JP2014118155A - Refill container and manufacturing method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a refill container which can be manufactured in a normal bag-making line, includes a discharge nozzle having a large cross-sectional area without using a plastic part, is available even for a content of high viscosity and easy to open, and can be filled by a normal filling device.SOLUTION: A refill container 1 is manufactured by forming a folding part 6, a body front surface laminate 2 and a body rear surface laminate 3 by folding one laminate having at least a base material and a sealant layer at the upper part, forming a bottom tape 4 by inserting another laminate therebetween while folding with its sealant layer facing outside, and sealing the peripheral edge to have a standing pouch shape. A front half part of the folding part 6 forms a discharge nozzle 22, a rear half part of the folding part 6 is cut and opened to form a filling opening 5, and one or more ridge folding lines 7 parallel to an edge line of the folding part 6 are provided on each of the body front surface laminate 2 and the body rear surface laminate 3 constituting the discharge nozzle 22.

Description

  The present invention relates to a refill container formed of a flexible packaging material for storing a refill content for refilling a bottle container or the like, and in particular, has a spout for facilitating pouring of the refill content. The present invention relates to a refill container and a manufacturing method thereof.

  In recent years, refill products that store liquid or granular products such as shampoos and detergents as contents in pouches and refill them into separate containers at the time of use are increasing.

  As a conventional pouch containing contents for refilling, there is a pouch in which two flexible synthetic resin film sheets are opposed to each other, and an open part around the sheet is heat-sealed to form a seal part. Such a pouch often has a configuration in which a spout for contents is arranged near the corner of the upper seal portion or in the center of the upper portion.

  In such an existing pouch, a spout is formed at a place where the front and back film sheets are sealed in a flat shape. The spout formed in such a seal part has a surface where the film on the front and back surfaces are in close contact and the opening is closed, or the spout is easy to break, and the contents are difficult to pour. There is a problem in that it is easy to block when the width and diameter are narrow and the shape is long.

  As means for preventing the spout from adhering, there is a method of embossing the film on the front and back surfaces near the spout. However, this method requires a new embossing device to be introduced into the bag making machine, and has a problem in terms of production facilities and production efficiency.

  The spout of the flexible packaging bag described in Patent Document 1 is made in order to solve such a problem that the spout is likely to be blocked, and the upper side is obtained by folding one laminated resin film in half. In order to prevent clogging of the spout and to increase the cross-sectional area of the spout.

  According to the spout of the soft packaging bag described in Patent Document 1, compared with the conventional spout where the upper and lower ends of the spout are formed by the seal portion, the blocking prevention effect and the spout speed are equivalent. Although it was improved to some extent, it was still not sufficient for highly viscous contents.

  The pouch with a gusset (possibly misuse of gusset) described in Patent Document 2 has a gusset folding structure for the pouring nozzle portion, thereby greatly expanding the cross-sectional area of the pouring nozzle portion. Is intended.

  However, the pouch with a gusset folding spout described in Patent Document 2 is another sheet that constitutes the gusset portion of the spout, in addition to the front and back materials and the bottom tape necessary for manufacturing a normal standing pouch. This film is necessary, and an unwinding device for unwinding this film must be prepared separately. For this reason, there is a problem in that it cannot be produced in a normal standing pouch bag making line. In addition, the structure in which the pouring nozzle portion is formed by two planar top seal portions still includes the problem that the films constituting the pouring nozzle portion adhere to each other and the opening is blocked. In particular, this problem sometimes occurred at the final stage of extraction.

The flexible bags described in Patent Documents 3 and 4 are both flexible by forming a folding part on the top side of the bag so that the spout is opened by the elastic force of the folding part when opened. It is a sex bag.

  The flexible bags described in Patent Documents 3 and 4 are designed so that the spout is opened at the time of pouring, so that the sheets can be prevented from adhering to each other, and the liquid of the contents can be allowed to flow out. It is a thing.

  Since the flexible bag described in Patent Documents 3 and 4 is provided with a folding portion over the entire length of the top side, the lower portion of the dispensing nozzle is provided in providing an opening for filling the contents. Therefore, it is necessary to leave the recess in an unsealed state as an opening for filling. For this reason, there is a problem that it cannot be applied to a normal filling machine in which a filling nozzle is inserted from above the bag and a very special filling device is not used.

