TW201012709A - Flexible packaging bag having a non-returning function nozzle, and liquid-substance filling/packaging structure - Google Patents

Abstract

Disclosed is a non-self-standing type flexible packaging bag comprising a film-shaped non-return pouring nozzle which is excellent not only in a non-returning function characteristic and lubricant starvation but also in the pouring characteristic (capable of pouring out a packaged substance in the bag smoothly to the last) of a packaged liquid substance filled. The flexible packaging bag is provided with the film-shaped non-return pouring nozzle protruding from the side of a packaging bag body. A layered film of an unsealed portion of the packaging bag body has an uneven inner face at least in an upper section or in the vicinity of the side edge of the film-shaped non-return pouring nozzle

Description

201012709 VI. Description of the Invention: [Technical Field] The present invention relates to a film-like non-return discharge nozzle having a laminated structure of two sheets of laminated plastic sheets a flexible packaging bag formed by (liquid discharge nozzle) and a non-self-supporting liquid which is obtained by degassing various liquids and the like into a flexible packaging bag by, for example, sealing in a liquid. The product charging package is stored in a liquid material in a self-supporting outer packaging bag to fill the packaging structure. In addition, the term "liquid-filled filling" as used herein means that the package body is sealed by the inclusion of the liquid-filled body so that air such as air or nitrogen does not mix into the package. Filling the work inside. [Prior Art] A flexible packaging bag made of a plastic film and having a film discharge nozzle which is a liquid discharge nozzle having an automatic sealing and returning function, has the Japanese Patent Laid-Open 2005- proposed by the inventors. The disclosure of Japanese Laid-Open Patent Publication No. H05-59958. Since these flexible packaging bags are non-self-supporting packaging bags formed by a soft laminated film, it is inconvenient to supply the packaging bags separately in this form, and thus it has been adopted in the past. The form described in JP-A-2004-196364 is stored and fixed in a container. [Problems to be Solved by the Invention] -5-201012709 The packaging bag disclosed in Japanese Laid-Open Patent Publication No. 2005-15029, and Japanese Laid-Open Patent Publication No. 2005-5995-8 The liquid seasoning such as the medium-sealed soy sauce and the other liquid material of the salad oil are substantially only filled with the liquid material of the liquid packaged object, and the package is used. Further, the liquid material is filled in the package, and in the case where the liquid packaged object is discharged, the packaged object is completely out of contact with the atmosphere in the package. Therefore, since the liquid packaged article that is hermetically sealed in such a packaging bag does not cause a chemical reaction such as oxidation, it has an advantage that the initial state can be maintained for a long period of time. However, in the conventional packaging bag, the film-shaped non-return discharge nozzle has two kinds of plastic film in the front and back according to the mutual adhesion of the two plastic films due to the wetness caused by the packaged object, thereby generating an automatic sealing and returning function. However, at this time, the inner surface of the main body of the package is also wetted by the liquid packaged object which has been degassed, and is formed so that the discharge amount of the package is close to the area, thereby causing shrinkage or pressure. The state of collapse deformation. Further, in actual circumstances, when the liquid packaged article in the packaging bag is discharged, the film is strongly in contact with each other in the above-mentioned table, and the smooth flow of the film may be hindered. In addition, the conventional packaging bag is basically a liquid-packed product in a packaging bag by a degassing package such as a liquid-filled sealing device. However, there is a possibility that a completely gas-free charging may not be performed. In the case where the built-in gas of the packaged product is accumulated after being charged and accumulated in the bag afterwards, the gas may have a hindrance effect of hindering the film-shaped non-return discharge nozzle. In the conventional packaging 201012709 structure disclosed in Japanese Laid-Open Patent Publication No. H04 04-196364, there is a problem in that a non-self-standing flexible packaging bag filled with a packaged object is stored in paper. It is necessary to fix the inside of the box, and the manufacturing process including the box becomes complicated and the cost becomes high. Therefore, the present invention has been developed in order to solve the problems of the prior art described above, and an object of the invention is to provide a liquid packaged article having a non-return function characteristic and excellent liquid repellency and being used as a filling. The discharge characteristic (a package that can smoothly discharge the packaged contents in the bag until the end) is also a non-self-supporting flexible packaging bag of a film-like check discharge nozzle which is excellent in φ. Further, another object of the present invention is to provide a liquid material packaging structure capable of holding a non-self-supporting flexible packaging bag directly in the use form. [Means for Solving the Problem] In order to achieve the above object, the inventors of the present invention have conceived the structure of the present invention having the following structure. In other words, the flexible packaging bag having the non-return function nozzle of the present invention has a soft laminated film on the front side and the back side protruding from the side of the main body of the packaging bag, and the plastic is overlapped. A flexible packaging bag having a film-like non-return discharge nozzle in which a film is adhered to each other in a state in which a liquid material is interposed, wherein the packaging bag main body has a laminated film on at least one of a front side and a back side. The vicinity of at least the upper portion of the unsealed portion or the side edge of the film-shaped non-return discharge nozzle side is constituted by a laminated film having a concave-convex inner surface. According to the present invention, the flexible packaging bag described above can be preferably formed in the following embodiment: 201012709 (n is formed on the inner surface of the uneven film formed by embossing, sandblasting, and rolling The flower processing, the wrinkle processing, and the vertical and horizontal stripe processing are performed in a planar shape, an island shape, or a thin strip shape to form a partial pattern or a full pattern. (2) The film-shaped non-return discharge nozzle is such that two overlapping sheets are formed. _ The soft plastic film is thermally fused to the periphery of the nozzle except for the portion which becomes the base end portion, and the central portion is configured as a discharge passage, and the base end portion is fusion-bonded to the side of the package body. When the package body @ is tilted to discharge the packaged object, the packaged object passes through, so that the inner surfaces of the plastic film which are in a wet state in the discharge passage are mutually attached to each other by the packaged object. The mutual close-contact function caused by the inner surface of the discharge passage generates a check function for preventing the intrusion of the outside air. (3) The film-shaped check discharge nozzle is attached to the overlapped surface. The nozzle of the plastic film of one of the slits has a predetermined inner surface and a base end portion of the nozzle other than the vicinity thereof, and has a concave-convex inner surface. (4) The base end portion of the film-shaped check discharge nozzle is a low-temperature temporary @fused overlapping plastic film The opposing sealant layer temporarily encapsulates the inner surface of the discharge passage. (5) The above-mentioned packaging bag system has gas accumulation at a position higher than the upper edge of the film-shaped non-return discharge nozzle of the upper horizontal sealing portion thereof. Further, the liquid material packaging structure of the present invention is characterized in that: the non-self-standing liquid material filling package and the self-supporting outer bag are formed, -8 - 201012709 the non-self-standing liquid material The non-self-standing liquid packaging package for the non-self-standing flexible packaging bag in the non-self-standing flexible packaging bag, which is degassed by liquid sealing and packaging, has a liquid or viscous packaged object. The flexible packaging bag has a side portion of the main body of the packaging bag which is formed by sealing and joining the respective soft laminated films on the front side and the back side, and is heavy in a state in which the liquid material is interposed. At least an upper portion of the unsealed portion of the laminated film of at least one of the front side and the inner side of the package body and the film-shaped non-return discharge nozzle The side edge of the side is formed by a laminated film having a concave-convex inner surface. The self-supporting outer packaging container is a cylindrical