JP5072239B2 - Composite spout - Google Patents

Description

  The present invention relates to a composite spout that promotes welding to a portion where a sleeve having a functional resin at the time of manufacture hardly adheres to a spout body during injection molding.

In recent years, high-functional foods and the like have been filled to prevent deterioration of contents and deterioration of flavor due to oxygen in spouted pouches and paper containers, etc., which are poured out from the pouring tool shown in FIG. 3 (hereinafter referred to as spout). For this reason, it is required that the oxygen permeation amount is extremely small not only for a container body such as a pouch or a paper container but also for a spout. Therefore, there is a composite spout 1 in which a cylindrical sleeve 10 as a blocking body excellent in gas barrier property or oxygen absorption property is attached to the inner wall of the spout with respect to the spout.

A cylindrical sleeve 10 shown in FIG. 4 is attached to the inside of the spout body 2 of the composite spout 1 by insert molding. The cylindrical sleeve 10 is composed of multiple layers, and an inner layer 10b is disposed on the inner side with the functional resin layer 10a therebetween, and an outer layer 10c is disposed on the outer side. These are disposed between the functional resin layer 10a and the inner layer 10b and The functional resin layer 10a and the outer layer 10c are bonded with an adhesive layer 10d interposed therebetween.

FIG. 5 shows a molding method of the composite spout 1 having the cylindrical sleeve 10 by the injection molding apparatus.
As shown in A of FIG. 5, the spout is formed by the male 21 and female 31, male die 21, the core 22 is provided with a cylindrical shape formed with the same diameter from the proximal side to the distal side A cylindrical sleeve 10 is mounted around the core 22. Female 31 is a split type that opens right and left, the shape of the inner peripheral surface is formed in a shape corresponding to the outer peripheral surface of the spout body 2 shown in FIG.
As shown in C of FIG. 5, the gate 33 of the molten resin from an injection molding machine (not shown) on one of the female right die 31b is injected is connected.

Such arrangement closing the mold by inserting a core 22 of the male 21 into the female mold 31, as shown in C in FIG. 5, by the molten resin is injected from the gate 33 into the cavity 32, the composite spout 1
The part which becomes the spout main body 2 is formed, and the composite spout 1 in which the cylindrical sleeve 10 is provided inside the spout main body 2 is formed. The spout body 2 and the cylindrical sleeve 10 are bonded together by heat welding of the molten resin, which is the material of the spout body 2, with heat.
JP 2001-213455 A

However, the end portion on the discharge opening 6 side of the formed composite spout 1 has a small thickness and a small capacity, so that only a small amount of molten resin is filled. Therefore, the heat of the molten resin is not sufficiently transmitted to the cylindrical sleeve 10, and the adhesive state between the cylindrical sleeve 10 and the spout body 2 may deteriorate as shown in FIG. May peel.
When the cylindrical sleeve 10 is peeled off, the contents in the container wrap around between the spout body 2 and the cylindrical sleeve 10. Further, when the end surface 10g of the cylindrical sleeve 10 is exposed in the container, the functional resin is eluted from the functional resin layer 10a, and when the contents are filled, the sanitary problem or the flavor of the contents It causes a decrease.
Further, from the base end side of the core 22 to the tip end, if the cross section of the core 22 are the same diameter, as shown in D in FIG. 5, by the flow pressure of the resin injected from the injection molding machine, cylindrical The sleeve 10 may shift to the axial base end side of the core 22 using the core 22 as a guide material. As described above, when the cylindrical sleeve 10 is in contact with the surface of the base 23 of the core 22, the end face 10g of the cylindrical sleeve 10 is exposed inside the composite spout 1, and as described above, In some cases, a material such as an oxygen absorbent is eluted from the functional resin layer 10a, and the functional resin does not work efficiently.
This invention is made | formed in view of such a situation, and it aims at providing the composite spout which can adhere | attach the spout main body and the adhesive surface of a cylindrical sleeve reliably.