  In order to solve the above-mentioned problem, the applicant, in Japanese Patent Application No. 2011-208723, folds one laminated body into an M shape at the top to form a pouring nozzle. A refill container that can be expanded outward to realize a large-area pouring nozzle was proposed. According to this refill container, even when a high-viscosity content is filled, the pouring nozzle is hardly clogged and can be made with a normal bag making machine. Can be filled.

JP 2008-18991 JP 2010-228786 A JP-A-4-15956 JP-A-4-215957

  The refill container described in the above Japanese Patent Application No. 2011-208723 must be sealed in a state where the laminated body folded into an M-shape is sealed when sealing the tip portion of the pouring nozzle. It was found that there was a problem in productivity.

  In addition, there is a problem that it is difficult to open the laminated body because it is overlapped in the folded state at the opening position even at the time of opening.

  The problem to be solved by the present invention is that it can be manufactured even in a normal bag making line without an embossing device, and has a large pouring cross section without using special plastic parts as a pouring nozzle. Since a nozzle can be secured, a refill container that can be applied to particularly high-viscosity contents, can be easily opened, and can be filled with a normal filling device, and a method for manufacturing the same. It is what we propose.

As a means for solving the above-mentioned problems, the invention according to claim 1 is composed of a laminate having at least a base material and a sealant layer, and one laminate is folded at the upper portion, and a bent portion (6). And the main body surface laminate (2) and the main body back surface laminate (3) are formed, and the other laminate is folded with the sealant layer outside to form the bottom tape (4). And a refill container having a standing pouch shape inserted between the back surface laminate of the main body and the periphery thereof being sealed, wherein the front half of the bent portion (6) is the main body surface laminate, the main body back surface laminate. And a pouring nozzle (22) for pouring out the contents together with the pouring nozzle seal portion (14), and the tip of the pouring nozzle is sealed by the pouring nozzle tip seal portion (15), Opening schedule Are those NOTE forming outlet by disconnecting along the second half portion of the bent portion is cut open to form content filling opening (5),
The main body front surface laminate (2) and the main body back surface laminate (3) constituting the pouring nozzle are each provided with one or more crease lines (7) parallel to the ridge line of the bent portion (6). It is a refill container characterized by the above.

  In the refill container according to the present invention, since the main body surface laminate and the main body back laminate constituting the pouring nozzle are each provided with one or more mountain crease lines parallel to the ridge line of the bent portion, Spreads in a cylindrical shape. For this reason, the laminated body of the front and back is hard to adhere, and even a highly viscous content can be quickly poured out. Moreover, since there is no fold in the seal part at the tip of the dispensing nozzle, the sealability is good. Moreover, since embossing is not required, productivity is good.

  Further, the invention according to claim 2 is that between the plurality of crease lines (7) provided in each of the main body front surface laminate and the main body back surface laminate, and the ridge line of the bent portion (6) and the first mountain fold. The refill container according to claim 1, wherein a valley fold line (8) parallel to the mountain fold line is provided in a portion selected from one or more of the lines (7). It is.

Further, in the invention according to claim 3, after the mountain crease line (7) continuously supplies one laminated body and forms the bent portion (6) by one inner guide, two sheets are formed. The inner guide (32) and the one outer guide (31) are used to fold the ridge line of the bent portion in the opposite direction to form a M-shaped cross section. 2. A fold line (7) is formed in each part, and then the ridge line of the bent part (6) is returned to the original position, and then each seal part is sealed. It is a manufacturing method of the refilling container as described in above.

According to a fourth aspect of the present invention, after the mountain crease line (7) continuously supplies one laminate and forms the bent portion (6) with one inner guide, The laminated body is bent into a bellows shape by the inner guide (32) and the outer guide (31), which is one fewer than the number of the inner guides, and then the folded body (7 ′) is bent by 2 to the bent portion (7 ′) outside the bellows. The fold line (7) is formed by returning the ridge line of the bent part (6) after the formation of more than one mountain crease line (7), and then sealing each seal part. It is a manufacturing method of a refill container.