container for accommodating the non-self-supporting liquid-like filling package. The protruding portion is provided with a protruding pouch, and the bottom plate is provided to be self-standing. The pouch is provided to expose the film-shaped non-return discharge nozzle, and is provided with a nozzle for pulling out the front end portion of the nozzle. The split-inducing crack can be opened and the pouch can be opened. Ο This liquid-like filling package structure can be an ideal embodiment by the following form: (1) The concave-convex inner surface formed on the laminated film is obtained by Embossing, sandblasting, knurling, crease processing, and vertical and horizontal stripe processing are carried out in a planar shape, an island shape, or a thin strip shape to form a partial pattern or a full pattern. (2) The film-shaped non-return discharge nozzle is configured such that the two soft plastic films that are overlapped are thermally fused to each other at a peripheral portion of the nozzle other than the portion at the base end portion, and the central portion is configured as a discharge passage. In the front -9-201012709, the base end portion is fused to the side of the main body of the package, and when the package body is tilted to discharge the packaged object, the packaged object passes through, so that the discharge passage becomes wet. In the state in which the inner surfaces of the plastic film are adhered to each other by the packaged matter, the mutual sealing action caused by the intrusion of the outside air is generated. (3) The film-shaped check discharge nozzle has a concave-convex inner surface in a state in which the nozzle of the plastic film is cut at a predetermined position and the base end portion of the nozzle other than the vicinity of the nozzle. (4) The base end portion of the film-shaped check discharge nozzle temporarily seals the opposing sealant layer of the plastic film which is superposed at a low temperature, and temporarily encapsulates the inner surface of the discharge passage. (5) The above-described packaging bag system has a gas accumulation space at a position higher than the upper edge of the above-mentioned film-shaped non-return discharge nozzle of the upper horizontal sealing portion thereof. (6) The non-self-standing liquid-like filling package, wherein the horizontal sealing portion at the upper end portion is fused to the upper end portion of the self-supporting outer packaging container to be suspended by the self-standing outer packaging container The state storage is maintained. (7) The self-supporting outer packaging container is a flexible packaging bag composed of a soft laminated film, which has a bottom portion at the lower end portion, and the top portion is formed for replacing the non-self-standing liquid material filling package. It can be opened and closed. [Effect of the Invention] According to the present invention, it is possible to remove a liquid by using a new structure of a flexible packaging bag having a film-shaped non-return discharge nozzle having a non-return discharge nozzle, that is, a film-shaped check discharge nozzle having an automatic sealing and returning function. The quality of the oxidation of the packaged article (substantially a gas-free package composed only of the liquid packaged article) is deteriorated, and the soft laminated film constituting the package body is formed. At least a part of the surface is formed as an inner surface of the unevenness, and when it is discharged again, it can be smoothly and quickly discharged at any time. Further, according to the present invention, by attaching the inner surface of the concave-convex formed on the main body of the packaging bag, not only the discharge can be smoothly performed, but also the film-shaped non-return discharge nozzle can be cut at a predetermined φ position to form an opening (opening package bag). It is also possible to surely prevent backflow of air or the like into the bag (air flows into the package instead of discharging the packaged object), and it is possible to keep the packaged article fresh in the bag for a long time. Further, according to the present invention, by the temporary cold-melting treatment of the inner surface of the nozzle base end portion, it is possible to provide a film-like non-return discharge nozzle which does not hinder the check function during processing or the like by using the temporary sealing structure. Flexible packaging bag. In addition to the film base end portion side of the film-shaped non-return discharge nozzle, the film-shaped non-return discharge nozzle is provided with a concave-convex inner surface, and it is possible to provide a packaging bag excellent in discharge characteristics as a whole of the flexible packaging bag. Moreover, according to the present invention, it is not necessary to use a non-self-standing liquid-like filling package which is obtained by using a liquid-sealed sealing liquid or the like in a non-self-standing flexible packaging bag. It is placed in a rigid package container, and is housed in an outer packaging bag such as a self-supporting flexible packaging bag (stand bag; outer bag) composed of a soft laminated film. It is preferable to take out the empty bag and replace it with The new product is stored and directly supplied to the use form in this state, and the discharge of the liquid packaged object can be stably performed -11 - 201012709. According to the present invention, the liquid in the flexible packaging bag having the film-like check discharge nozzle is sealed and filled with the liquid of the packaged object, and the upper portion is fixed to the upper portion of the outer packaging container, and is stabilized. The support form and stable discharge of the packaged object can be performed. Further, according to the present invention, it is possible to contribute to the simplicity of manufacture and to suppress the cost of the product. The flexible packaging bag of the present invention is a bag body composed of a soft laminated film of, for example, a laminate of two or three layers, on the upper side, the corner or the top of the side edge portion of either one of the sides. The position of any of the partial positions is such that two sheets of a substantially soft and thin plastic film (a pair of the front and the back) are overlapped and a film-like non-return discharge nozzle is opposed to the surface (Japanese Patent Laid-Open Publication No. 2 00 5-5 995 No. 8) The liquid discharge nozzles are formed by being fused to each other in a side, obliquely upward direction, or the like, or integrally formed in the package body in advance. φ In the flexible packaging bag of the present invention, the film-shaped non-return discharge nozzle having a special structure is, for example, an inner surface (encapsulant layer) on the upper side portion of the main body of the package, and the outermost layer of the plastic film constituting the nozzle The sealant layer is fused to the base end portion of the nozzle, and the discharge passage provided at the central portion of the discharge nozzle communicates with the bag body. For example, the discharge nozzle is formed as a plastic film having a thermoplastic one-axis or two-axis extending base film layer and each side of the sealant layer provided on both sides of the inner and outer layers of the base film layer, for example, two The -12-201012709 pair of plastic film facing sealant layers are mutually or half-width folded into a piece of plastic film. The opposing sealant layers are in each other except for the base end. They are mutually fused, and the whole is formed into a slightly wedge shape, and the central part becomes an unmelted discharge path. The film-shaped non-return discharge nozzle is typically a protruding length X protruding from the main body of the packaging bag of about 30 to 100 mm and a nozzle front width Y of about 20 to 80 mm, for example, the main body of the packaging bag, according to the packaged φ object. The weight is different, but generally, a two-layer laminated film having a thickness of 15 μm/ΡΕ60 μmη and having a toughness is used. On the other hand, the film-shaped non-return discharge nozzle is not subjected to the load of the packaged object, so A thin laminated plastic film having a three-layer structure of 020 μm η / ΝΥ1 5 μιη / ΡΕ 2 0 μϊη is preferable, and the thinner the better, the plastic film having weak toughness can make the aforementioned non-return function better. A pair of plastic films in the overlapping table, the higher the flatness (flatness), the higher the height check effect. Ο Such a film-like check discharge nozzle is formed by overlapping two sheets of a pair of laminated plastic films, for example, a polyethylene layer, a polypropylene layer, ethylene-vinyl alcohol (EVA), ions. The ideal sealant layers such as a polymer or EVOH remain as a part of the base end portion in a desired shape (wedge shape), and the peripheral portion is fused by, for example, heat sealing, high-frequency sealing, or pulse sealing. Thereby, it can be manufactured. The film-shaped non-return discharge nozzle formed of the plastic film constructed by at least three layers (sealant layer-base film layer-sealant layer) is made of a sealant layer on the outer surface of the base end portion thereof. For example, the heat seal melts the sealant layer provided on the inner surface of the opening portion of the side portion of the package body