JP3866630B2 - Oxygen scavenger-enclosed bag body having oxygen detection function, manufacturing method and manufacturing apparatus thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an oxygen scavenger-enclosed bag body having an oxygen detection function, a manufacturing method thereof, and a manufacturing apparatus.
In more detail, the present invention does not impair the oxygen detection function due to the influence of moisture, oil, alcohol, etc. contained in the food packaged in the packaging bag, for example, and facilitates the work of sealing in the packaging bag. In addition, the present invention relates to a deoxidant-encapsulating bag body having a compact oxygen detection function that can reliably check the oxygen detection function from the outside, a manufacturing method thereof, and a manufacturing apparatus.
[0002]
[Prior art]
Conventionally, it is widely known that an article to be packaged such as food packaged in a packaging bag using an oxygen scavenger is stored in an oxygen-free state in order to prevent it from being spoiled or deteriorated.
Along with this, in order to manage the oxygen-free state in the packaging bag, as a simple monitor, an oxygen detector, for example, a sheet-like oxygen detector is used simultaneously in the oxygen scavenger and the food packaging bag. It is becoming.
[0003]
For example, Japanese Patent Application Laid-Open No. 63-243754 discloses a sheet-shaped oxygen detector loaded in a packaging film.
However, the sheet-shaped oxygen detector disclosed in Japanese Patent Laid-Open No. 63-243754 is separate from the oxygen scavenger-enclosed bag in which the oxygen scavenger is sealed. For this reason, when packaging articles such as food, etc., in a packaging bag, it is necessary to perform two operations, an oxygen scavenger enclosing bag and an oxygen detector encapsulating operation. At the same time, there is a possibility that the operation of packaging and enclosing one of them will not be performed.
[0004]
For this reason, attempts have been made to integrate the oxygen detector and the oxygen scavenger by various means. In recent years, such oxygen detectors and oxygen scavengers tend to be enclosed in individual foods, and the size of one food package tends to be small. For this reason, there is a need for a deoxidant-encapsulating bag body having a compact oxygen detection function in which a small-sized oxygen detector and oxygen absorber are integrated.
[0005]
For this reason, in Japanese Patent Laid-Open No. 8-282740, as shown in FIG. 14, a double-sided pressure-sensitive adhesive tape is formed by using a transparent film 106 and an oxygen detector sheet 104 on the surface of an oxygen scavenger bag 102 in which an oxygen scavenger 101 is enclosed. A compact oxygen scavenger composite packaging bag 100 that is bonded and integrated with each other through 108 is disclosed. Although the transparent film 106 is not shown in the drawing, the left and right side portions are partially open due to manufacturing restrictions, and moisture, oil, alcohol, and the like enter the oxygen detection agent portion from the exposed portion. There is a fear.
[0006]
As described above, when moisture, oil, alcohol, or the like of food enters the portion of the oxygen detection agent sheet 104, the oxygen detection function is impaired. That is, if moisture, oil, alcohol or the like is present, the color of the oxygen detector is discolored and unclear, and the function of detecting oxygen is reduced. Specifically, the oxygen detector is blue when oxygen is present, and pink when oxygen is not present. On the other hand, the problem arises that, in spite of the presence of oxygen, the color is pink instead of blue.
[0007]
In order to solve such a problem, as shown in FIG. 15, Japanese Patent Application Laid-Open No. 11-276888 discloses a substantially flat rectangular oxygen gas in which an oxygen detection agent 202 is hermetically sealed in a synthetic resin film bag 204. The detection agent bag 205 is bonded to one surface 208 of the oxygen scavenger bag 206 with a double-faced adhesive tape 210 or the like on its flat surface so as not to protrude outward from the outer shape of the oxygen scavenger bag 206. An oxygen scavenger-equipped oxygen scavenger composite packaging bag 200 is disclosed.
[0008]
[Problems to be solved by the invention]
By the way, in the oxygen detection function-equipped oxygen absorber composite packaging bag 200 disclosed in Japanese Patent Application Laid-Open No. 11-276888, an oxygen detector agent bag 205 is stuck on one surface 208 of the oxygen absorber bag 206. Therefore, as shown in FIG. 16, for example, when packaging and enclosing the packaged article 210 such as food in the packaging bag 212, the side to which the oxygen detection agent bag 204 is attached is the outer side of the packaging bag 212. Since the oxygen detection agent 202 in the oxygen detection agent bag 204 can be visually recognized from the outside, the oxygen detection function can be confirmed.
