropylene can be bonded to the container by heat sealing.

In a preferred aspect of the present invention, the heating accelerator is a rib-like heating accelerator attached to the seal layer at a right angle to the seal layer surface when the seal layer is heated and melted by radiant heat.
By providing the rib-like heat promoting material, the time required to melt the seal layer can be shortened.
Further, since the apparent thickness of the melted seal layer is increased, it is easy to fill a gap between the flange and the container wall, which is likely to occur when the spout stopper is pressed against the container.

In a preferred embodiment of the present invention, the heating accelerator is a polymer in which a material that easily absorbs radiant heat, such as carbon black, is mixed in the seal layer. The time required to melt the sealing layer can be shortened.

In a preferred embodiment of the present invention, the heating accelerator is a polymer mixed with a light absorber having a specific wavelength and good absorption efficiency.
By forming a sealing layer with this polymer and using a semiconductor laser that generates the wavelength as the heating medium, melting can be performed in a short time.

In a preferred embodiment of the present invention, the heating promoting material is a polymer mixed with magnetic material powder. It is also possible to form a seal layer with this polymer and heat-melt the seal layer by induction heating.

A packaging container for liquid according to the production method of the present invention is a packaging paper container formed from a packaging material comprising a paper base material, an outermost and innermost laminated thermoplastic resin layer, and preferably a gas barrier layer. There,
A spout tube provided in a pour hole of the liquid paper container, a spout having a flange integrated with the pour pipe and joined to the inner wall or outer wall of the container in the periphery of the pour hole, and a squee cap that preferably covers the spout It has a spout stopper composed of a hinged cap and a container opening means, a breakable pull tab built in so as to seal the spout or an easily openable sealing film cutter,
The flange seal layer joined to the container wall includes a heating promoting material that promotes heating by the heating means.

The method for manufacturing a spout stopper according to the present invention includes a spout tube provided in a spout hole of a liquid paper container, and a spout having a flange that is integrated with the spout tube and is joined to a container inner wall or an outer wall around the spout hole. A spout cap or hinged cap that preferably covers the spout, and a breakable pull tab or an easily openable sealing film cutter built in the container opening means so as to seal the spout A method of manufacturing
A single mold or a plurality of first molds and a single or a plurality of second molds that form a first cavity corresponding to at least the spout of the spout plug by combining, and a third mold corresponding to the flange seal surface of the spout And prepare
Injecting a molten resin into the formed first cavity, filling the entire cavity with the molten resin and molding at least a spout,
The third mold is shifted to form the second cavity for the sealing layer on the flange sealing surface,
The second cavity is filled with a heating accelerating material that promotes heating by the heating means to form a sealing layer to obtain a spout stopper.

In the method for producing a packaging container according to a preferred aspect of the present invention, the heating accelerator is made of a material having a high compatibility with the packaging resin such as polyethylene on the container wall and the flange resin, and having a lower melting temperature than the resin, When the seal layer includes a heating accelerator and the heating accelerator heats and melts the seal layer with radiant heat, it is a rib-like heating accelerator attached to the seal layer at a right angle to the seal layer surface.

According to this invention, the spout stopper according to the manufacturing method of the present invention is integrated with the pour cylinder provided in the pour hole of the liquid paper container and the container inner wall around the pour hole integrated with the pour pipe. From a spout with a flange, preferably a squee cap or hinged cap that covers the spout, and a breakable pull tab or easily openable sealing membrane cutter built into the container opening means to seal the spout Become.
The built-in pull tab seals (seals) the spout tube, so that the contents of the container can be stored during the distribution process and storage period. In use, for example, it can be broken by pulling with a pull ring or the like, so that it can be opened.
After opening, a dispensing passage is formed from the dispensing hole of the liquid paper container to the dispensing cylinder, and the contents of the container can be poured out.