In order to achieve the above object, the composite spout of the present invention has a spout body in a state of being fitted to an injection mold core member with a cylindrical sleeve having a functional resin layer disposed as an intermediate layer as a core. by injection molding, and the composite spout cylindrical sleeve on the inner circumferential surface is formed substantially on the inner peripheral surface only embedded by exposing the form of the spout body, the discharge end of the spout An outer peripheral surface additional portion projecting radially outward is formed in an annular shape at a portion corresponding to the one end portion of the cylindrical sleeve of the outer peripheral surface of the spout main body at one end portion of the spout main body to be configured. .
Further, the composite spout of the present invention is obtained by injection molding the spout body in a state of being fitted to the core member of the injection mold with a cylindrical sleeve having a functional resin layer disposed as an intermediate layer as a core. The spout which forms the discharge end of the spout by forming a composite spout in which the cylindrical sleeve is embedded in the inner peripheral surface of the spout body so that only the inner peripheral surface is exposed. At one end portion of the main body, an inner peripheral surface additional portion that covers the inner peripheral surface of the one end portion of the cylindrical sleeve is formed on the inner peripheral surface of the spout main body at least in a circumferential direction. On the outer peripheral surface of the spout body at a portion corresponding to one end of the outer peripheral surface, an outer peripheral surface additional portion projecting radially outward is formed in an annular shape .
And the internal peripheral surface addition part of the said composite spout is good to form cyclically | annularly.
Furthermore, the inner peripheral surface addition part of the said composite spout can be formed in multiple numbers at intervals.
Moreover, it is a good test is molded by said spout injecting molten resin from the other end of the Luz Pauto body to constitute the base end portion of the spout.

The composite spout of the present invention has a cylindrical sleeve on the inner peripheral surface of the spout main body, and an outer peripheral surface projecting radially outward is added to a portion corresponding to one end of the cylindrical sleeve on the outer peripheral surface of the spout main body. The part is formed in an annular shape.
Further, the composite spout of the present invention, has a cylindrical sleeve on the inner peripheral surface of the spout body, on the inner peripheral surface of the spout body in at least a portion of the circumferential direction, the inner circumference of one end portion of the tubular sleeve inner peripheral surface adding section which covers the surface is formed, a portion corresponding to one end portion of the tubular sleeve of the outer peripheral surface of the spout body, the outer peripheral surface additional portion protruding radially outward is formed in an annular .
Thus, at the time of injection molding , by forming the outer peripheral surface additional portion, or the inner peripheral surface additional portion and the outer peripheral surface additional portion at the weld portion between the spout body and the cylindrical sleeve, the heat of the molten resin welds them. The contact surface between the spout body and the cylindrical sleeve can be surely welded and the functionality from the functional resin layer of the cylindrical sleeve when the contents are filled. The elution of the resin is prevented, and it is possible to prevent a sanitary problem or a decrease in the flavor of the contents.

Hereinafter, with the composite Supau preparative in an embodiment of the present invention will be described with reference to the drawings.
Incidentally, the cylindrical sleeve 10 described in the conventional example, since a multilayer tubular sleeve 10 made of five layers including an adhesive layer having the same structure as the tubular sleeve 10 of the present embodiment, as shown in FIG. 4, Detailed description thereof is omitted.

FIG. 1 is a cross-sectional view of a composite spout 1 according to the present invention. As shown in the figure, the composite spout 1 is composed of a spout body 2 and a cylindrical sleeve 10. The composite spout 1 has a substantially cylindrical conduit hole 3 formed by the spout body 2 and the cylindrical sleeve 10 through which the contents flow into and out of the inner peripheral surface. An upper peripheral portion is formed with an inner peripheral seal surface 5 that a seal portion of a sealing cap (not shown) abuts on the inner peripheral surface side, and a discharge opening 6 is formed at the upper end thereof.
On the outer peripheral surface side of the spout body 2, a male screw 7 into which the female screw of the sealing cap is screwed is formed in a substantially spiral shape on the end side of the discharge opening 6, and a tamper evidence provided on the sealing cap is provided below the male screw 7. A locking portion 15 that locks with a band (not shown) and a flange 16 are formed at a distance from the locking portion 15. The flange 16 plays a functional role such as holding and supporting the composite spout 1 during conveyance. A mounting portion 17 for attaching the pouch is formed at the lower portion of the flange 16, and the sealing performance of the connecting portion between the pouch and the composite spout 1 is maintained by the mounting portion 17.