[0009]
However, as illustrated in FIG. 17, when the oxygen detection agent bag 204 is sealed so that the side to which the oxygen detection agent bag 204 is attached faces the inside of the packaging bag 212, the article to be packaged 210 becomes an obstacle to detect oxygen. Since the oxygen detection agent 202 in the agent bag 204 cannot be visually recognized from the outside, the oxygen detection function cannot be confirmed.
Therefore, in this way, the side where the oxygen detection agent bag 204 is adhered is outside the packaging bag 212 during the sealing operation so that the oxygen detection agent 202 of the oxygen detection agent bag 204 can be visually recognized from the outside. Encapsulation so as to face is troublesome work, the productivity is not good, and the cost is rather high.
[0010]
In view of such a current situation, the present invention does not impair the oxygen detection function due to the influence of moisture, oil, alcohol, etc. contained in a packaged article such as food packaged in a packaging bag. An oxygen scavenger-enclosed bag body having a compact oxygen detection function that can be easily confirmed from the outside and that can reliably check the oxygen detection function, a manufacturing method therefor, and a manufacturing apparatus therefor The purpose is to do.
[0011]
[Means for Solving the Problems]
The present invention has been invented to achieve the above-described problems and objects in the prior art, and the oxygen scavenger-enclosed bag body having the oxygen detection function of the present invention has an oxygen scavenger in the bag. A substantially flat rectangular oxygen scavenger bag body enclosed in
A substantially flat rectangular oxygen detection agent-enclosed bag body in which an oxygen detection agent is enclosed in a bag,
At one end of the oxygen scavenger encapsulating bag body, the oxygen sensing agent encapsulating bag body is folded and attached to the surface of the oxygen scavenger enclosing bag body so as to cover both sides of the oxygen scavenger enclosing bag body. It is characterized by being.
[0012]
By configuring in this way, the oxygen detection agent-encapsulating bag body is placed on the surface of the oxygen-absorbing agent-encapsulating bag body so as to cover both sides of the oxygen-absorbing agent-encapsulating bag body at one end of the oxygen-absorbing agent-encapsulating bag body. Since it is bent and stuck, the oxygen detector encapsulating bag body exists on both surfaces of the oxygen scavenger enclosing bag body.
Therefore, for example, when packaging and enclosing an article to be packaged such as food in a packaging bag, the oxygen-sensing agent-encapsulating bag body is pasted in whatever direction the oxygen scavenger-encapsulating bag body is encapsulated. The worn side is sealed so as to face the outside of the packaging bag.
[0013]
Thereby, since the oxygen detection agent of the oxygen detection agent-enclosed bag body can be visually recognized from the outside, the oxygen detection function can be surely confirmed.
Moreover, since it is not necessary to consider the enclosing direction of the oxygen scavenger-enclosed bag body, the operation of enclosing in the packaging bag is facilitated, the productivity is improved, and the cost can be reduced.
In addition, at one end of the oxygen scavenger bag body, the oxygen detection agent bag body is folded and attached to the surface of the oxygen scavenger bag body so as to cover both sides of the oxygen scavenger bag body. Therefore, the oxygen scavenger-encapsulating bag body is not bulky, is compact, and can be enclosed in a packaging bag even when a packaged body such as a small-sized food is packaged.
[0014]
Further, in the oxygen detection agent-enclosed bag body, since the oxygen detection agent is enclosed in the bag, for example, oxygen due to the influence of moisture, oil, alcohol, etc. contained in an article to be packaged such as food packaged in a packaging bag. The detection function is not impaired.