A squaw cap or hinged cap covering the spout provided in a preferred embodiment allows maintenance of hygienic conditions before opening and resealing after opening.
Since the flange of the spout is integrated with the dispensing cylinder and joined to the inner wall of the container around the inside of the dispensing hole, the spout stopper can be mechanically fixed to the container.

With a cutter for easy-opening sealing film provided in a preferred embodiment, a hole is made by punching the packaging material base paper of the container, and the easy-opening hole is easily opened by laminating the hole from both sides of the base paper. The solution in the container can be poured out from the spout.

According to the characteristic of this invention, the flange seal layer joined with a container wall contains the heating promotion material which accelerates | stimulates the heating by a heating means.
The heating accelerator positively absorbs the energy from the heating means, and the flange seal layer is heated / melted by other parts, so that the flange seal layer is easily joined to the container wall.

In a preferred embodiment of the present invention, the heating accelerator is made of a material having high compatibility with the packaging resin such as polyethylene on the container wall and the flange resin and having a lower melting temperature than the flange resin.
For example, when polyethylene is a packaging resin and the flange resin is polypropylene, this heating accelerator can be obtained by using ethylene vinyl acetate copolymer (EVA), ethylene acrylic acid copolymer resin (EAA), or the like as a heating accelerator. However, both polyethylene and flange are highly compatible, and the melting temperature is lower than that of flange. Therefore, it is easier to seal than other members, and no special heat source for local heating is required. It can be bonded to the container over time, and the peripheral area sensitive to heat can be protected from thermal deformation and damage.

In a preferred aspect of the present invention, the heat promoting material is a rib-like material attached at right angles to the seal layer surface, and the seal layer is heated and melted by radiant heat.
By providing the rib-like heat promoting material, the time required to melt the sealing layer is shortened, and the portion that is vulnerable to heat at the peripheral portion is prevented from being thermally deformed and damaged.
Further, since the apparent thickness of the melted seal layer is increased, it is easy to fill a gap between the flange and the container wall, which is likely to occur when the spout stopper is pressed against the container.

In a preferred embodiment of the present invention, the heating accelerator is a polymer in which a material that easily absorbs radiant heat (such as carbon black) is mixed in the seal layer. The time required to melt the sealing layer can be shortened.

In a preferred embodiment of the present invention, the heating accelerator is a polymer mixed with a light absorber having a specific wavelength and good absorption efficiency.
By forming a sealing layer with this polymer and using a semiconductor laser that generates the wavelength as the heating medium, the polymer can be melted in a short time.

In a preferred embodiment of the present invention, the heating promoting material is a polymer mixed with magnetic material powder. It is also possible to form a seal layer with this polymer and heat-melt the seal layer by induction heating.

The liquid packaging container according to the production method of the present invention is a packaging paper container formed from a packaging material comprising a paper base material, an outermost and innermost laminated thermoplastic resin layer, and preferably a gas barrier layer. .
Since the packaging material is laminated (laminated / coated) with the thermoplastic resin layer, the thermoplastic resin (thermoplastic material) contributes to heat sealing when vertically sealed. In a preferred embodiment, when the gas barrier layer is laminated, barrier properties can be imparted to the container itself.

The liquid packaging container according to the production method of the present invention is characterized in that the flange seal layer joined to the container wall is made of a heating promoting material that promotes heating by the heating means.
When the container is manufactured, the portion that needs to be heated is selectively heated, so that a portion that is vulnerable to heat in the peripheral portion is protected from thermal deformation and damage, and the container can be made defect-free.

In the first step of the method of manufacturing the spout stopper according to the present invention, the single or plurality of first molds and the single or the plurality of second molds, which are combined to form a first cavity corresponding to at least the spout of the spout stopper. A mold and a third mold corresponding to the flange seal surface of the spout are prepared.
The first cavity corresponds to at least a spout. This first cavity corresponds to the entire spout excluding the flange seal layer.

In the second step of the method for manufacturing the spout stopper of the present invention, molten resin is injected into the formed first cavity, and the entire cavity is filled with the molten resin to form at least a spout.
By this injection, the entire cavity is filled with the spout molten resin.