In the invention according to claim 5, the mountain crease line (7) and the valley crease line (8) continuously supply one laminate, and the bent portion (6) is provided by one inner guide. Is formed, and the laminated body is bent into a bellows shape by three or more inner guides (32) and one outer guide (31) less than the number of the inner guides. 7 ′) each forming a mountain crease line (7), each forming a valley crease line (8) at the inner folding part (8 ′) of the bellows, and then returning the ridge line of the bent part (6) to the original position, 3. The method for manufacturing a refill container according to claim 2, wherein the sealing portion is formed by sealing each sealing portion thereafter.

  In the refill container according to the present invention, a single laminate is folded to form a folded part (6), a main body surface laminated body (2), and a main body back surface laminated body (3), and the first half of the folded part (6). Since the part formed the pouring nozzle for pouring the contents together with the main body surface laminate, the main body back laminate and the pouring nozzle seal part, there is no seal part on the top side of the pouring nozzle, and Since the bent portion always tries to open due to the elasticity of the laminate, the flow path is unlikely to be blocked at the time of pouring.

The refill container according to the present invention is provided with one or more mountain fold lines parallel to the ridge line of the bent portion on the main body surface laminate and the main body back surface laminate forming the pouring nozzle. The cross section of the nozzle becomes polygonal and the cross sectional area increases. For this reason, even a highly viscous content can be quickly poured out, and the dispensing nozzle is not easily bent.

  Further, since the mountain crease line (7) is not sealed in the folded state, the influence on the pouring nozzle seal portion (14) is small, and when forming the pouring nozzle seal portion, the sealing work is performed. There is no difficulty. In addition, the unsealing property is good even when unsealing.

  Furthermore, since the latter half of the bent portion is cut open to form the content filling opening, the content can be easily filled with a normal filling device.

  In the invention according to claim 2, between the plurality of crease lines (7) provided in the main body surface laminate and the main body back laminate, and the ridge line and the first crease line (7 ), A valley crease line (8) parallel to the mountain crease line is provided in a portion selected from one or more of the above, and the cross-section of the pouring nozzle is further polygonal, Becomes more difficult to bend.

  Further, as the number of combinations of the mountain crease line (7) and the valley crease line (8) increases, the cross section of the pouring nozzle approaches a cylinder, and the pouring property is further improved.

  In the invention according to claim 3, after the mountain crease line (7) continuously supplies one laminate and forms the bent portion (6) with one inner guide, the two inner guides ( 32) and one outer guide (31), the ridgeline of the bent portion is folded in the opposite direction to form a M-shaped cross section, and then 1 is formed on each of the two shoulder portions of the M-shape. When the fold line (7) is formed, the ridge line of the bent part (6) is returned to the original state, and then the seal part is sealed. This can be achieved by simply adding a guide plate to the standing pouch production line.

  As described above, the refill container according to the present invention does not require an embossing device and can be simply installed by a guide plate, so that the equipment cost can be reduced and it can be continuously manufactured. , Production efficiency is good.

  In addition, each seal part including the dispensing nozzle tip seal part is folded after the laminated body and then sealed after returning to its original state, so the laminated body is also folded when forming the dispensing nozzle seal part. Therefore, the sealing workability is good. These effects are also exhibited in the inventions according to claims 4 and 5.