composed of the soft laminated film (mainly two layers) (preferably by the same film type). The sealant layer constituting is attached to a state in which it protrudes from the package body. Thereby, it is possible to obtain a flexible packaging bag which is provided with a film-shaped check discharge nozzle which protrudes outward from the upper portion of the side portion, the top portion, or the like, and the base of the film-shaped check discharge nozzle. When the outer surface of the end portion is fused to the inner surface of the side opening portion of the package body, in order to prevent the sealant layers of the inner surface of the film-like check discharge nozzle from inadvertently intermingling with each other, it is possible to discharge and discharge The inside of the base end portion of the nozzle to which the passage is connected is inserted into the release sheet having a high melting point or which is not thermally melted, or by, for example, changing the melting temperature of the sealant layer of the inner and outer surfaces of the nozzle, for example, by changing the material or extruding the layer. The melting point of the sealant layer film on the inner surface of the nozzle is increased to be higher than the melting point of the sealant layer film on the outer surface of the nozzle, and more preferably 20 to 30 ° C higher. @ For example, a film of a sealant film on the inner surface side is preferably a thermoplastic resin such as polypropylene or polyethylene. Among them, a film having a melting point higher than the melting point of the outer side surface [surface material] of about 20 ° C is desired. It is better. Further, as the outer side surface material, the sealant film is desirably a film which can be heat-sealed at a temperature higher than the heat seal temperature of the sealant layer of the package body. This is because when the film-shaped check nozzle is joined to the bag body by heat sealing, the sealant films on the inner side surface of the film-shaped check nozzle are prevented from being heat-sealed with each other. -14- 201012709 Here, the liquid in the bag body is filled with a liquid such as soy sauce, a liquid seasoning containing solid matter such as sesame, and another liquid packaged product of the soup (the liquid may be mixed slightly in these liquids). The operation of the solid shape may be performed simultaneously with the joining of the film-shaped check discharge nozzle to the main body of the package ('heat sealing) process, or preferably after the joining process. The filling and packaging of such a liquid material is carried out, for example, by performing liquid sealing (filling with liquid, nitrogen, etc., which is not mixed with liquid, and sealing φ), or after filling the packaged product. The degassing or the like in the bag is carried out in a degassing package in which the gas is sufficiently discharged from the inside of the package body. In order to sufficiently exhibit the above-described non-return function of the film-shaped check discharge nozzle, it is necessary to seal the packaged article in the bag in a state of deaeration sealing, and to prevent acidification of the packaged article or the like. Extremely good. Further, the discharge of the liquid packaged article that is filled in the flexible packaging bag is drawn by a predetermined portion of the opening of the film-shaped non-return discharge nozzle near the front end portion (relative to the crack-induced crack, The additional position of the cut is further φ front end side). That is, after the nozzle is opened, the packaged object is subjected to a desired discharge by tilting the body of the liquid product packaging body so that the nozzle opening (injection port) faces downward. In this case, the film-shaped non-return discharge nozzle composed of the soft laminated plastic film is used to pressurize the liquid body to fill the main body portion of the package by the action of the water drop pressure of the packaged object. Isolation on the side of the front and back, the discharge passage is opened, and the discharge of the packaged object is allowed. Further, when the package opening is discharged through the nozzle opening (injection port) of the film-shaped check discharge nozzle, the package -15-201012709 body composed of the soft laminated film is not affected by the discharge of the packaged object. The suction of the outside air (countercurrent) is not performed by the non-return function of the film-like check discharge nozzle, and therefore, the package body is contracted or crushed and deformed by the amount corresponding to the discharge volume portion. In this way, the liquid-filled packaging system in which the liquid is filled in the flexible packaging bag is tilted under the opening of the discharge nozzle, and the required amount of the packaged object can be discharged from the bag. When the package is returned to the original standing position, the flow of the package from the nozzle opening stops @. By the stop of the outflow operation, the liquid-shaped packaged object is adhered to the discharge passage in the discharge passage of the film-shaped check discharge nozzle, and the plastic film of the nozzle is discharged at the same time as the stop. Since the inner surfaces are strongly adhered to each other by capillary action, the nozzle openings provided at the tip end portion of the nozzle are also in close contact with each other, so that it is possible to reliably prevent the outside air from entering the package body.

In the packaging bag having such a film-like non-return discharge nozzle, the liquid packaged article that is filled in the bag can be completely isolated from the outside air before, during, or after the discharge. The protection can effectively prevent oxidation, staining, and the like of the packaged contents in the bag. In the structure of the film of the package body of the present invention, the base film layer on the outer surface and the sealant layer on the inner surface can be made into the same type of base film layer and sealant as the film-shaped check discharge nozzle. Floor. However, in the case where the film-shaped check discharge nozzle and the package body are formed differently, the film structure of the package body is different from that of the nozzle film, and -16-201012709 can also be interposed between the base film layer and the sealant layer. It is equipped with an intermediate layer. Further, the sealant layer forming the inner surface of the package body composed of the soft laminated film is preferably composed of the same type of resin material as the sealant layer of the outermost layer of the discharge nozzle. Thereby, the fusion bonding strength of the discharge nozzle to the package body can be sufficiently improved. Further, in the case where the package system is composed of, for example, a laminated film of two or three layers, one of the axial or biaxially extending base layers of the laminated film is formed by a thickness of 8 to 30 μ? A polyethylene terephthalate film layer (PET layer), a nylon resin film layer (NY layer), ethylene vinyl alcohol (EVOH), or the like is preferably used. Further, the sealant layer for the laminated film of the main body of the package may be formed of a PE layer or a PP layer, an EVA layer, an ionic polymer layer, an EVOH layer, etc., which has a thickness of 10 to 60 μm. . When the thickness of the base film layer is less than 8 μm, there is a problem of water vapor impermeability, gas barrier property, etc., and when the thickness exceeds 30 μm, the bending strength of the laminated film becomes large. If it is too large, it will impair the adhesion of the inner surface of the nozzle after the discharge of the package is stopped. Further, when the thickness of the sealant layer is less than 10 μm, sufficient sealing strength cannot be ensured, and when it exceeds 60 μm, the bending strength of the laminated film becomes excessively large. Further, in the case where the thickness of the sealant layer is within the above range, the sealant layer can be formed of a layer of two or more layers. Further, as a laminated film for the main body of the package, it is required to be strong in toughness because it is required to be filled with a certain amount of liquid. In the present invention, the thickness of the average unit width (15 mm) of the laminated thin film -17-201012709, in other words, the tenacity, is as shown in Fig. 1 of the Japanese Patent Laid-Open Publication No. 2005-59958. It is preferable that the enthalpy measured by the measuring device is about 40 to 300 mN. When the toughness is less than 40 mN, when the packaged article is discharged from the packaging bag, the stability of the discharge direction and the like are poor, and the toughness of the package body cannot be solved, resulting in insufficient strength of the package itself. ' Obvious. On the other hand, when the toughness exceeds 300 mN, there is a case where the laminated structure of the laminated film is reduced regardless of the structure of the laminate film. Further, the flexible packaging bag of the present invention in which the above-described film-shaped non-return discharge nozzle is protruded from the packaging bag body having the film structure is re-discharged in the case of repeated discharge, and is initially In the same manner, it is desirable to smoothly perform the predetermined amount of discharge that is controlled.

