JP5226939B2 - Liquid pouring nozzle having check function and packaging bag using the same - Google Patents

Description

  The present invention relates to a liquid pouring nozzle that is fusion-bonded to the side portion or the top portion of a packaging bag body that is soft and excellent in flexibility, and a packaging bag to which this is attached. In particular, after the liquid package is dispensed many times, liquid drawability into the packaging bag body, non-returnability to prevent outside air from entering the packaging bag body, and after the packaged material is poured out The liquid pouring nozzle which has a non-return function which can fully prevent the liquid dripping, and the packaging bag provided with this nozzle are proposed.

  Currently, liquid and jelly-like foods and beverages exceeding 100ml, seasonings and other packaging bags have caps made of plastic injection molded products on the inner surface of relatively hard packaging bags containing aluminum foil. The one in which the pouring nozzle is heat-sealed is generally used. According to such a packaging bag, the article to be packaged can be poured out many times based on the removal of the cap from the dispensing nozzle and the screwing operation.

  In such a packaging bag, the cost of the pouring nozzle and the cap, which are hard plastic molded products, is high, and sufficient joining of the pouring nozzle having a three-dimensional shape to the packaging bag body is sufficient. Complete heat fusion under strength is still difficult using special heat sealing means or the like. In addition, there is an inconvenience in handling that the cap needs to be removed and re-screwed each time the packaged item is poured out. Moreover, for packaging bags that are relatively hard and difficult to be crushed and deformed, it is essential to replace the packaged items with the outside air in the packaging bag as the packaged items are poured out. After the end, it is inevitable that the outside air enters the packaging bag until the cap is screwed into the dispensing nozzle, and dust, fungi, etc. in the outside air contaminate the package, and the outside air itself However, there is a problem that the packaged material is oxidized and the seasoning, the flavor of the alcoholic beverage and the like are impaired.

In order to solve the above problem, in Patent Document 1, the discharge port is automatically sealed by the wetness of the packaged article at the same time as the dispensing of the packaged article is stopped, and the outside air is surely entered into the packaging bag. A liquid dispensing nozzle having a self-sealing check function and a packaging bag using the same are proposed.
JP 2005-59958 A

In Patent Document 1, as shown in FIG. 1 as a liquid pouring nozzle, the pouring flow path of the liquid package is first inclined upward from the base end toward the nozzle opening position in the pouring posture. The extension part toward the tip is formed so as to be bent downward again. In such a structure, the flow path tends to be downward at the nozzle opening position, and after pouring the package, the liquid is poorly drawn into the packaging bag when the packaging bag is returned to the standing posture, There was a problem that some of them stayed and hindered the check function, and liquid dripping was likely to occur.
Further, the upper portion of the flow path has a structure that bulges in a convex shape from the nozzle opening position toward the base end portion in order to control the amount of the package to be dispensed. However, with this structure, the packaged material tends to stay in the convex part, and when the packaging bag is returned to the standing posture, the packaged material that could not be drawn into the packaging bag remains and inhibits the check function. In addition to working as described above, there was a problem that dripping easily occurred from the nozzle opening position.

FIG. 8 of Patent Document 1 discloses another example of the liquid pouring nozzle in which the flow path of the package is inclined upward from the base end toward the nozzle opening position. However, similarly to the above, the upper part of the nozzle flow path swells in a convex shape from the nozzle opening position toward the base end part, so that liquid drawing is poor and liquid dripping is likely to occur.
Further, in this liquid dispensing nozzle, a protrusion provided at the fusion portion at the lower part of the nozzle opening position serves to retain the generated liquid dripping and prevent the liquid dripping from being transferred to the packaging bag. However, since the protruding portion is provided immediately below the nozzle opening position, the dripping liquid that stays and adheres to it contacts the package object during the pouring and damages the package object. There was also a problem.

  Therefore, the present invention has an object to solve such problems of the prior art, and the object of the present invention is to pour out the items to be packaged in the bag into the outside of the packaging bag. It is applied to the soft packaging bag body that responds to the pouring by contraction or crushing deformation, and at the same time as the pouring of the package is stopped, the discharge port is opened by wetting by the package A liquid dispensing nozzle with a self-sealing check function that seals automatically and reliably prevents outside air from entering the packaging bag. A liquid dispensing nozzle having a non-return function capable of preventing dripping and preventing the generated dripping from being transmitted to the packaging bag, and preventing the packaged material poured out by dripping from being soiled; And packaging bags using the same It is to.