FIG. 1 is a schematic view showing an embodiment of a refill container (1) according to the present invention. FIG. 2 is a schematic cross-sectional view showing an A-A ′ cross section of the dispensing nozzle portion (22) of the refill container (1) shown in FIG. 1. 3 (1) to 3 (3) are cross-sectional explanatory views showing a method for forming the mountain crease line (7) in the refill container shown in FIGS. FIG. 4 is a partial schematic view showing another embodiment of the refill container (1) according to the present invention. FIG. 5 is a schematic cross-sectional view showing a B-B ′ cross section of the dispensing nozzle portion (22) of the refill container (1) shown in FIG. 4. FIG. 6 is an explanatory cross-sectional view showing a method of forming the mountain crease line (7) and the valley crease line (8) in the refill container shown in FIGS. FIG. 7 is an explanatory cross-sectional view showing another embodiment of the dispensing nozzle portion (22) formed by the method shown in FIG. FIG. 8 is a partial schematic view showing another embodiment of the refill container (1) according to the present invention. FIG. 9 is a schematic cross-sectional view showing a C-C ′ cross section of the dispensing nozzle portion (22) of the refill container (1) shown in FIG. 8. FIG. 10 is a cross-sectional explanatory view showing a method of forming the mountain crease line (7) and the valley crease line (8) in the refill container shown in FIGS. FIG. 11 is an explanatory cross-sectional view showing another embodiment of the dispensing nozzle portion (22) formed by the method shown in FIG.

Hereinafter, based on the drawings, the refill container according to the present invention will be described in detail.
FIG. 1 is a schematic view showing an embodiment of a refill container (1) according to the present invention. FIG. 2 is a schematic cross-sectional view showing the AA ′ cross section of the dispensing nozzle part (22) of the refill container (1) shown in FIG. 1, and FIGS. It is sectional explanatory drawing which showed the shaping | molding method of the mountain crease line (7) in the refill container shown to 1 and 2.

  A refill container (1) according to the present invention is a refill container comprising a laminate having at least a base material and a sealant layer. The refill container (1) is formed by bending a single laminate, and a folded portion (6) and a main body surface laminate. (2) and main body backside laminate (3) are formed, and the other laminate is folded with the sealant layer outside to form the bottom tape (4). It is a refill container having a standing pouch shape that is inserted between the bodies (3) and seals the periphery to form the side seal part (12), the bottom seal part (13) and the like.

The first half of the bent portion (6) includes a main body surface laminate (2), a main body back surface laminate (3), and a pouring nozzle seal portion (14), as well as a pouring nozzle (22) for pouring out the contents. Forming.

The second half of the bent portion (6) is cut open to form the content filling opening (5), and the tip of the pouring nozzle (22) is sealed by the pouring nozzle tip seal portion (15). The spout is formed by cutting along the planned opening line (dotted line).

As shown in FIGS. 1 and 2, the refill container (1) according to the present invention has a main body surface laminate (2) and a main body back laminate (3) constituting the pouring nozzle (22), respectively. One or more crease lines (7) parallel to the ridge line of the bent part (6) are provided. In the example shown in FIGS. 1 and 2, one crease line (7) is provided in each of the front and back laminates.

  As shown in FIG. 2, since the crease line (7) exists in the pouring nozzle (22), the cross-sectional shape of the pouring nozzle has a rhombus shape. For this reason, the cross-sectional area of the pouring nozzle becomes large, and quick pouring becomes possible. Moreover, even a highly viscous content can be poured out smoothly.

  3 (1) to 3 (3) are cross-sectional explanatory views showing a method for forming the mountain crease line (7) in the refill container shown in FIGS. First, one laminated body is continuously supplied, and a bent portion (6) is formed by one inner guide (32), and then two inner guides (32) and one outer guide (31). Then, the ridgeline of the bent portion (6) is folded in the opposite direction and recessed so that the cross-section becomes M-shaped. Next, after forming one mountain crease line (7) on each of the outer folding portions (7 ') corresponding to the two shoulder portions of the M-shape, the ridge line of the folding portion (6) is returned to its original position, and thereafter A crease line (7) is formed by sealing the seal portion.

  In this way, after bending once with the guide plate to form the mountain crease line (7), the bent portion (6) is returned to the original position, and then the pouring nozzle seal portion is sealed. This does not impair the sealability.

  Further, since the bending can be performed continuously by attaching a guide plate, it can be carried out without making significant modifications to a normal bag making machine.

  As a method of making the outer folding part (7 ') into the mountain crease line (7), the outer folding part (7') can be easily formed by sandwiching it with a nip roll (not shown). At this time, if the nip roll is heated, a crease line is formed more strongly.

  The folding part (8 ′) in FIG. 3 (2) may or may not be crushed by the nip roll, but the squeezing causes a strong force to spread the folded part (6). Become.