Therefore, in the present invention, as shown in Fig. 1, at least a portion of the laminated film of the at least one of the front and back of the package body 2 except for the seal of the bag (transverse seal, longitudinal seal, joint seal of the nozzle and the body) is used. The G has an uneven inner surface 14 such as embossing, sandblasting, knurling, wrinkle processing, and vertical and horizontal stripe processing. The reason other than the sealing portion is that sealing failure occurs when there is unevenness in the sealing portion. The reason why such a concave-convex inner surface is formed in the package body is mainly as follows. That is, the flexible packaging bag of the present invention, by the action of the film-shaped non-return discharge nozzle, not only the non-return action of the film-like check discharge nozzle but also the body of the package is prevented after the liquid package is discharged. Intrusion of outside air (-18-201012709 countercurrent), under the medium containing liquid, capillary action is exerted between the laminated films in these tables, so that the two laminated films become in a state of strong adhesion (non-return), especially The volume of the liquid in the package body is a considerable amount of the discharged liquid, which is a state in which the shrinkage of the film or the crushing deformation of the bag body occurs. As a result, when the liquid-like packaged object to be discharged is again discharged through the film-shaped check discharge nozzle, when the package body has a sufficient liquid amount (liquid height) in the package body (water head) When the pressure is large, the smooth discharge is reinforced to some extent, but when the amount of liquid in the bag becomes small, the head pressure becomes small, and the discharge pressure is smaller than the mutual adhesion of the laminated films, thereby hindering smooth discharge and reflow. (liquid return). In particular, in the flexible packaging bag of the present invention, when the amount of liquid in the bag is small, wrinkles are generated in the main body of the bag, and the wrinkles become sputum (dam), which hinders the flow of the liquid, and the flow path of the liquid is In addition, in this case, if the pressure applied to the main body of the bag is increased, ® will inadvertently eject a large amount of discharge, and it is impossible to ensure a stable discharge operation. In order to remove such a problem, in the present invention, the adhesion force of the laminated film obtained by capillary action in the longitudinal and lateral ranges in the vicinity of at least the film-shaped non-return discharge nozzle of the package main body is slightly relaxed, and the stagnation of the liquid flow is prevented. Smooth, blocked, and ensure the flow path. That is, since the non-returning action of the film-shaped non-return discharge nozzle is not reduced, the adhesion force due to the capillary action occurring in the discharge passage of the film-shaped check discharge nozzle and the package body is alleviated, so that the present invention包-19-201012709 At least one of the laminated films in the overlapped surface of the bagging body is subjected to embossing, sandblasting, or the like to form an uneven inner surface, so that the capillary action does not become or weaken. The inner surface of the unevenness formed on the laminated film is a gap between the laminated films in the front and back of the main body of the package (except for the longitudinal seal, the transverse seal, and the joint sealing portion of the nozzle and the body), that is, the thickness of the liquid layer, usually Between 2 and 5 μm, it is possible to produce an adhesive force in accordance with the capillary action. However, in the present invention, for example, one or both of the laminated films are provided with an embossing, and the gap between the films is 20 μm or more, preferably 3 0 μηη or more, more preferably 50 μπι. In this case, the capillary action described above is completely lost or reduced, and the adhesion between the laminated films is lowered. As a result, at least the portion where the uneven inner surface 14 is provided is always in a state of ensuring a flow path, and even when the amount of liquid in the bag is extremely small, the liquid packaged object can be ensured along the uneven inner surface 14 It is always sleek and discharged. The above-mentioned unevenness processing is preferably carried out by using an embossing roller having a embossed pattern such as a column or a corner post (Japanese Laid-Open Patent Publication No. 2008-12669) or the like, or by imparting an irregular pattern. Further, the concave-convex inner surface 14' can be replaced with such embossing by random wrinkle processing, sand blasting, knurling, vertical and horizontal stripe processing, etc., to achieve desired irregularities. Among these concavities and convexities, it is preferable that the concavo-convex positions are offset from each other to form a gap of 20 μm or more between the opposing laminated films. This uneven processing can be formed by, for example, a bag making machine using a hot roller (70 to 80 ° C) before bag making (before longitudinal sealing -20-201012709) or after bag making. The present inventors conducted the following experiment, that is, in the package body of the TECHBARRIER® NY15pm vapor-deposited surface/vaporized surface TECHBARRIER® PET1 2μιη/ΧΑ-ΗΟ4 0μιη The soy sauce of the packaged product is tilted by the body of the package, that is, the liquid material, and the residual amount when the liquid does not flow out is measured. As a result, as shown in Table 1, it was found that when a laminated film having a concave φ convex process was used, the amount of residual in the bag was minimized, and the effect was extremely remarkable. Further, in this experiment, a embossed cover and a cover having a vertical stripe pattern were formed in the vicinity of the film-shaped check discharge nozzle of the package main body by embossing, and the embossing was not performed. The package body is compared. As a result, in the case of being suitable for the present invention, the amount of residue in the bag of the packaged article is small, and it can be used up to the end, and the discharge operation is smooth. ❹ Table 1 Residual amount of package body soy sauce (g) No processing 48.7 Vertical stripe pattern 24.7 Embossed pattern 30.1 In the present invention, the above-mentioned uneven inner surface is attached to at least a part of the unsealed portion along the body of the package or the upper portion or One to a plurality of patterns are formed in the longitudinal direction of the side edge of the bag on the side of the film-shaped check discharge nozzle, which contributes to ensuring the flow path at the time of the discharge of the -21 - 201012709. In addition, various patterns as shown in Figs. 2(a) to 2(f) are effective, and these patterns are formed into a partial pattern or a full pattern as a planar shape, an island shape, or a thin strip shape. Next, the specific form of the flexible packaging bag of the present invention will be described based on the drawings. The flexible packaging bag shown in Fig. 1 is an example in which a film-shaped check discharge nozzle 1 is protruded from, for example, an upper portion of a left side edge of a package body 2 composed of a soft laminated film, and the bag body 2 is attached to the bag body 2 The sealant layer on the inner surface side and the sealant layer which overlaps the outermost layer of the base end portion of the film-shaped check discharge nozzle 1 are preferably made of the same type of resin material as the sealant layer of the package body 2 . The sealant layer is heat sealed and then joined together. In the case where the sealant resin on the inner surface of the discharge passage of the film-shaped check discharge nozzle 1 is a high melting point, the portion corresponding to the fusion joint portion between the bag body 2 and the film-shaped check discharge nozzle 1 is cooled. It is preferable to temporarily melt to form the temporary package portion 12. Here, the film-shaped check discharge nozzle 1 is a thermoplastic film base film layer, for example, a biaxially stretched PET layer or a ruthenium