Further, in the method for producing a deoxidant-encapsulating bag body having an oxygen sensing function of the present invention, a plurality of substantially flat rectangular oxygen sensing agent-encapsulating bag bodies in which an oxygen sensing agent is enclosed in a bag are continuously provided. An oxygen detection agent-enclosed bag body that is continuous in a long shape, and a double-sided adhesive tape having release paper on one side is attached to one side of the oxygen detection agent-enclosed bag body, an oxygen detection agent-enclosed bag continuous sheet body,
For the oxygen detection agent-encapsulated bag continuous sheet body, a cutting line for cutting into each oxygen detection agent-enclosed bag body is formed so as not to reach the release paper,
The oxygen detection agent-enclosed bag continuous sheet body in which the cutting line is formed is separated into individual oxygen detection agent-enclosed bag bodies by rapidly turning off the release paper and peeling off,
An oxygen scavenger in which a plurality of substantially flat rectangular oxygen scavenger-enclosed bag bodies in which oxygen absorbers are enclosed in the bags are continuously connected to each other. For encapsulated bag continuous sheet body,
At one end of the oxygen scavenger encapsulating bag body, the oxygen scavenger encapsulating bag body is detached via a double-sided adhesive tape so that a part protrudes outward in the width direction of the oxygen sensing agent encapsulating bag body. While sticking to one surface of the oxygen agent enclosure bag body,
The oxygen detection agent-enclosed bag main body protruding outward is bent at one end of the oxygen scavenger-enclosed bag main body, and the bent oxygen detection agent-enclosed bag main body is attached via a double-sided adhesive tape. By sticking to the other surface of the oxygen scavenger bag body,
The oxygen detection agent-enclosed bag body is folded and pasted on the surface of the oxygen absorber-enclosed bag body so as to cover both surfaces of the oxygen absorber-enclosed bag body at one end of the oxygen-desorbent-enclosed bag body. It is characterized by.
[0015]
The oxygen scavenger-enclosed bag manufacturing apparatus having an oxygen detection function of the present invention includes a plurality of substantially flat rectangular oxygen detector encapsulating bag bodies in which an oxygen detector is sealed in a bag. An oxygen detection agent-enclosed bag body that is continuous in a long shape, and a double-sided adhesive tape having release paper on one side is attached to one side of the oxygen detection agent-enclosed bag body, an oxygen detection agent-enclosed bag continuous sheet body,
A cutting device for forming a cutting line for cutting each oxygen detection agent-enclosed bag main body so as not to reach the release paper with respect to the oxygen detection agent-enclosed bag continuous sheet body,
A peeling separation device for separating the oxygen detection agent-encapsulated bag continuous sheet body, in which the cutting line is formed by the cutting device, into individual oxygen detection agent-encapsulated bag bodies by rapidly folding and peeling the release paper;
A plurality of oxygen detector-agent-enclosed bag bodies separated by the peeling / separating apparatus, and a plurality of substantially flat rectangular oxygen-desorbing agent-enclosed bag bodies in which an oxygen scavenger is enclosed in a bag are continuously connected in a long shape. Oxygen absorber encapsulated bag continuous sheet body,
At one end of the oxygen scavenger encapsulating bag body, the oxygen scavenger encapsulating bag body is detached via a double-sided adhesive tape so that a part protrudes outward in the width direction of the oxygen sensing agent encapsulating bag body. An attaching device for attaching to one surface of the oxygen agent-enclosed bag body;
The oxygen detection agent-enclosed bag main body protruding outward is bent at one end of the oxygen scavenger-enclosed bag main body, and the bent oxygen detection agent-enclosed bag main body is attached via a double-sided adhesive tape. By sticking to the other surface of the oxygen scavenger bag body,
The oxygen detector encapsulating bag body is folded on the surface of the oxygen scavenger encapsulating bag body so as to cover both surfaces of the oxygen scavenger enclosing bag body at one end of the oxygen scavenger enclosing bag body. And a music sticking device.
[0016]
By comprising in this way, it forms so that the cutting line which cut | disconnects to each oxygen detection agent enclosure bag main body may not reach release paper with respect to an oxygen detection agent enclosure bag continuous sheet body with a cutting device.
Then, the oxygen detection agent-enclosed bag continuous sheet body in which the cutting line is formed is separated into individual oxygen detection agent-enclosed bag main bodies by rapidly turning the release paper back and separating the sheet.
[0017]
Subsequently, on both sides of the oxygen scavenger encapsulating bag body by the sticking device, both sides of the oxygen scavenger encapsulating bag body are protruded outward in the width direction of the oxygen sensing agent encapsulating bag body. The oxygen detection agent-enclosed bag body is attached to one surface of the oxygen scavenger-enclosed bag body via the adhesive tape.
And, by the bending sticking device, the oxygen detection agent-enclosed bag main body protruding outward is bent at one end of the oxygen scavenger encapsulating bag main body, and the bent oxygen detection agent-enclosed bag main body is It is affixed to the other surface of the oxygen scavenger-enclosed bag body through a double-sided adhesive tape.