A cylindrical sleeve 10 is attached to the inner peripheral surface of the spout body 2. The cylindrical sleeve 10 has the same thickness from one end side 10 e to the other end side 10 f in the axial direction, and the outer peripheral surface of the cylindrical sleeve 10 is welded to the inner peripheral surface of the spout body 2. The one end 10e which is one end portion of the cylindrical sleeve 10 located at one end portion 6 a of the spout body 2 in (see FIG. 1) side, a projection 8 in cross-section protrudes toward the center of the conduit hole 3 in triangular An annular shape is formed in the circumferential direction of the conduit hole 3.
The protrusion 8 includes a regulating surface 8a that intersects the axial direction of the conduit hole (and the cylindrical sleeve 10) 3 at a right angle and an inclined surface (trapezoidal conical surface or tapered surface) 8b that faces the discharge opening 6 side, that is, the discharge opening 6. An inclined surface 8b extending toward the side is formed.

And the outer peripheral surface addition part 12 is formed in the outer peripheral surface of the thin part 6a of the spout main body 2 of the composite spout 1. The outer peripheral surface adding portion 12 is formed in an annular shape on the outer peripheral surface of the spout body 2 at a portion corresponding to the one end side 10 e of the cylindrical sleeve 10. The height of the outer peripheral surface adding portion 12 needs to be formed at a height lower than the height of the thread of the male screw 7 so as not to interfere with the female screw of the sealing cap (not shown).
In this way, by forming the additional portion 12 on the outer peripheral surface of the spout body 2, the contact surface between the spout body 2 and the cylindrical sleeve 10 can be reliably welded with the amount of heat stored in the molten resin.

In addition to the outer peripheral surface adding portion 12 shown in FIG. 1, the composite spout 1 shown in FIG. 2 is provided with an inner peripheral surface extending continuously from the inclined surface 8b on the inner peripheral surface of the one end side 10e of the cylindrical sleeve 10. Part 9 is formed. The inner peripheral surface adding unit 9 is formed to protrude from the inner peripheral surface of the cylindrical sleeve 10 radially inwardly of the tubular sleeve 10, formed in the same cross-sectional shape throughout the circumferential direction of the cylindrical sleeve 10 Has been. The position where the inner peripheral surface additional portion 9 is formed is a portion (hereinafter referred to as a thin portion) 6a where the male screw 7 of the spout body 2 is formed from the inner peripheral surface edge of the one end side 10e of the cylindrical sleeve 10. Is a portion where the thickness of the spout body 2 on the side of the discharge opening 6 is thin.
Shape of the inner peripheral surface adding unit 9 has a trapezoidal conical surface 9b of the other end 10f of the curved surface 9a and the cylindrical sleeve 10 that is continuous with the inclined surface 8b extends radially outwardly of the tubular sleeve 10 Yes. The axial length of the conical surface 9b is longer than the length of the curved surface 9a, and is formed with a gentle inclination angle.
Therefore, the one end side 10e and the end surface 10g of the cylindrical sleeve 10 are covered with the thin portion 6a, the protrusion 8 and the inner peripheral surface additional portion 9 of the spout body 2, and the functional resin layer 10a of the cylindrical sleeve 10 is It is formed so as not to be exposed to the internal space of the conduit hole 3. Note that the boundary between the protrusion 8 and the inner peripheral surface addition portion 9 is continuously connected.
Thus, by forming the inner peripheral surface additional portion 9 and the outer peripheral surface additional portion 12 on the inner peripheral surface of the cylindrical sleeve 10 and the outer peripheral surface of the spout main body 2, respectively, the spout body 2 and the cylindrical sleeve 10 are provided. The contact surface can be reliably welded, heat can be applied to the contact surface between the spout body 2 and the cylindrical sleeve 10 as compared with the composite spout 1 shown in FIG. 1, and the contact surface can be more reliably welded.

Further, in the composite spout 1 shown in FIG. 2 described in the above embodiment, the inner peripheral surface additional portion 9 formed on the inner peripheral surface of the cylindrical sleeve 10 is preferably formed continuously in an annular shape. A plurality of them may be formed at intervals in the circumferential direction without forming them.