  The opening portion for filling contents (5) is formed by cutting open the latter half of the bent portion (6). In an actual production line, the bent portion (6) is formed by continuously feeding a single laminated body wound in a coil shape and bending it continuously. At the same time, the mountain crease line (7) is formed. In order to form the content filling opening (5), it is necessary to cut from the ridge line portion, which is the uppermost portion of the bent portion (6), to the top of the mountain fold line (7). For this reason, the opening part (5) for content filling becomes a position lower than a bending part (6). Further, a point seal (16) is provided so that the filling opening is not torn when filling the contents.

  The planned opening line (indicated by a dotted line in FIG. 1) in front of the dispensing nozzle tip seal portion (15) is a virtual line indicating the opening position, but the main body surface laminate (2) and the main body You may give the easy cut process (23) along the unscheduled opening line to the outer surface of both the back surface laminated bodies (3) or any one of the laminated bodies. One or more half-cut lines are effective for easy cutting. As a method of forming a half cut line, there are a method using a blade and a method using a laser.

  An opening knob (24) is provided below the dispensing nozzle tip seal portion (15) to facilitate the opening operation. Moreover, it becomes easy to attach the opening chance by providing the opening cut line (25) at the lower part of the planned opening line.

  FIG. 4 is a partial schematic view showing another embodiment of the refill container (1) according to the present invention. FIG. 5 is a schematic cross-sectional view showing a B-B ′ cross section of the dispensing nozzle portion (22) of the refill container (1) shown in FIG. 4. FIG. 6 is an explanatory cross-sectional view showing a method of forming the mountain crease line (7) and the valley crease line (8) in the refill container shown in FIGS.

In the embodiment shown in FIGS. 4 and 5, the ridge line of the bent portion (6) and the main body surface laminate (
A valley crease line (8) parallel to the mountain crease line (7) is provided between 2) and the mountain crease line (7) provided in each of the main body back surface laminate (3).

  By doing in this way, the cross-sectional shape of the extraction nozzle (22) becomes a complex polygonal shape, and as the cross-sectional area of the extraction nozzle increases, the effect of preventing the bending of the extraction nozzle also increases.

  FIG. 6 is an explanatory cross-sectional view showing a method of forming the mountain crease line (7) and the valley crease line (8) in the refill container shown in FIGS. The mountain crease line (7) and the valley crease line (8) are formed by continuously supplying one laminate and forming the bent portion (6) with one inner guide (not shown). The laminated body is folded in a bellows shape by the inner guide (32) and the outer guide (31), which is one fewer than the number of inner guides, and the fold line (7 ' ) And forming the valley crease line (8) at the inner folding part (8 ') of the bellows, and then returning the ridge line of the bent part (6) to the original, and then sealing each sealing part It is formed.

  In FIG. 6, when forming the mountain crease line (7) by crushing the outer bent part (7 '), it is better not to crush the bent part (6) at the same time. Therefore, it is necessary to devise, for example, inserting a spacer for preventing crushing between the two outer guides (31).

  The inner bent portion (8 ') can be crushed at the same time, but if it is not crushed, a pouring nozzle (22) having a cross-sectional shape as shown in FIG. 7 is obtained. In any case, each seal portion including the dispensing nozzle tip seal portion (15) is sealed after the laminated body folded in a bellows shape is temporarily restored and the ridge line of the folded portion (6) is restored. I do.

  FIG. 8 is a partial schematic view showing another embodiment of the refill container (1) according to the present invention. FIG. 9 is a schematic cross-sectional view showing a C-C ′ cross section of the dispensing nozzle portion (22) of the refill container (1) shown in FIG.

  In the embodiment shown in FIGS. 8 and 9, between the two crease lines (7) provided in the main body surface laminate (2) and the main body back laminate (3), the crease lines are parallel to each other. A valley fold line (8) is provided.

  Thus, when the mountain crease line (7) and the valley crease line (8) increase, the cross-sectional shape of the pouring nozzle (22) becomes closer to a cylindrical shape, and the pouring property is further improved.