layer having a thickness of 5 to 40 μm, preferably 10 to 30 μm, and laminated on the base film layer. Each of the two sides of the sealant layer is composed of, for example, 5 to 80 μm, preferably 10 to 60 μm thick, of an unstretched tantalum layer or a tantalum layer, and can be sealed by the inner side by heat sealing. The mutually opposing postures of the agent layers are laminated plastic films of the front and back of the laminated plastic film which are disposed on the respective sides of the watch, that is, the wedge shape, or the like, or folded in the center portion -22- 201012709 A laminated plastic film which is formed by laminating a plastic film on each side except the base end, as shown by oblique lines in the figure. Further, as shown in FIG. 1, the film-shaped check discharge nozzle 1 is provided with a slitting means for cutting the opening of the upper edge portion at a predetermined position, such as a slit, a V-cut, a u-cut, a base cut, and a diamond cut. The resulting crack-inducing crack la is preferred, and the crack-inducing crack la is opened for use. Further, the film-shaped non-return discharge nozzle 1 is preferably provided with a ridge-shaped projection lb for dripping prevention at a position slightly closer to the proximal end side than the predetermined opening φ of the lower edge portion. This projection lb is provided to prevent the dripping liquid generated from the open end of the non-return discharge nozzle 1 from falling to the package body 2 from the lower edge portion of the non-return discharge nozzle 1. Moreover, such a film-shaped check discharge nozzle 1 is formed as a laminated plastic sheet in the front and side of the nozzle in the width direction of the m-πι line in the nozzle width direction of FIG. a film 3, 4, a base film layer 5, 5', and a three-layer structure of a sealant layer 6, 6', 7, 7 laminated to each of the two sides of the base film layer 5, 5', which may The sealant layers 6 and 6' on the inner surface side facing each other are each other at a peripheral portion other than the base end side, and have a width of a predetermined width, for example, a width of 0.5 to 3.0 mm, preferably a width of 1.0 to 2.0 mm. The heat seal is melted into a desired shape (wedge shape), whereby it can be manufactured simply and quickly. The film-shaped non-return discharge nozzle 1 is formed as a flat sheet as much as possible in order to impart an excellent non-return function. Further, at the base end portion of the nozzle, it is preferable to melt the outer side sealant layers 7, 7' to the inner surface of the package body 2 (sealing -23-201012709 agent layer) by heat sealing, and it is possible to correct It is indeed and simply joined to the package body 1. Further, on the outer surface of the film-shaped check discharge nozzle 1, that is, the outer surface of the outer sealant layer 7'7' from the predetermined line (opening predetermined portion) to the base end side, as shown in FIG. As shown in the figure, at least along the open end and the lower edge portion, a coating layer (water-repellent and oil-repellent coating layer) 10 for preventing dripping and for improving the liquid-repellent property or the oil-repellent agent is preferably provided. At the same time, on the inner surface of the inner sealant layers 6, 6' of the film-shaped check discharge nozzle 1, in particular, on the inner surface of the portion where the discharge passage 13 is formed, the wet processing layer 18 for reinforcing the check function is provided. 18' is better. The film-shaped check discharge nozzle 1 configured as described above is a degassing package in which the package body of the packaged product is sealed, for example, by a soft laminated film, or at the same time as the packaged article. Before the sealing of the liquid in the liquid, etc., the mutually melted portions of the sealant layers on the side portions of the degassing package of the package body 2 or the like are preferably heat sealed to the outer surface of the base end portion of the nozzle 1. The sealant layers 7, 7' are fused to the inner surface of the package body 2, thereby forming a part of the package, formed as shown in Fig. 1, protruding from the upper end portion of the package body 2 toward the side. . Further, in the automatic sealing and reclosing action for causing the film-like non-return discharge nozzle 1, the liquid material packaging package 8 of the present invention degases the liquid packaged object by liquid sealing or the like. Packing, and filling the bag into the bag will not leave a residual gas. However, depending on the situation, when the discharge is carried out, a small amount of external air will intrude into the packaging bag, and in addition, the gas contained in the packaged object itself will also be generated in the bag after the event -24-201012709 produce. In order to store the upper portion of the package body 2 from the film-like check discharge nozzle 1, that is, the upper portion of the film-like check-out row, the upper portion of the package may be placed in a plurality of positions as needed. 1. In the flexible packaging bag of 11° as shown in Fig. 4, the packaged article in the form of a degassing package liquid, which is ideally 0, can be filled into a liquid form as shown in the expanded form. The flexible packaging bag of the package itself is usually not self-supporting, and is carried, stored, and displayed in the packaged object, and stored in a self-standing type container, a standing bag, etc., as shown in FIG. It is good to give self-reliance and form. Further, the discharge operation in this case is performed by increasing the tilting angle of the self-supporting outer packaging container (described later) 9 in response to the decrease in φ. The flexible packaging bag is used in a state where the injection port is secured in the state where the predetermined portion of the film-shaped check discharge nozzle 1 is secured, and the flexible bag is tilted, for example, by the standing bag 9. There is no membranous checkout and the gas is intruded and inhaled outside the nozzle 1. In addition, the gas is discharged to the inner surface of the film-shaped check discharge nozzle 1 in accordance with the standing back of the standing bag 9, and the gas gathering space is provided above the discharge nozzle 1 in the bag width direction. The liquid sealing and the like are formed as shown in Fig. 58. However, because of the softness and the styling property, the outer bag 9 (hard-setting property is used as a "standing bag" for the packaged article in the bag as an example, and the front end side is removed by cutting or cutting. The liquid is packaged and discharged from the thin state to perform the discharge operation, and the liquid formed by the liquid packaged object which wets the inner surface of -25-201012709 is adhered to the entire range. Thereby, the external air is surely prevented from intruding into the package body 2. Thereby, the liquid package is degassed and packaged into the package body 2 by liquid sealing or the like. It is possible to discharge without causing external air to enter the inside of the package body 2 under contraction or crushing deformation corresponding to the discharge amount of the packaged article, and to be used after the discharge operation of the packaged object is stopped. The sealing function of the non-return function on the inner surface of the discharge passage of the film-shaped check discharge nozzle 1 prevents the outside air from entering the package body 2 φ, thereby sufficiently preventing the package remaining in the package body 2 from being packaged. Subject to external gas In the case where the liquid packaged product of the required amount is discharged in this manner, the injection port provided at the front end portion of the film-shaped check discharge nozzle 1 is automatically sealed and closed, and the self-standing type is externally opened. The standing bag 9 of the packaging container is returned to the standing position. Here, the sealing and closing operation of the film-shaped check discharge nozzle 1 to generate the check function is performed as described above, that is, the film-shaped check discharge nozzle 1 When the water drop pressure is released, the laminated film 