The present invention is a two-layer laminated film comprising a uniaxial or biaxially stretched base film layer and a sealant layer laminated with the uniaxially or biaxially stretched base film layer, or a laminated film formed by folding in two at the center. A liquid pouring nozzle having a non-return function formed by fusing a peripheral portion excluding a portion serving as a base end side of the nozzle, wherein the liquid pouring nozzle is partitioned by the peripheral fusing portion. flow path toward the base end side from the opening position of the nozzle, the upper part smoothly inclined downward and the lower portion being inclined downwardly, further by bent downward, the packaging bag main body and yet gradually widening is formed so as to communicate with the side becomes, among the peripheral fused portion, the edge portion of the lower side fusion part when leaving the liquid Note, the base end portion side of the nozzle opening position, peak to become disposed Jo liquid projections for anyone transmitted drop prevention Suggest liquid pouring nozzle having a non-return function characterized.

Further, the present invention is that the portion close to the base end side of the nozzle exit said liquid Note, the side portions of the packaging bag body of soft, on the inner surface of the packaging bag body, melting through the sealant layer of the outermost layer It is to wear junction, and above the liquid pouring nozzle, to protrude from the sides of the packaging bag body of soft Suggest hull Sobukuro you characterized by being integrally formed.

  According to this invention, by preventing the entry of the outside air into the packaging bag by squashing deformation etc. of the packaging bag main body accompanying the dispensing of the liquid and exhibiting the excellent check function of the dispensing nozzle, It is possible to effectively protect the packaged items in the bag from oxidation, fouling, flavor deterioration, etc., and also prevent drip defects and dripping after the liquid is poured out, even if dripping occurs. The dripping can be effectively drained, and the poured out package can be prevented from being soiled by the dripping.

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a plan view showing a liquid dispensing nozzle 1 and a packaging bag 10 according to the present invention. The pouring nozzle 1 is a fusion part at the side of the soft packaging bag body 2, and close to the base end part 8, that is, the base end side 8 a by the outermost sealant layer on the inner surface sealant layer. The parts are fused and joined.

  Here, the liquid pouring nozzle 1 is composed of three layers of a thermoplastic base film layer and respective sealant layers laminated on both sides of the base film layer. A film, that is, a laminated film of two front and back surfaces having the same contour shape, or a single laminated film folded back on the front and back at the center portion, with each inner surface side sealant layer facing each other, except for the base end side It can be constructed by fusing each other as shown by hatching in the figure, preferably by heat sealing. Note that heat sealing can be suitably used because it can form a fused portion as expected at a relatively low temperature, simply and quickly.

In the present invention, in addition to forming the packaging bag by the above method, the dispensing nozzle 1 made of at least a two-layer laminated film is formed from the side of the flexible packaging bag body 2 to form the packaging bag body 2. At the same time or after the formation thereof, the packaging bag body 2 may be integrally formed. In this case, usually, the laminated film for the packaging bag body 2 and the laminated film for the liquid pouring nozzle 1 are shared, and the liquid pouring nozzle 1 is composed of a uniaxially or biaxially stretched base film layer and one of them. Two or folded laminated films, each having a sealant layer laminated on the front side of the sheet, are preferably disposed in the peripheral portion of the protruding portion from the packaging bag body with the sealant layer facing each other. Are fused together by heat sealing.
In the case of the packaging bag 10 having an integral structure, a process for fusion bonding between the packaging bag body 2 and the liquid pouring nozzle 1 is not required, and manufacturing of the independent pouring nozzle 1 is not necessary. All it the occurrence of defects such as to completely remove, also, the required packaging bag 10, more simply, it is possible to enable inexpensive manufacture in the rapid

When the article to be packaged is poured out from the inside of the packaging bag 10, the fused portion at the tip of the packaging bag 10 is removed by tearing and cutting with fingers, thereby forming the spout 9 at the tip of the nozzle, and then the packaging bag 10. Can be performed by tilting so that the spout 9 is in a posture facing downward. In this case, the pouring nozzle 1 made of a soft laminated film is separated from the front and back sides under the action of the water head pressure of the packaged object, opens the spout 9 and dispenses the packaged object as required. Allow.
When the article to be packaged is dispensed in this way, the flexible packaging bag body 2 shrinks or shrinks by an amount corresponding to the dispensed volume without sucking outside air as the article to be packaged is dispensed. It will be crushed and deformed.