  FIG. 10 is an explanatory cross-sectional view showing a method for forming the mountain crease line 7 and the valley crease line 8 in the refill container 1 shown in FIGS.

  The mountain crease line (7) and the valley crease line (8) are formed by continuously supplying one laminate and forming the bent portion (6) by one inner guide (not shown). The inner guide (32) (four in the figure) and the outer guide (31), which is one less than the number of inner guides (three in the figure), the laminate is folded into a bellows shape, Mountain crease lines (7) are respectively formed at the bent portions (7 '), and valley fold lines (8) are respectively formed at the bent portions (8') inside the bellows, and then the ridge lines of the bent portions (6) are originally formed. Then, each seal portion is sealed after that.

  In FIG. 10, among the three inner bent portions (8 ′), the central bent portion is a folded portion (6), but in this case, simultaneously with the other bent portions (8 ′). You may crush with a nip roll.

  The four outer folding sites (7 ') can be crushed simultaneously by nip rolls. When the inner bent portion (8 ') is not crushed, a dispensing nozzle (22) having a cross-sectional shape as shown in FIG. 11 is obtained.

  As a structure of the laminated body used for the refill container which concerns on this invention, the laminated body normally used for a flexible packaging bag can be used. As the substrate layer, paper, metal foil or synthetic resin film consisting of one layer or several layers is used. For example, low density polyethylene resin (LDPE), high density polyethylene resin (HDPE), linear low density polyethylene resin (LLDPE), polypropylene resin (PP), polyolefin resin such as polyolefin elastomer, polyethylene terephthalate resin (PET), polyester resins such as polybutylene terephthalate resin (PBT), polyethylene naphthalate resin (PEN), cellulose resins such as cellophane and cellulose triacetate (TAC), polymethyl methacrylate (PMMA) resin, ethylene- Vinyl acetate copolymer resin (EVA), ionomer resin, polybutene resin, polyacrylonitrile resin, polyamide resin, polystyrene resin (PS), polyvinyl chloride resin (PVC), polyvinylidene chloride Resin (PVDC), polycarbonate resin (PC), fluorine-based resin, synthetic resin films and paper, such as urethane resin, a metal foil or the like alone or be used in combination. The base material layer includes a printing layer and an adhesive layer as necessary.

  As the paper, high-quality paper, piece art paper, coated paper, cast coated paper, imitation paper, and the like can be used. It is also effective to use paper from the viewpoint of environmental considerations.

  As the sealant layer, polyolefin resin is generally used. Specifically, low density polyethylene resin, medium density polyethylene resin, linear low density polyethylene resin, ethylene / vinyl acetate copolymer, ethylene / α-olefin are used. An ethylene resin such as a copolymer, a polypropylene resin such as a homopolypropylene resin, a propylene / ethylene random copolymer, a propylene / ethylene block copolymer, and a propylene / α-olefin copolymer are used. In addition, a multilayer film in which these resins are combined may be used.

  Specific examples of the structure of the laminate include a film composed of PET / printing layer / adhesive layer / stretched polyamide resin film (ONY) / adhesive layer / LLDPE, ONY / adhesive layer / LLDPE, ONY / Adhesive layer / ONY / adhesive layer / LLDPE, paper / LDPE / aluminum foil / LDPE, paper / LDPE, and the like. As an alternative to the aluminum foil, a transparent gas barrier film using an inorganic oxide vapor deposition layer may be used.

Next, the manufacturing method of the refill container which concerns on this invention is demonstrated.
In order to manufacture the refill container (1) shown in FIG. 1, a laminate is prepared that is slit to a width that is approximately twice the length corresponding to the height of the container. The laminate is continuously supplied with the sealant layer surface facing inward, and is bent using the inner guide (32) to form the bent portion (6), the main body surface laminate (2), and the main body back surface laminate (3). .

  Further, using two inner guides (32) and outer guides (31), the laminate is continuously formed into an M-shape, and the outer bent portion (7 ′) is crushed with a nip roll, thereby forming a crease line (7). Form.