3, 0 in the table returns to the original shape at the time of manufacture of the film-shaped check discharge nozzle 1, and the packaged object in the film-shaped check discharge nozzle 1 is returned to the package body. 2, the plastic film 3, 4 in the watch is placed in a decompression environment, so that the inner surfaces of the soft plastic films 3, 4 (the sealant layers 6, 6') are interposed with each other. Under the packaged object, the capillary is applied to each other to absorb the entire range of the nozzle width. The sealing of the films according to the automatic sealing and returning function is closed. The bag body 2 can be more reliably maintained by reducing the tendency of the inside of the bag body 2 according to the inherent elasticity of -26-201012709. Next, the present invention proposes that the pair is not self-supporting. In the flexible packaging bag of the above-mentioned flexible packaging bag, the liquid-filled packaging body 8 is directly filled with the liquid material in the form of a liquid to be used as a packaging structure. a flexible packaging bag formed by protruding the film-shaped non-return discharge nozzle 1 described above, and the material is composed of a soft laminated film, and even if it is filled with the packaged object, since it is not self-supporting, In order to provide the use directly, it is necessary to use it in combination with the other self-standing container, that is, the standing bag 9. Further, the film-shaped non-return discharge nozzle 1 used in the present invention has a low sealant layer on the outer surface side. The melting point is such that the base end portion is in a protruding posture protruding from the side portion of the flexible packaging bag body 2 and mostly from the side portion of the upper end portion, and is joined to the sealant layer on the inner surface of the packaging bag body 2, In addition, The sealant layer on the inner surface side of the film-like check discharge nozzle 1 is made to have a high melting point, whereby the fusion bonding of the inner surface of the package body 2, for example, the base end portion of the check discharge nozzle 1 is performed. In the case of the temporary sealing portion 12 which is temporarily melted at a relatively low temperature, it is preferable to use the adhesive strength which is one-half or less of the original heat-sealing strength, and the temporary sealing portion which is temporarily melted at a low temperature is used. 12, which can be achieved by lowering at least one of the heating temperature, the pressing force, and the pressurizing time of the heat sealing means, compared to the case of forming a complete fusion joint. -27-201012709 Further, when the temporary encapsulation portion 12 is formed, the position of the temporary encapsulation portion 12 can be set to correspond to the position where the film-shaped non-return discharge nozzle 1 is in the fusion bonding position with respect to the package main body 2, and It may be located at a position closer to the inner side of the package body 2 than the corresponding position, or conversely to a position closer to the outer side of the package body than the corresponding position. In any case, the film-shaped non-return discharge nozzle needs to have a sufficient length (5 to 8 mm) required for the original function to be discharged from the passage forming portion, and remains at a low temperature. The portion is the outer side of the temporary encapsulation portion 1 2 . Further, when the temporary sealing portion 12 is formed, it is necessary to use a high-melting-point sealant layer and a low-melting-point sealant layer for the film-shaped check discharge nozzle 1, but by low-density poly comprising linear low-density polyethylene. Ethylene is formed, or a high-melting-point sealant layer is formed by medium-density or high-density polyethylene, and a low-melting-point sealant layer is formed by low-density polyethylene. In addition, the selection of the melting point of the polyethylene having the same material may be achieved by, for example, changing the extrusion lamination conditions for laminating the sealant layer, etc., as described above. The temporary sealing portion 12 is provided at or near the fusion bonding position of the film-shaped check discharge nozzle 1 to the package body 2, so that the base end portion of the film-shaped check discharge nozzle can be surely prevented from being charged. The liquid packaged article packaged in the package is flowed closer to the nozzle front end than the temporary package portion 12, and even in the case where the packaged article is heated to 50 to 100 ° C, the film-like check discharge nozzle 1 is Most of the packaged discharge path can also be adequately protected from permanent deformation caused by the expansion of the discharge. Therefore, the portion of the film-shaped check discharge nozzle 1 that is closer to the front end side than the temporary package portion 12 can sufficiently exhibit the function of the film-shaped check discharge nozzle 1 and can sufficiently prevent the packaged object from being discharged from the package. When the external air enters the inside of the package body at the time of discharge, the automatic sealing and returning function when the discharge of the packaged object is stopped is surely exhibited. Further, when the packaged article in the bag is cooled to a temperature close to the normal temperature, the package is discharged from the package bag, and the load is applied to the package, for example, in the thickness direction thereof, to form the opening of the temporary package portion 12, and the film is formed. The front end portion of the discharge nozzle is broken or cut and removed to form a discharge opening. In this state, the package is tilted to be a discharge posture in which the discharge opening is downward. Further, the other fusion bonding portion of the packaging bag other than the temporary sealing portion 12 is heat-sealed by, for example, twice or more the strength of the temporary sealing portion 12, so that even if the temporary sealing portion 12 is opened, it is necessary. The load φ does not cause inadvertent breakage of the bag (the bag is broken). Therefore, in the portion of the film-shaped non-return discharge nozzle 1 which is not subjected to the plastic deformation of the packaged object to be heated, it is possible to effectively prevent the package body 2 from being sufficiently opened due to the crushing deformation of the package body 2 The intrusion of the outside air into the package body 2 is caused by the discharge of the packaged object in the bag, and the package can be wrapped by the package when the discharge is stopped by the restoration in the upright posture. The wetted discharge nozzle portion returns to the automatic seal check function generated by the original shape, and can surely prevent the outside air from intruding into the package body. -29- 201012709 Here, in the case of forming a high-melting-point sealant layer and a low-melting-point sealant layer of the film-shaped check discharge nozzle 1 by low-density polyethylene, or by forming a medium-density or high-density polyethylene The melting point sealant layer and the low-density polyethylene forming a low-melting-point sealant layer can easily and easily reach a temporary package having a desired sealing strength, and can reach the film-like non-return discharge nozzle 1 The desired fusion of the joints. In order to prevent inadvertent opening of the temporary package portion 12 and to prevent the other fusion bonding portions from being effectively opened, the heat sealing strength of the temporary sealing portion 12 is 0.3 to 3 (N/). 