In the third step of the method for manufacturing the spout stopper of the present invention, the second mold cavity is displaced to form the second cavity for the seal layer on the flange seal surface.
A feature of the present invention is that after the spout frame is injection-molded, a sealing layer is formed on the sealing surface by two-stage molding of a heat-promoting material.

In the fourth step of the method for producing the spout plug of the present invention, the second cavity is filled with a heating promoting material that promotes heating by the heating means to form a seal layer, thereby obtaining the spout plug. The entire two cavities are filled with the heat promoting material of the seal layer.

In the method for manufacturing a packaging container according to the present invention, the obtained spout stopper includes a spout tube provided in a spout hole of the liquid paper container, and a container inner wall or an outer wall around the spout hole integrated with the spout tube. For a breakable pull tab or easily openable sealing membrane built in to seal the spout of a spout having a flange to be joined with, preferably a squee cap or hinged cap covering the spout, and a container opening means It consists of a cutter.

In the method for producing a packaging container according to a preferred aspect of the present invention, the heating accelerator is made of a material having a high compatibility with the packaging resin such as polyethylene on the container wall and the flange resin, and having a lower melting temperature than the resin, When the seal layer includes a heating accelerator and the heating accelerator heats and melts the seal layer with radiant heat, it is a rib-like heating accelerator attached to the seal layer at a right angle to the seal layer surface.
A spout plug that can be bonded to a container in a short time without requiring a special heat source for local heating and can protect a peripheral portion susceptible to heat from thermal deformation and damage is obtained.

It is a partial cross section appearance figure which illustrates the state by which the spout stopper of one Example by the manufacturing method of this invention is joined to the container example. Sectional drawing which shows the state which forms the 1st cavity corresponding to the spout containing a flange in the example of the spout stopper shown in FIG. 1 where the first mold, the second mold, and the third mold are sandwiched from above and below. It is. In another Example of the manufacturing method of the spout stopper of this invention, it is sectional drawing which shows a mode that molten resin is inject | poured into a 1st cavity and a 1st cavity is satisfy | filled with molten resin. In another Example of the manufacturing method of the spout stopper of this invention, it is sectional drawing which shows a mode that a 3rd metal mold | die is shifted and a 2nd cavity for sealing layers is formed in a flange seal surface in a 3rd step. Sectional drawing which shows another aspect of the manufacturing method of the spout stopper of this invention, and shows a mode that the sealing layer was formed in the 4th step by filling the 2nd cavity with the heating promotion material which accelerates | stimulates the heating by a heating means. It is. FIG. 10 is a partial cross-sectional view showing a state in which a rib-like heat promoting material attached at a right angle to the seal layer surface is formed on the seal layer in still another embodiment of the method for manufacturing the spout stopper of the present invention. It is a perspective view which illustrates the state in which the spout stopper is joined to the top wall inner wall of the roof type container example. It is a perspective view which illustrates the state in which the spout stopper is joined to the top wall outer wall of the example of a brick type container.

With reference to drawings, the form, aspect, and Example for implementing this invention are demonstrated concretely.
FIG. 1 illustrates a state in which the spout stopper 1 of the embodiment is joined to a container 2. In this embodiment, the spout stopper 1 includes a spout cylinder 4 provided in the spout hole 3 of the liquid paper container 2 and a flange 5 that is integrated with the spout cylinder 4 and joined to the inner wall of the container around the spout hole. The spout 6 includes a scout cap 7 that covers the spout 6, and a breakable pull tab 8 that is built to seal the spout 7.
The pull tab 8 seals (seals) the dispensing tube 4 of the spout 6 and is pulled by a pull ring 9 integrally formed on the upper surface of the pull tab 8, thereby breaking along the score 10 having a weakening line and opening the pull tab 8.
After the opening, a pouring passage is formed from the pouring hole 3 of the liquid paper container 2 to the pouring cylinder 4 so that the contents of the container can be poured out.