  Further, separately prepared bottom tape (4) is folded in two with the sealant layer on the outside, and after necessary bottom punch hole processing and the like, it is inserted between the main body front and back laminates, and the side seal portion (12 ), A bottom seal portion (13), a dispensing nozzle seal portion (14), a dispensing nozzle tip seal portion (15), and a point seal portion (16).

  Individual containers formed continuously are cut separately, and further cut into a predetermined outer shape to remove unnecessary portions. At this time, the second half of the bent portion (4) after the point seal (6) is cut and removed to form the content filling opening (5).

  As described above, the refill container according to the present invention can be implemented simply by adding a folding device including a guide plate for forming a mountain fold line and a valley fold line to a normal standing pouch forming line. There are no major modifications required.

DESCRIPTION OF SYMBOLS 1 ... Refill container 2 ... Main body surface laminated body 3 ... Main body back surface laminated body 4 ... Bottom tape 5 ... Contents filling opening 6 ... Bending part 7 '... Outer bending part 7 ... mountain fold line 8 '... inner folding part 8 ... valley fold line 12 ... side seal part 13 ... bottom seal part 14 ... dispensing nozzle seal part 15・ ・ ・ Discharge nozzle tip seal part 16 ・ ・ ・ Point seal part 22 ・ ・ ・ Discharge nozzle 23 ・ ・ ・ Easy cut processing 24 ・ ・ ・ Opening knob 25 ・ ・ ・ Opening cut line 31 ・ ・ ・ Outside guide 32 ... Inner guide

Claims (5)

It consists of a laminate having at least a base material and a sealant layer, and one laminate is folded at the top to form a folded portion (6), a body surface laminate (2), and a body back laminate (3), Standing pouch shape in which the other laminate is bent with the sealant layer outside to form the bottom tape (4), and inserted between the main body surface laminate and the main body back laminate to seal the periphery. A refill container having
The front half of the bent portion (6) forms a pouring nozzle (22) for pouring the contents together with the main body surface laminate, the main body back laminate and the pouring nozzle seal portion (14), The tip of the dispensing nozzle is sealed by the dispensing nozzle tip seal portion (15), and forms a spout by cutting along the planned opening line. The latter half of the bent portion is cut open. Forming an opening for filling the contents (5),
The main body front surface laminate (2) and the main body back surface laminate (3) constituting the pouring nozzle are each provided with one or more crease lines (7) parallel to the ridge line of the bent portion (6). A refill container characterized by   Among the plurality of crease lines (7) provided in each of the main body surface laminate and the main body back laminate, and between the ridge line of the bent portion (6) and the first crease line (7), The refill container according to claim 1, wherein a valley fold line (8) parallel to the mountain fold line is provided in a portion selected from two or more.   The mountain crease line (7) continuously supplies one laminate, forms the bent portion (6) by one inner guide, and then forms two inner guides (32) and one sheet. The outer guide (31) folds the ridge line of the bent portion in the opposite direction and dents it to form an M-shaped cross section, and then one mountain crease line (7) on each of the two shoulder portions of the M-shape. 2. The method for manufacturing a refill container according to claim 1, wherein the ridge line of the bent portion (6) is returned to the original position and then the seal portions are sealed.   The mountain crease line (7) continuously supplies one laminate, forms the bent portion (6) with one inner guide, and then includes four or more inner guides (32) and the inner guide The laminate was folded into a bellows shape by the number of outer guides (31) that was one less than the number of guides, and then two or more mountain crease lines (7) were formed at the outer bent portions (7 ') of the bellows. 2. The method for manufacturing a refill container according to claim 1, wherein the ridge line of the bent portion (6) is returned to the original position and each seal portion is then sealed.   The mountain crease line (7) and the valley crease line (8) continuously supply one laminate and form the bent portion (6) by one inner guide, and then three or more inner guides. (32) and the outer guide (31), which is one fewer than the number of the inner guides, bend the laminated body into a bellows shape, and each of the folding lines (7 ') on the outside of the bellows has a fold line (7). After forming the valley crease line (8) in the folding part (8 ') inside the bellows, the ridge line of the bent part (6) is returned to the original position, and then each seal part is sealed. The method for producing a refill container according to claim 2, wherein:

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