15mm), especially for the range of 〇.7~1 (N/15mm) is better. That is, when it is less than 0.3 (N/15 mm), the liquid packaged article in the heated state is associated with the amount of the bag contents, etc., and there is a possibility of inadvertent opening of the temporary package portion 12, and when it exceeds 3 (N/1 5 mm ), the load required to open the temporary package portion 12 may also adversely affect other fusion joints (breaking, unsealing). Further, the load 50~3 50(N) for the opening of the temporary package portion 12 is preferably 80 to 300 (N), and particularly preferably a range of 1 〇〇 to 200 (N), whereby It can cause a broken bag or the like that includes other parts such as a seal portion, and can be erroneously opened during transportation and work. That is, when the unsealing load is less than 50 (N), there is a lumping of the packaging bag in which the packaged article is packaged, causing the packaging bag on the lower side to be opened, and the temporary packaging portion 12 is opened, and conversely, When it exceeds 350 (N) and the heat-sealing strength is too high, there is a load required for opening the temporary sealing portion 12, and the other fusion bonding portions are affected. -30-201012709 According to the study of the present inventors, for example, such a film-like check discharge nozzle as shown in FIG. 1 is provided on the side upper portion of the flexible package body 2 (NY15pm/PET12Mm/LLDPE40fim). When the base end portion of the first end portion is temporarily melted at a low temperature and temporarily encapsulated, the laminated structure of the plastic film of the film-like check discharge nozzle 1 is a linear low-density polyethylene layer (low-melting-point sealant layer)/two. Axial-extending polyethylene terephthalate layer/linear low-density polyethylene layer (high-melting-point sealant layer), using heat-sealing sheet temperature as a parameter, the layer is sealed by a heat sealing machine with a pressure cylinder The heat-sealing strength (N/15mm) of the temporary package part when the plastic film is heated and pressurized for 3 seconds at a cylinder pressure of 300 kPa, to pull the test machine (TENSILON RTG-1 300) at a drawing speed of 200 mm The measurement was carried out under conditions of /min and a film width of 15 mm. The results are shown in Table 2. Table 2 Sealing temperature (°C) 106 108 1 10 112 114 116 Average sealing strength (N/l 5mm) 0.27 0.36 0.44 0.64 1.79 4.6 1 *Measurement method: Basis: HS E0236 (1996) Secondly, in the present invention, to help In the non-self-standing flexible packaging bag in which the film-shaped non-return discharge nozzle 1 is protruded from the position of the upper portion of the side surface of the packaging bag main body 2 made of a soft laminated film, the liquid is sealed in the liquid. The self-supporting holding of the non-self-supporting liquid-like liquid-filled package 8 filled with a liquid or a viscous package is proposed, and a self-supporting outer packaging container 9 having a cylindrical shape such as a bag-like container of a standing bag is proposed. And it is added to the packaging structure of the liquid material which consists of -31 - 201012709. As the self-supporting outer packaging container 9 for accommodating the above-described non-self-supporting liquid material rinsing package 8 of the present invention, it is preferable to use a bag-like layer having at least a lower portion as shown in Fig. 6 The container formed by the film formation is particularly a container which can be self-standing by providing a flat bottom bottom portion 16 at the lower end portion. In addition, as the other packaging container 9, a protruding pouch having substantially the same shape as the film-shaped check discharge nozzle 1 and surrounding the nozzle is protruded from the upper portion of the side portion corresponding to the film-shaped check discharge nozzle 1 9a is preferred, for example using a standing bag. Further, as the additional packaging container 9, the top of the packaging container 9 is heat-sealed together with the top of the liquid-like filling package 8 to be accommodated as shown in Fig. 6, or as shown in Fig. 7, the top is shackled or the like. It is preferable that the container is opened and closed, and the liquid package can be accommodated in a replaceable manner. In the present invention, it is preferable to combine the above-described non-self-standing flexible packaging bag and the standing bag, and by this combination, the liquid-filled packaging structure 20 can be obtained. In the liquid material packaging structure 20 of the present invention, the above-described self-supporting outer packaging container 9 can be preferably used by using, for example, a laminated film having a base film layer and a sealant layer having a one-axis or two-axis extension. The base film is formed of a polyethylene terephthalate film layer or a nylon resin film layer, and the sealant layer is formed of a standing film of a laminated film composed of a polyethylene layer or a polypropylene layer. However, in the present invention, the outer packaging container 9 is not limited to a bag-like standing bag composed of such a soft film, and at least the main body portion -32-201012709 may be another self-supporting cylindrical plastic container. Further, the protruding small bag 9a of the nozzle 1 that surrounds the upper portion of the side portion of the self-supporting outer packaging container bag 9 is provided at a position corresponding to the position at which the opening of the film-shaped check discharge nozzle 1 is cut. a crack-inducing crack 15 formed by a slitting means such as a slit, a V-cut, a U-cut, a base cut, and a diamond cut, and is provided with a film-like check discharge nozzle as shown in Figs. 1 exposed cut-away portion 19. By cutting the cut-out portion 19 and unsealing it, it is possible to swell the film-like check discharge nozzle 1 of the package 8 which is a liquid material which is stored in the above-described non-self-standing flexible packaging bag. The protruding portion is exposed, and the discharge nozzle 1 can be opened for use. In the present invention, after the liquid material packaging package 8 is housed in the standing bag 9, "as the case may be, as shown in Fig. 6, the upper end portion of the horizontal sealing portion 8a is heated in a part (fixed point) or full width range. Sealed and fused, and stored in a suspended state. In such a case, it is possible to achieve a state in which the liquid-filled package 8 filled with the liquid material is held in a state of being firmly fixed in the standing bag 9, and contributes to the liquid state. The smooth flow of the packaged material. Further, in the case of the liquid material packaging structure 20 of Fig. 6, it is possible to adequately protect various kinds of rinsing during the processing without the liquid material rinsing of the package 8, and the liquid 塡The positional displacement of the charging package 8 also disappears, and the occurrence of pinholes or the like, deformation, breakage, and erroneous opening of the film-shaped non-return discharge nozzle can be prevented. Further, after the liquid material packaging package 8 is housed in the standing bag 9, -33-201012709 is discharged to the vicinity of the nozzle 1 in a film shape, and the vicinity of the lower side or the upper portion or the upper portion of the main body of the packaging bag It is preferable that the two or more parts or even the bottom part are fixed or fixed to the standing bag 9, whereby the liquid packaged object can be efficiently discharged to the end. [Industrial Applicability] The technology of the present invention can be applied only to a packaging bag having a film-shaped non-return discharge nozzle, and can be used for accommodating a general liquid material packaging package, particularly integrally formed. A packaging structure having a soft packaging bag for replacement of a general liquid discharge port in a package body. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front elevational view showing an embodiment of a flexible packaging bag of the present invention. Fig. 2 is a schematic view showing a concave-convex processing region of the flexible packaging bag of the present invention. Fig. 3 is an enlarged cross-sectional view showing a predetermined position of the opening of the film-shaped non-return discharge nozzle. Fig. 4 is a front elevational view showing a state in which a coating layer is provided in a film-shaped check discharge nozzle. Fig. 5 is a perspective view showing an embodiment of the liquid-filled package of the present invention. Fig. 6 is a front elevational view showing an embodiment of the liquid-filled packaging structure of the present invention. - 34 - 201012709 Fig. 7 is a front view showing another embodiment of the liquid-filled packaging structure of the present invention. [Main component symbol description] 1 : 1 a Film-shaped check discharge nozzle: Pull-induced crack lb: Projection ❿ 2 : Bag body 3, 4: laminated plastic film 5, 5': base film layer 6, 6' 7,7': sealant layer 8 : 9 : liquid-filled package standing bag (self-supporting bag) 10 : coating layer 12 : temporary packaging portion 13 15 = discharge path '·cutting portion 1 8 , 1 8 ' : Wet treatment layer -35-