  In order to tear and remove the fused portion of the tip of the dispensing nozzle 1 with fingers, at least each of the fused portions 5 and 6 facing in the width direction of the laminated film having a layer structure of three or more layers or two or more layers. On the other hand, it is preferable to provide the V-shaped bent portion 3 at a position corresponding to the nozzle spout 9. According to this, the fusion portion itself bends in a V-shape, so that the V-notch is formed in the fusion portion. It is possible to sufficiently induce the tearing without separately forming a tearing guide rod such as a notch, and to make it very easy to visually recognize the tearing induction portion.

After the required amount of package is poured out by tilting the packaging bag 10, the packaging bag 10 is returned to its original standing position to stop the pouring, and the package is wetted based on the stoppage of the pouring. In addition, the inner surface of the nozzle 1 is brought into close contact with each other under the thin film of the package, and at the same time as the stop, the nozzle 1 is brought over the width direction of the film on the front and back of the pouring nozzle 1, in other words, in the vertical direction. The spout 9 at the tip can be sealed to prevent the outside air from entering the packaging bag.
Therefore, in the packaging bag 10 provided with the dispensing nozzle 1, the packaged item in the bag is sufficiently protected from contact with the outside air during and after the dispensing as well as before the dispensing of the packaged item. As a result, oxidation, fouling, etc. of the packaged items in the bag are effectively prevented.

In the present invention, the liquid flow path 7 defined by the upper and lower fusion parts 5, 6 provided facing the width direction of the pouring nozzle 1 is lowered from the spout 9 toward the base end 8. It is characterized in that it gradually expands in the width direction of the dispensing nozzle 1 while inclining in the direction.

Specifically, as shown in the enlarged view of an example of a pouring nozzle 1 in FIG. 2, the liquid flow path 7, note towards the outlet 9 to the base end side 8a direction, the upper part smoothly inclined downward , lower portion, while inclined downward, and further bent downward, and extends to yet expanded.

In this way, when the packaging bag 10 is returned to the standing posture after the packaged article is poured out by inclining the liquid flow path 7 downward from the spout 9 toward the base end side 8a , The product can be smoothly drawn into the bag, and the occurrence of dripping of the packaged product can be suppressed.

Further, in the present invention, the liquid flow path 7 is inclined downward from the spout 9 toward the base end side 8a , is further bent downward, and is extended so as to gradually expand. In addition, it is possible to make it easier to control the flow rate and direction of pouring when the article to be packaged is dispensed from the pouring port 9.

  Moreover, since the liquid flow path 7 of the dispensing nozzle 1 of the present invention does not have convex portions that cause liquid pools at the upper and lower portions thereof, the surplus packaging material that remains after the packaging material is poured out. Therefore, the check effect is not hindered and no dripping occurs from the spout 9.

Furthermore, as shown in FIG. 2, in the present invention, when the article to be packaged is poured out, the liquid is disposed at the lower end of the fusion part 6 positioned on the lower side and on the base end side 8a side from the spout 9. It is characterized in that a protrusion 11 for preventing transmission of anyone is provided. The protrusion 11 for preventing the dripping of the liquid dripping functions to prevent the dripping from staying in the package 9 and preventing the dripping from flowing down on the packaging bag. In the present invention, the dripping prevention protrusion 11 is provided closer to the base end side 8a than the spout 9 so that the dripping stays in the protrusion 11 for preventing dripping. And even if it adheres, the liquid which adhered and the packaged object poured out after that do not contact, and it can prevent the packaged object from being soiled.

It should be noted that the outer surface of the above-mentioned protrusion 11 for preventing dripping and dropping of liquid is coated with silicone oil, waxy substance or other water-repellent substance, or has ultra-fine irregularities such as lotus leaves and taro leaves. In the case where it is applied, it is possible to increase the liquid drainage of the staying package, and to effectively prevent the package from being transmitted to the outer surface of the packaging bag 10.