The composite spout 1 located on the other end side 10f of the cylindrical sleeve 10 is formed with a small diameter portion 18 that protrudes inwardly from the joint surface between the conduit hole 3 and the cylindrical sleeve 10 in a step shape. A holding surface 18 a that intersects at right angles to the axial direction of the conduit hole 3 is formed at the boundary between the portion 18 and the cylindrical sleeve 10. The width of the holding surface 18a with respect to the radial direction of the conduit bore 3, although the thickness of the tubular sleeve 10 is formed to have the same length, the tubular sleeve 10 shown in at least FIG functional resin layer 10a Needs to be covered with the holding surface 18a. Thus, the cylindrical sleeve 10 is mounted on the inner peripheral surface of the inner hole of the spout body 2, and the functional resin layer 10 a of the cylindrical sleeve 10 is configured not to be exposed to the internal space of the conduit hole 3.

  As the resin constituting the spout body 2, an olefin resin which is a thermoplastic resin, for example, low density polyethylene (LDPE), medium density polyethylene (MDPE), high density polyethylene (HLDE), linear low density polyethylene (LLDPE), Polyethylene (PE) such as linear ultra-low density polyethylene (LVLDPE), polypropylene (PP), ethylene-propylene copolymer, polybutene-1, ethylene-butene-1 copolymer, propylene-butene-1 copolymer, An ethylene-propylene-butene-1 copolymer, an ethylene-vinyl acetate copolymer (EVA), an ion-crosslinked olefin copolymer (ionomer), or a blend thereof can be used. It can also be used for all thermoplastic polyester resins, and other polyesters such as ethylene terephthalate thermoplastic polyester (PET), polybutylene terephthalate (PBT), polyethylene naphthalate (PEN), and these and polycarbonate and polyarylate. Blends with these can also be used.

For the functional resin layer 10a of the cylindrical sleeve 10, a resin having a predetermined function such as a gas barrier resin, an oxygen-absorbing resin, or a moisture blocking resin is used depending on the application. As a gas barrier resin, for example, as a suitable example when used as an oxygen barrier layer, the content of vinyl alcohol units is 40 to 85 mol%, particularly 55 to 80 mol%, and the saponification degree is 96 mol%. As mentioned above, especially 99 mol% or more of ethylene-vinyl alcohol copolymer is mentioned. Other oxygen gas barrier resins include nylon resins, particularly nylon 6, nylon 8, nylon 11, nylon 6,6, nylon 6,10, nylon 10,6, nylon 6 / 6,6 copolymer. Aliphatic nylon such as polymetaxylylene adipamide, partially aromatic nylon, and polyglycolic acid resin. These oxygen gas barrier properties are such that the oxygen permeability coefficient is 5.5 × 10 ⁻¹² cc · cm / cm ² · sec · cmHg (23 ° C., 0%) from the viewpoint of the storage stability and fragrance retention of the contents. RH) or less.

  On the other hand, when the functional resin layer 10a is an oxygen-absorbing resin layer, oxygen absorption may be added to the gas barrier resin layer, and the resin of the gas barrier resin layer itself has oxygen absorption. It is good also as a structure to have. Examples of such resins include those utilizing the oxidation reaction of resins, such as oxidizing materials such as polybutadiene, polyisoprene, polypropylene, ethylene / carbon oxide polymers, nylon-6, nylon-12, metaxylylene. What added the organic acid salts containing transition metals such as cobalt, rhodium, copper and photosensitizers such as benzophene, acetophene, and chloroketones to polyamides such as range amine (MX) nylon. Can be used. When these oxygen-absorbing materials are used, further effects can be exhibited by irradiating with high energy rays such as ultraviolet rays and electron beams.

  In addition, an oxidizable organic component may be included in the resin of the gas barrier resin layer so as to exhibit oxygen absorption without causing a decrease in gas barrier property due to oxidative degradation of the gas barrier resin layer. As such an oxidized organic component, a polyene polymer derived from polyene is preferable, and a carboxylic acid group, a carboxylic anhydride group, or a hydroxyl group is preferably introduced. Examples of these functional groups include acrylic acid, methacrylic acid, maleic acid, unsaturated carboxylic acid, maleic anhydride, and unsaturated carboxylic acid anhydride, and the transition metal catalyst is preferably cobalt.