[0018]
As a result, the oxygen detection agent-enclosed bag body is folded and attached to the surface of the oxygen absorber-enclosed bag body so as to cover both sides of the oxygen absorber-enclosed bag body at one end of the oxygen absorber-enclosed bag body. Will be.
Therefore, according to the present invention, the oxygen detection agent-enclosed bag body is placed on the surface of the oxygen-absorbing agent-enclosed bag body so as to cover both surfaces of the oxygen-desorbent-enclosed bag body at one end of the oxygen-desorbent-enclosed bag body. The oxygen scavenger-enclosed bag body having the oxygen detection function with the bent structure can be produced continuously and reliably in large quantities.
[0019]
Further, in the oxygen scavenger-encapsulating bag manufacturing apparatus having an oxygen detection function according to the present invention, the bending sticking device is arranged along one end side of the oxygen scavenger enclosing bag body along this end side. The oxygen detecting agent-enclosed bag body is pressed against and attached to both surfaces of the oxygen scavenger encapsulating bag body while moving from one surface to the other surface.
[0020]
With this configuration, the oxygen detecting agent-encapsulating bag is moved by the pressing moving member while moving from one surface to the other surface along one end side of the oxygen-desorbing agent-encapsulating bag body. Since the main body is pressed and attached to both surfaces of the oxygen scavenger bag main body, the oxygen detector encapsulating bag main body can be securely attached to both surfaces of the oxygen scavenger bag main body.
[0021]
Therefore, poor adhesion of the oxygen detector encapsulating bag body to both surfaces of the oxygen scavenger encapsulating bag body may occur, and the oxygen detector encapsulating bag body may peel off or fall off from both surfaces of the oxygen scavenger enclosing bag body. As a result, the oxygen detection function does not deteriorate.
Furthermore, the oxygen-absorbing agent-encapsulating bag body manufacturing apparatus having an oxygen-sensing function of the present invention is the oxygen-sensing agent-encapsulating bag body that is bent and adhered to the surface of the oxygen-absorbing agent-encapsulating bag body by the bending and adhering apparatus. Is provided with a pressing device for pressing and sticking to both surfaces of the oxygen scavenger enclosing bag body.
[0022]
With this configuration, the oxygen detecting agent-enclosed bag body is sandwiched from both sides by the pressing device and is pressed and adhered to both surfaces of the oxygen-desorbing agent-enclosed bag body. The detection agent-enclosed bag body can be more reliably attached.
Therefore, poor adhesion of the oxygen detector encapsulating bag body to both surfaces of the oxygen scavenger encapsulating bag body occurs, and the oxygen detector encapsulating bag body peels off or falls off from both surfaces of the oxygen scavenger enclosing bag body. Since it can prevent further, it can prevent further that an oxygen detection function falls.
[0023]
Moreover, in this invention, the said oxygen detection agent enclosure bag main body is affixed on both surfaces of the said deoxidation agent enclosure bag main body via the double-sided adhesive tape.
Thereby, sticking of the oxygen detection agent enclosure bag main body to both surfaces of a deoxidation agent enclosure bag main body can be performed reliably and easily.
In the present invention, the oxygen detection agent-enclosed bag main body is formed such that separate oxygen detection agents are located on both surfaces of the oxygen scavenger-enclosed bag main body, respectively.
[0024]
With this configuration, the oxygen detection function can be exerted without being affected by the oxygen detection agents that are separately present on both sides of the oxygen scavenger encapsulating bag body, thereby ensuring more reliable oxygen detection. Function will be obtained.
In the present invention, a bending perforation is formed in a bent portion of the oxygen detection agent-enclosed bag body.
[0025]
By comprising in this way, it becomes easy to bend and stick an oxygen detection agent enclosure bag main body to both surfaces of a deoxidation agent enclosure bag main body by the perforation for bending.
Therefore, poor adhesion of the oxygen detector encapsulating bag body to both surfaces of the oxygen scavenger encapsulating bag body may occur, and the oxygen detector encapsulating bag body may peel off or fall off from both surfaces of the oxygen scavenger enclosing bag body. As a result, the oxygen detection function does not deteriorate.