  The extending length of the edge of the spout 9 extending in the width direction of the laminated film is preferably 5 to 40 mm. Here, the term “substantially in the width direction” means that the direction of tearing at the tip of the pouring nozzle 1 and the extending direction of the edge of the pouring port 9 are in the range of 0 to 15 ° with respect to the width direction of the laminated film. This is in consideration of the fact that it may be inclined at an angle. This is because if the length of the edge of the spout 9 is less than 5 mm, the amount of pouring is too small in relation to the volume of the packaging bag body 2, while if it exceeds 40 mm, the accuracy of the pouring direction is not correct. This is because identification becomes difficult.

  In addition, the liquid pouring nozzle of the present invention and the packaging bag using the same are used as the base film layer in addition to uniaxial or biaxially stretched polyethylene terephthalate, ethylene vinyl alcohol copolymer, nylon, polypropylene, etc. It is preferable to use one provided with a required vapor deposition layer. In particular, when it is a biaxially stretched polyethylene terephthalate film layer, it is a straight cut polyester film “Embret PC”. (Trademark Unitika Co., Ltd.) is used, and when a biaxially stretched nylon film layer is used, it is preferable to use “Emblem NC” (Trademark Unitika Ltd.) which is a linear cut nylon film. This can impart higher water vapor impermeability, gas barrier properties, and the like to the dispensing nozzle 1 than when a uniaxially stretched base film layer is used. This is because the linear tearing removal can be performed smoothly and easily, and the tearing wrinkle can be made sufficiently smooth without fuzz and the like so that the discharge nozzle 1 can more fully exhibit the hermetic sealing function. .

The sealant layer located on the outer surface of the pouring nozzle 1 and the sealant layer as the inner surface layer of the soft packaging bag body 2 are preferably of the same type, for example, various unstretched PE An olefin resin layer such as a layer, a PP layer, a metallocene catalyst polyethylene layer, an ethylene vinyl acetate copolymer layer, an ethylene ethyl acrylate copolymer layer, an ionomer layer, and the like. This is because when the pouring nozzle 1 and the packaging bag main body 2 are fused by, for example, heat sealing, the base end portion 8 of the pouring nozzle 1 is also simply, quickly, and always reliably. can be 2 to fusion bonding, thereby, to the packaging bag main body 2 is because it is possible to manufacture the packaging bag 10 having a dispensing nozzle 1 protruding to the side portions or al outwardly.
In this case, as a matter of course, the sealant layer to be located on the inner surface of the dispensing nozzle 1 can also be formed of the same material as described above.

Then, each of the sealant layers of the pouring nozzle 1 or the packaging bag body 2 made of a laminated film of three or more layers or two or more layers can be laminated to the base film layer by extrusion lamination or dry lamination.
In addition, when required physical properties cannot be ensured in the packaging bag 10 only by the base film layer, an SiO ₂ vapor deposition layer, a vinylidene chloride coating layer, an aluminum oxide coating layer, an Al vapor deposition layer are provided between the sealant layer and the base film layer. It is also possible to interpose an intermediate layer made of an Al foil, an ethylene vinyl alcohol resin layer, or a sputtering layer such as SiO ₂ , Al, or Al ₂ O ₃ .

  In addition, the outer surface of the base end portion of the pouring nozzle 1 made of a laminated film having at least a three-layer structure having sealant layers on both the inner and outer surfaces is fused and joined to the inner surface of the packaging bag body 2. In order to reliably prevent mutual fusion of the inner surfaces of the pouring nozzle 1, a release sheet having a higher melting point or not thermally melted is inserted and arranged inside the base end portion 8 of the pouring nozzle 1. The fusing temperature of each sealant layer on the inner and outer surfaces of the dispensing nozzle 1 is made different by changing the material, changing the extrusion lamination condition of each sealant layer of the same material, etc. It is effective to make the melting point of the sealant layer higher than that of the sealant layer on the outer surface of the dispensing nozzle 1. For example, low density polyethylene (LDPE) is laminated as a sealant layer on the outer surface of the nozzle on the surface of a base film layer made of a uniaxially stretched polyethylene terephthalate film, and the other surface is made of the LDPE as a sealant layer on the inner surface of the nozzle. In addition, LLDPE is used as the sealant layer on the outer surface of the nozzle, and the other sealant layer on the inner surface of the nozzle is laminated as the sealant layer on the outer surface. By using LLDPE having a higher density than the LLDPE to be used, mutual fusion of the inner surface of the dispensing nozzle 1 can be reliably prevented.