  In addition, an oxygen absorbent may be blended in the resin constituting the gas barrier resin layer, and as such an oxygen absorbent, a metal powder having reducibility, such as reducible iron powder, reducible zinc, Examples thereof include those containing, as a main component, a combination of one or more of reducing tin powder, metal lower oxide, and reducing metal compound. These can be used in combination with alkali metals, alkaline earth metal hydroxides, carbonates, sulfites, organic acid salts, halides, and also auxiliary agents such as activated carbon and activated alumina as necessary. . Or the high molecular compound which has polyhydric phenol in frame | skeleton, for example, polyhydric phenol containing phenol aldehyde resin, etc. are mentioned.

  Further, when the functional resin layer 10a is a moisture blocking resin layer, the moisture blocking resin may be a cyclic olefin copolymer, an amorphous or low crystalline copolymer of olefin and cyclic olefin (COC). ) Can be used. Examples of the gas barrier resin and oxygen absorbing resin include fillers, colorants, heat stabilizers, weathering stabilizers, antioxidants, anti-aging agents, light stabilizers, ultraviolet absorbers, antistatic agents, and metals. Lubricants and modifiers such as soap and wax can be added.

As a material of the inner layer 10b and the outer layer 10c of the cylindrical sleeve 10, for example, an olefin resin, which is the same thermoplastic resin as the spout body 2, can be used, and the heat sealability between the sleeve 10 and the spout body 2 can be used. In view of this, at least the inner layer 10b preferably uses an olefin resin having a melting point lower than that of the olefin resin of the spout body 2.

It is a cross-sectional view of a composite spout according to the embodiment of the present invention. It is sectional drawing of the composite spout by other embodiment of this invention . It is sectional drawing of the composite spout by a prior art example. It is the perspective view and sectional drawing of the cylindrical sleeve by this invention and a prior art example. The molding process by the injection molding apparatus of the conventional composite spout is shown, A is a sectional view in a state where a sleeve is mounted on a male core, B is a sectional view in a state in which a male mold and a female mold are closed, and C is a gold from a gate. Sectional drawing of the state in which the mold is filled with molten resin, D is a sectional view of the state in which the sleeve is displaced in the axial direction of the core.

DESCRIPTION OF SYMBOLS 1 Composite spout 2 Spout main body 8 Protrusion part 8b Inclined surface 9 Inner peripheral surface addition part 9a Curved surface 9b Conical surface 10 Cylindrical sleeve 10e One end side 10f The other end side 12 outer peripheral surface addition part 21 Male type 22 Core 22a Large diameter part 22b Small diameter portion 22c inclined surface 25 inner peripheral surface additional portion forming recess 25a curved surface 25b conical surface 31 female mold

Claims (5)

The spout body is injection-molded with the cylindrical sleeve having the functional resin layer disposed as an intermediate layer in the core member of the injection mold, and the cylinder is formed on the inner peripheral surface of the spout body. A composite spout formed into a shape in which a cylindrical sleeve is embedded so that substantially only its inner peripheral surface is exposed,
In one end portion of the spout main body constituting the discharge end portion of the spout, an outer peripheral surface additional portion protruding outward in the radial direction at a portion of the outer peripheral surface of the spout main body corresponding to the one end portion of the cylindrical sleeve A composite spout characterized in that is formed in an annular shape . By injection-molding the spout body with the cylindrical sleeve having the functional resin layer disposed as an intermediate layer as a core and being fitted onto the core member of the injection mold, the spout body is formed on the inner peripheral surface of the spout body. A composite spout molded into a form in which a cylindrical sleeve is embedded by exposing only its inner peripheral surface,
In one end portion of the spout main body constituting the discharge end portion of the spout, the inner peripheral surface of the spout main body covers the inner peripheral surface of the one end portion of the cylindrical sleeve at least partially in the circumferential direction. An inner peripheral surface additional portion is formed, and an outer peripheral surface additional portion protruding radially outward is formed in an annular shape on the outer peripheral surface of the spout body at a portion corresponding to one end portion of the cylindrical sleeve. Composite spout characterized by The composite spout according to claim 2, wherein the inner peripheral surface additional portion is formed in an annular shape. The composite spout according to claim 2, wherein a plurality of the inner peripheral surface additional portions are formed at intervals in the circumferential direction. The spout gas Pauto of which the other end of absence Pauto body to constitute the base end portion is formed by injecting molten resin, the composite spout according to any one of claims 1-4.

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