In this embodiment, the squaw cap 7 that covers the spout 6 having a thread is screwed into the dispensing tube 4. In other embodiments, a hinged cap can also be provided as appropriate.
The flange 5 of the spout 6 is integrated with the pouring cylinder 4 and joined to the inner wall of the container around the pouring hole 3. The pouring cylinder 4 of the spout 6 can be inserted and arranged from the inside of the pouring hole 3.

In this embodiment, the flange 5 of the spout 6 has a flange seal layer 5a containing a heating promoting material that promotes heating by heating means, which is joined to the container inner wall 2a.
Unlike the above embodiment, as shown in FIG. 8, a flange seal layer (not shown in FIG. 8) can be provided on the lower surface of the flange of the spout 6 on the container outer wall 2b.
Unlike the above aspect, providing a cap with a hinge on the spout is also possible as a container opening means by providing a breakable pull tab incorporated so as to seal the spout as in the above aspect, and an easily openable sealing film A cutter can also be provided inside the spout.

In this aspect, the heat promoting material for the flange seal layer actively absorbs energy from the heating means, and the flange seal layer is heated / melted by other parts to facilitate the flange seal layer and the container wall. To join.
In this embodiment, polyethylene is the packaging resin, the flange resin is polypropylene, ethylene vinyl acetate copolymer (EVA), ethylene acrylic acid copolymer resin (EAA), etc. are used as the heating accelerator, and this heating accelerator However, both polyethylene and flange are highly compatible, and the melting temperature is lower than that of flange. Therefore, it is easier to seal than other members, and no special heat source for local heating is required. It can be bonded to the container over time and protects the peripheral areas vulnerable to heat from thermal deformation and damage.

The liquid packaging container 2 of the example shown in FIG.1 and FIG.8 is a packaging paper container formed from the packaging material which consists of a paper base material, the thermoplastic resin layer laminated | stacked on the outermost and innermost, and a gas barrier layer. It is.
Since the packaging material is laminated (laminated / coated) with a thermoplastic resin layer, when vertically sealed, heat sealing is performed with a thermoplastic resin (thermoplastic material). When the gas barrier layer is laminated, a barrier property is imparted to the container 2 itself.
The packaging container 2 is filled with liquid food such as milk and soft drinks. The pull tab 8 seals the sealing pipe 4 of the spout 6. Save this content. Further, when the container is opened, the consumer pulls the pull ring 9 to break the score and open the container.
The consumer can pour out the content liquid from the pouring hole 3 and the pouring cylinder 4 of the container 2.

A squee cap 7 covering the spout 6 allows manufacturers and distributors to maintain the hygienic condition before opening, and the consumer can reseal after opening.
Since the flange 5 of the spout 6 is integrated with the pouring cylinder 4 and joined to the container wall around the pouring hole 3, the spout stopper 1 is fixed to the container 2 in a mechanically sealed manner.

In the liquid packaging container shown in FIG. 1, FIG. 7 and FIG. 8, the flange seal layer joined to the container wall is made of a heating promoting material that promotes the heating by the heating means.
Since the portion that needs to be heated is selectively heated, the heat-sensitive portion in the peripheral portion of the seal layer is protected from thermal deformation and damage, and the container can be made defect-free.

With reference to FIG. 2 thru | or FIG. 6, the manufacturing method of the spout stopper of the Example by this invention is shown.
In the first step of this manufacturing method, for example, at an injection molding station, as shown in FIG. 2, the first mold 13 and the three second molds 14a, 14b, 14c, and the flange seal surface of the spout And a third mold 15 corresponding to 11 is prepared.
As shown in FIG. 2, cavities 6 x and 8 x corresponding to the spout 6 and the pull tab 8 of the spout 1 are formed by combining the first mold 13, the second mold 14, and the third mold 15. The cavity 5x corresponding to the flange 5 is formed.