The base film layer preferably has a thickness of 8 μm to 30 μm. When the thickness is less than 8 μm, water vapor impermeability, gas barrier properties and the like may be insufficient. This is because the bending strength of the film becomes too large, and the adhesion of the inner surface of the nozzle after stopping the pouring of the packaged object may be impaired.
The sealant layer preferably has a thickness of 10 to 60 μm. If the thickness is less than 10 μm, there is a possibility that sufficient seal strength cannot be secured. This is because it may become too large.

  Although the packaging bag 10 of the present invention is in a bloated form by filling and packaging a liquid article to be packed therein, preferably under deflation, the soft packaging bag 10 itself is usually self-supporting. Since there is no property or formality, when transporting, storing, displaying, using, etc., the packaged item, it is fixed in multiple places in a box made of paper, plastic, etc. It is preferable to give the packaging bag 10 self-supporting property and formability.

First, a sealant layer made of PE having a thickness of 15 to 20 μm is laminated on both surfaces of a base film layer made of biaxially stretched PET having a thickness of 12 μm. A liquid pouring nozzle was produced by heat-sealing each side part except for the above. And this was heat-sealed to the inner surface of a packaging bag main body by the side part of a packaging bag main body, and the packaging bag was produced (this invention).
Similarly, the packaging bag using the conventional pouring nozzle was produced (comparative example).

After filling the packaging bags of the present invention and the comparative example produced as described above with water, tilting them and pouring out water, the operation of returning to the standing posture is repeated 10 times. Observed.
As a result, in the packaging bag of the present invention, the liquid drawing when returning to the standing posture was good, and no dripping was observed. On the other hand, in the packaging bag of the comparative example, the occurrence of dripping was observed after three operations, and the dripping water was retained in the protrusion formed directly under the spout.

  The liquid pouring nozzle and the packaging bag using the same according to the present invention include soy sauce, sauce, various soups, beverages, etc., as well as oil, liquor, wine, dressings that may contain powdered granular materials, detergents, liquid pharmaceuticals Etc., and can be used as a soft packaging bag used for packaging.

It is a top view which shows embodiment of the liquid extraction nozzle which concerns on this invention. It is a figure which shows the specific example of the extraction nozzle.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Liquid pouring nozzle 2 Packaging bag main body 3 V-shaped bending part 5, 6 Fusion part 7 Liquid flow path 8 Base end part
8a Base end side 9 Outlet 10 Packaging bag 11 Protruding part for preventing leakage of liquid dripping

Claims (3)

Nozzle base of front and back laminated films comprising a uniaxial or biaxially stretched base film layer and a sealant layer laminated therebetween, or a laminated film formed by folding in two at the center A liquid dispensing nozzle having a non-return function formed by fusing a peripheral portion excluding a portion serving as an end,
The liquid discharge nozzle, which is formed by the peripheral fusion part, has a discharge channel that is inclined downward from the opening position of the nozzle toward the base end, while the lower part is inclined downward. while, further by bent downward, it is formed yet so as to communicate with the gradually widening to the side of the packaging bag body,
Of the peripheral fusion part of the liquid pouring nozzle, the downward pointed liquid dripping is transferred to the base end side of the edge of the lower fusion part at the time of liquid pouring from the nozzle opening position. A liquid dispensing nozzle having a check function, characterized in that a prevention protrusion is provided. The base end side of the liquid pouring nozzle according to claim 1 is fusion-bonded to the inner surface of the packaging bag body through the outermost sealant layer at the side of the soft packaging bag body. wrapped Sobukuro it said. The liquid pouring nozzle according to claim 1, is projected from the side of the packaging bag body of the soft you characterized by being constructed integrally packaging Sobukuro.

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