[0026]
In the present invention, the oxygen detection agent-enclosed bag body is formed such that one continuous oxygen detection agent is positioned on both surfaces of the oxygen scavenger-enclosed bag body.
By configuring in this way, it is only necessary to attach one oxygen detection agent to both surfaces of the oxygen scavenger-enclosed bag main body, so that the configuration is simple and the manufacture thereof is facilitated.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments (examples) of the present invention will be described in more detail with reference to the drawings.
FIG. 1 is a perspective view of an oxygen scavenger-enclosed bag body having an oxygen detection function of the present invention, FIG. 2A is a top view of FIG. 1, and FIG. 2B is I of FIG. FIG. 3A is a cross-sectional view taken along line -I, FIG. 3A is a top view of a deoxidant-encapsulating bag body used in the deoxidant-encapsulating bag body having the oxygen detection function of the present invention, and FIG. FIG. 3A is a cross-sectional view taken along the line II-II in FIG. 3A, and FIG. 4A is a top view of the oxygen detection agent-enclosed bag body used in the oxygen scavenger-enclosed bag body having the oxygen detection function of the present invention. FIG. 4B is a cross-sectional view taken along line III-III in FIG.
[0028]
1 and 2, reference numeral 1 generally indicates an oxygen scavenger-enclosed bag body (hereinafter simply referred to as “deoxygen-agent-containing bag body”) having the oxygen detection function of the present invention.
As shown in FIGS. 1 and 2, the oxygen scavenger encapsulating bag body 1 includes a substantially flat rectangular oxygen scavenger enclosing bag body 2 and an end 3 a on one side of the oxygen scavenger enclosing bag body 2. In FIG. 2, the flat surface attached through the adhesive layer 6 in a state of being bent on the surfaces 4 and 5 of the oxygen scavenger encapsulating bag body 2 so as to cover both surfaces 4 and 5 of the oxygen scavenger enclosing bag body 2. It is comprised from the rectangular oxygen detection agent enclosure bag main body 7. FIG.
[0029]
As shown in FIG. 3, the oxygen scavenger-enclosed bag body 2 includes a substantially flat rectangular bag 8 made of an oxygen-permeable synthetic resin, and an oxygen scavenger housing formed inside the bag 8. And a deoxidizing agent 10 accommodated in the portion 9, and the deoxidizing agent 10 is enclosed by a seal portion 11 formed around the bag body 8.
On the other hand, as shown in FIG. 4, the oxygen detection agent-enclosed bag body 7 is composed of a substantially flat rectangular bag body 12, 12 made of a transparent or translucent oxygen-permeable synthetic resin. The shape is a series. These bag bodies 12 have the same configuration, and include an oxygen detection agent 15 housed in an oxygen detection agent housing portion 14 formed inside these bag bodies 12, and around the bag body 12. In this structure, the oxygen detecting agent 15 is sealed by the formed seal portion 16.
[0030]
By configuring in this manner, the oxygen detection agent 15 is blue when oxygen is present, and pink when oxygen is not present, via the transparent or translucent oxygen detection agent storage portion 14. It can be visually recognized from the outside, and can exhibit an oxygen detection function.
Further, as shown in FIG. 1, a perforation 18 for facilitating bending is formed in the bent portion 17 at the substantially central portion of the connecting portion 13.
[0031]
In this case, these bags 8 and 12 need to be oxygen permeable and impermeable to liquids such as water, oil, and alcohol. As such a synthetic resin film, polyethylene, polypropylene, polyester, nylon and the like can be used.
In this case, it is preferable to use a very small pinhole that is less susceptible to the influence of moisture, alcohol, oil, etc., for polyester, nylon, and the like with a small amount of oxygen permeation.
[0032]
More specifically, low density polyethylene (LDPE) and linear low density polyethylene (LLDPE) are preferably used as polyethylene, and unstretched polypropylene (OPP), biaxially stretched polypropylene (CPP) and the like are preferably used as polypropylene. These synthetic resin films can be used not only as a single layer film but also as a laminated film in which films of different materials are laminated. Examples of these laminated films include three-layer films such as OPP / CPP, OPP / LDPE, PET / LDPE, and PET / CPP, LDPE / OPP / LDPE, LDPE / CPP / LDPE, and CPP / OPP / LDPE. Examples of the film include one or more layers.