In the second step of the method for manufacturing the spout plug, molten resin 16 is injected from a gate (not shown) into the cavities 5x and 6x formed in another embodiment shown in FIG.
The molten resin 16 moves in the cavity, and the spout 6 including the flange 5 is formed by filling the entire cavity with the molten resin.

As shown in FIG. 4, in the third step, the third mold 15 is displaced in the direction of the arrow to form the second cavity 11x for the seal layer on the flange seal surface 5a.
In this embodiment, after the spout frame is injection-molded, the sealing layer is formed on the seal surface by two-stage molding of the heat promoting material.

In the fourth step of the method for manufacturing the spout plug, the second cavity 11x is filled with a heating promoting material that promotes heating by the heating means, and the sealing layer 11 is formed as shown in FIG. By this injection to obtain the plug 1, the entire second cavity 11 x is filled with the heating promoting material of the seal layer 11.

In the manufacturing method of the embodiment of the packaging container according to the present invention, the spout stopper obtained is according to the above-described embodiment. A packaging container 2 is prepared, which is formed from a web-shaped packaging material that is perforated at predetermined intervals to form a pour hole, as shown in FIG.
The spout 6 is inserted into the spout hole from the inside of the container, the container inner wall surface 2a is brought into contact with the upper end surface of the flange 5, and the inner wall surface of the container and the upper end surface of the flange are brought together by heating such as high frequency induction. Then, heat sealing is performed through the sealing layer 11.

In the manufacturing method of the embodiment of the packaging container according to the present invention, the spout stopper obtained is according to the above-described embodiment. A packaging container 2 (FIG. 8 (FIG. 8 (A)), which is formed from a web-shaped packaging material that is perforated at predetermined intervals to form a pour hole, as shown in FIG. Prepare a) shown in a).
This spout plug is spouted on the outside of the container in the pouring hole, the container outer wall surface 2a and the flange 5 lower end surface are brought into contact, and the container outer wall surface and the flange lower end surface are sealed with a seal layer by heating such as high frequency induction. 11 and heat-sealing. A packaging container 2 (shown in FIG. 8B) having a capped spout is obtained.

The embodiment of the present invention has been described with reference to the drawings. However, the specific configuration is not limited to this embodiment, and design changes and the like within the scope of the present invention are included in the present invention. It is.
For example, as shown in FIG. 6, the heating promoting material of the seal layer 11 is a rib-like material 11 attached at right angles to the seal layer surface.
When the sealing layer is heated and melted with radiant heat, it can be bonded to the container in a short time, and the peripheral areas sensitive to heat are protected from thermal deformation and damage.

DESCRIPTION OF SYMBOLS 1 Outlet plug 2 Container 3 Outlet 4 Outlet cylinder 5 Flange 6 Spout 7 Cap 8 Pull tab 9 Pull ring 11 Seal layer 13 1st metal mold 14 2nd metal mold 15 3rd metal mold 16 Molten resin

Claims (2)

Method of manufacturing a spout stopper comprising a spout tube provided in a spout hole of a liquid paper container and a spout having a flange that is integrated with the spout tube and is joined to a container inner wall or an outer wall in the periphery of the spout hole Because
A single mold or a plurality of first molds and a single or a plurality of second molds that form a first cavity corresponding to at least the spout of the spout plug by combining, and a third mold corresponding to the flange seal surface of the spout And prepare
Injecting molten resin into the formed first cavity, filling the entire cavity with molten resin and molding at least a spout,
The third mold is shifted to form the second cavity for the sealing layer on the flange sealing surface,
A method for producing a spout plug, wherein the second cavity is filled with a heating promoting material that promotes heating by a heating means to form a seal layer to obtain a spout plug. The heating accelerator is made of a material having a high compatibility with the polyethylene packaging resin and the flange resin of the container wall and having a melting temperature lower than that of the resin, the seal layer includes the heating accelerator, and the heating promoting material is, when heating and melting the sealing layer with radiant heat, the said sealing layer is a rib-like heat promoting material attaching the perpendicular sealing layer surface process of claim 1.