Claims (1)

201012709 VII. Application for patents: 1. A flexible packaging bag with a non-return function nozzle, which has a soft laminated film on the front side and the back side protruding from the side of the package body. And a flexible packaging bag having a film-like non-return discharge nozzle which is in contact with each other in a state in which a liquid material is placed in a state in which the liquid film is superposed, and the bag body is at least on the front side and the back side. At least an upper portion of the unsealed portion of one of the laminated films or a vicinity of a side edge of the film-like non-return discharge nozzle side is constituted by a laminated film having a concave-convex inner surface. A flexible packaging bag having a non-return function nozzle, wherein the inner surface of the unevenness formed on the laminated film is subjected to embossing processing, sandblasting, knurling, wrinkle processing, and vertical and horizontal stripe processing to form a dough It is formed as a part of a pattern or a full pattern by a shape, an island shape, or a thin strip shape. ❹ 3. A flexible packaging bag having a non-return function nozzle according to claim 1 or 2, wherein the film-shaped non-return discharge nozzle is such that two overlapping soft plastic films are formed in the nozzle. The peripheral portion other than the portion at the base end portion is thermally fused to each other, and the central portion is configured as a discharge passage, and the base end portion is fused to the side portion of the package body, and the package body is tilted to be discharged and packaged. When the object is passed, the inner surface of the film which is in a wet state in the discharge passage is caused by the attachment of the package to the inner surface of the discharge passage. The mutual mutual contact function produces a check function that prevents the intrusion of outside air. 4. The flexible packaging bag having a non-return function nozzle according to claim 1 or 2, wherein the film-shaped non-return discharge nozzle is cut at a predetermined position by a nozzle of a plastic film of at least one of the overlapped surfaces The base end side of the nozzle φ other than the vicinity thereof has an uneven inner surface. 5. The flexible packaging bag with a non-return function nozzle according to claim 1 or 2, wherein the base end portion of the film-shaped non-return discharge nozzle is a low-temperature temporary fusion of the overlapping plastic film. The sealant layer temporarily encapsulates the inner surface of the discharge passage. 6. The flexible packaging bag having a non-return function nozzle according to claim 1 or 2, wherein: 前述 the above-mentioned packaging bag has a horizontal sealing portion on the upper edge of the film-like non-return discharge nozzle Higher position with gas accumulation space. A liquid-filled packaging structure having a non-returnable nozzle, comprising: a non-self-standing liquid-like filling package and a self-supporting outer packaging container, the non-self-standing liquid 塡The non-self-standing flexible packaging bag is a non-self-standing flexible packaging bag which is formed by dissolving and packaging a liquid or viscous package in a non-self-standing flexible packaging bag. Having -37-201012709, the side of the main body of the packaging bag which is formed by sealing and joining the respective soft laminated films on the front side and the back side, and the overlapping plastic films are interposed in a state in which the liquid material is interposed a film-shaped check discharge nozzle formed by the close contact, and at least an upper portion of the unsealed portion of the laminated film of at least one of the front side and the back side of the package main body or a side edge of the film-shaped non-return discharge nozzle side The container is formed by a laminated film having a concave-convex inner surface, and the self-supporting outer packaging container is a cylindrical container for accommodating the non-self-supporting liquid-like filling package, and protrudes from one side. The small bag is provided with a bottom plate for self-standing, and the protruding small bag is provided to expose the film-shaped non-return discharge nozzle, and is provided with a pull-inducing crack for pulling out the tip end portion of the nozzle. And can open the pouch. 8. The liquid-filled packaging structure having a non-return function nozzle according to the seventh aspect of the patent application, wherein the concave-convex inner surface formed on the laminated film is embossed, sandblasted, knurled Machining, pleating processing, and vertical and horizontal stripe processing are carried out in the form of a flat surface, an island shape, or a thin strip shape to form a partial pattern or a full pattern. 9. If the nozzle of the seventh or eighth aspect of the patent application is provided with a non-return function nozzle The liquid material charging packaging structure, wherein the film-shaped non-return discharge nozzle is configured such that the two plastic film sheets which are overlapped are thermally fused to each other at a peripheral portion of the nozzle other than the portion which becomes the base end portion, and the central portion is The venting passage is configured such that the base end portion is fused to the side of the main body of the packaging bag, and when the packaging bag main body is tilted and the packaged object is discharged in 201012709, the packaged object is passed through, so that the discharge is performed. The inner surfaces of the plastic film which are in a wet state in the passage are mutually adhered by the attachment of the package to the inner surface of the discharge passage, and the resistance is generated. Stop the return function of external gas intrusion. 10. The liquid-filled packaging structure having a non-return function nozzle according to the seventh or eighth aspect of the invention, wherein the film-shaped non-return discharge nozzle is a plastic film of at least one of φ in an overlapped surface The nozzle cuts a predetermined position and a nozzle base end side other than the vicinity thereof, and has a concave-convex inner surface. A liquid-filled packaging structure having a non-return function nozzle according to the seventh or eighth aspect of the invention, wherein the base end portion of the film-shaped non-return discharge nozzle is a plastic which is temporarily laminated at a low temperature The opposing sealant layer of the film temporarily encapsulates the inner surface of the discharge passage. 12. The liquid-like filling packaging structure having a non-return function φ nozzle according to the seventh or eighth aspect of the patent application, wherein the packaging bag system has a film-like check in the upper horizontal sealing portion thereof The upper edge of the discharge nozzle has a higher position and has a gas accumulation space. 13. The liquid-filled packaging structure having a non-returnable nozzle according to the seventh or eighth aspect of the patent application, wherein the non-self-standing liquid-like filling package has a horizontal sealing portion at an upper end portion thereof The upper end portion of the self-supporting outer packaging container is fused and held in a state of being suspended in the self-supporting outer packaging container. 14. The liquid-filled packaging structure having the non-return function spray-39-201012709, wherein the self-supporting outer packaging container is composed of a soft laminated film, as claimed in claim 7 or 8. The flexible packaging bag has a flat bottom bottom portion at the lower end portion, and the top portion is opened and closed for replacing the non-self-supporting liquid material filling package. -40-