[0033]
The oxygen scavenger 10 may be a known oxygen scavenger and is not particularly limited. For example, a metal powder such as iron powder, a metal halide such as sodium chloride, and water. Desirably, it is an oxygen scavenger composed of a filler containing it.
The oxygen detector 15 may be a known oxygen detector and is not particularly limited. Specifically, it is possible to use a sheet-like oxygen detector that is formed by supporting a reducing saccharide, an alkali metal compound, and a dye reduced by the reducing saccharide on a hygroscopic sheet-like carrier and drying it. In addition, a solid oxygen detector in which powder is mixed and impregnated with an aqueous solution containing each of the above components or a synthetic resin is impregnated can be used.
[0034]
Among these, a sheet-like oxygen detection agent can be suitably used from the viewpoints of workability when integrated with the bag body 12 of the oxygen detection agent-enclosed bag body 7, prevention of damage to food, prevention of accidental eating, and the like.
The reducing saccharide used in the oxygen detector 15 is composed of monosaccharides such as D-mannose, D-glucose, D-fructose, D-erythrol, and D-arabinose, and monosaccharide molecules such as maltose and lactose. Things. Examples of the alkali metal compound include hydroxides such as sodium and potassium, and carbonates. Furthermore, examples of the pigment that is reduced by the reducing saccharide include methylene blue, new methylene blue, rous violet, and methylene green.
[0035]
In addition, when the reduction state is colorless only by a pigment reduced by reducing saccharides and is difficult to determine with the naked eye, it is not reduced with reducing saccharides in order to make it easier to determine the presence or absence of oxygen with the naked eye. Safranin T, phenosafranine, and the like, which are pigments, may be used together with the pigment to be reduced.
Further, as the hygroscopic sheet-like carrier used for the sheet-like oxygen detector, ion exchange resins, cellulose, other cellulosic substances, organic polymer compounds, and the like are used. Preferably, a sheet such as a filter paper is used. It is desirable to be a cellulosic material.
[0036]
Furthermore, the method for forming the seal portions 11 and 12 is not particularly limited, and heat seal, double-sided pressure-sensitive adhesive tape, hot melt adhesive, instantaneous adhesive, glue, and the like can be used.
Moreover, as shown in FIG. 1 and FIG. 2, the surfaces 4 and 5 of the oxygen scavenger encapsulating bag body 2 are bent so as to cover both surfaces 4 and 5 of the oxygen scavenger enclosing bag body 2 configured as described above. In this state, the adhesive layer 6 for attaching the oxygen detector encapsulating bag body 7 is not particularly limited, and a double-sided pressure-sensitive adhesive tape, a hot melt adhesive, an instantaneous adhesive, a paste, or the like is used. Can do. Among these, it is desirable to use a double-sided pressure-sensitive adhesive tape so that it can be continuously produced in large quantities as described later.
[0037]
Furthermore, in the oxygen scavenger-encapsulating bag body 1 of this embodiment, the oxygen scavenging bag body 1 covers the both sides 4 and 5 of the oxygen scavenger-encapsulating bag body 2 at one end 3a on one side. The oxygen detection agent-enclosed bag body 7 is attached in a state of being bent on the surfaces 4 and 5 of the agent-enclosed bag body 2, but the end 3 a is not particularly limited, and the other ends 3 b to 3- It can be applied to any of 3c.
[0038]
Further, in the oxygen scavenger-encapsulating bag body 1 of this embodiment, the oxygen detection agent-encapsulating bag body 7 is attached to the position substantially at the center of the end 3a. However, this position is not particularly limited, and is uneven. It is possible to change the position as appropriate, such as sticking.
In this embodiment, as shown in FIGS. 1 and 2, the oxygen scavenger accommodating portion 9 is provided so as to be biased toward the end 3a. The position and size can be changed as appropriate, for example, at the approximate center.
[0039]
Furthermore, in the oxygen scavenger-encapsulating bag body 1 of this embodiment, the oxygen detecting agent-encapsulating bag body 7 has a shape in which two rectangular bag bodies 12, 12 are connected at the connecting portion 13, but in FIG. As shown, the oxygen detection agent-enclosed bag body 7 is bent and pasted so that one oxygen detection agent storage portion 14 is located on both sides of the oxygen scavenger-enclosed bag body 2. It is also possible to do so. By configuring in this way, it is only necessary to stick one oxygen detection agent on both surfaces of the oxygen scavenger-enclosed bag body, so that the configuration is simple, and the manufacture thereof is facilitated.
[0040]
A manufacturing apparatus and a manufacturing method for manufacturing the oxygen scavenger bag 1 of the present invention configured as described above will be described below with reference to the drawings.
6 is a front view showing the whole manufacturing apparatus of the oxygen scavenger-enclosed bag body having the oxygen detection function of the present invention, FIG. 7 is a side view in the IV direction of FIG. 6, and FIG. 8 is a part of FIG. FIG. 9 is an enlarged front view, FIG. 9 is an arrow view taken along line AA in FIG. 8, FIG. 10 is an arrow view taken along line BB in FIG. 8, and FIG. FIG. 12 is a schematic view for explaining a method of manufacturing the oxygen scavenger-enclosed bag body having the oxygen detection function of the present invention.
[0041]
6 and 7, reference numeral 20 denotes an oxygen scavenger-enclosed bag manufacturing apparatus (hereinafter, simply referred to as “deoxygen-encapsulating bag manufacturing apparatus”) having the oxygen detection function of the present invention as a whole. ing.
As shown in FIGS. 6 and 7, the oxygen scavenger-enclosed bag manufacturing apparatus 20 includes a gantry frame 22 that is movably mounted on a floor of a factory by a free wheel 21.
[0042]
A deoxidant-encapsulating bag body continuous sheet body 24 in which a plurality of deoxidant-encapsulating bag body 2 are continuously connected in a long shape is wound around a delivery reel 25 at one side portion below the gantry frame 22. The delivery device 26 is provided.
The oxygen scavenger-enclosed bag main body continuous sheet 24 sent out from the sending device 26 by a driving mechanism such as a motor (not shown) is supplied to the peeling and sticking mechanism 30 via the guide rollers 27, 28 and 29. It has become so.
[0043]
On the other hand, an oxygen detection agent-encapsulating bag body continuous sheet body 31 in which a plurality of oxygen detection agent-encapsulating bag body 7 are continuously connected in a long shape is wound around a delivery reel 32 at the side of the peeling and sticking mechanism 30. A mounted delivery device 33 is provided.
The oxygen detection agent-enclosed bag body continuous sheet body 31 delivered from the delivery device 33 by a drive mechanism such as a motor (not shown) is supplied to the peeling and sticking mechanism 30 via the guide rollers 34 and 35. It has become.
[0044]
In addition, as shown in FIG. 13, this oxygen detection agent enclosure bag main body continuous sheet body 31 is the structure by which the double-sided adhesive tape 37 which has the release paper 36 is stuck on the single side | surface 31a. And as shown in FIG. 13, it has the structure which provided the two oxygen detection agent enclosure bag main bodies 7 and 7 in the width direction, and these were continuously arranged in the elongate form.
[0045]
Further, these oxygen scavenger encapsulating bag main body continuous sheet body 24 and oxygen detecting agent encapsulating bag main body continuous sheet body 31 are peeled and attached so that the width direction coincides with the direction perpendicular to the paper surface of FIGS. The attachment mechanism unit 30 is supplied.
As shown in FIGS. 8 and 9, the oxygen scavenger-enclosed bag main body continuous sheet body 24 fed from the feeding device 26 and supplied to the peeling and sticking mechanism 30 is disposed at a pair of intervals. Guided through the guide rails 38.
[0046]
Then, after being guided between the guide rails 38, the oxygen scavenger-enclosed bag body continuous sheet body 24 is further controlled between the pair of top-shaped posture control rollers 39, 39. The posture guided so that both ends in the width direction are sandwiched between the recesses 39a, 39a of the roller 39 is controlled.
The oxygen scavenger-enclosed bag main body continuous sheet body 24 whose posture is controlled between these posture control rollers 39, 39 is supplied to the peeling and sticking portion 41.
[0047]
On the other hand, the oxygen-detecting-agent-enclosed bag main body continuous sheet body 31 fed from the feeding device 33 and supplied to the peeling and sticking mechanism unit 30 passes through the cutting device 42.
This cutting device 42 is arranged so that the cutting cutter portion 43 is positioned on the surface 31b on the opposite side of the release paper 36 of the oxygen detector-encapsulating bag body continuous sheet body 31. Then, as shown in FIG. 13, the individual cutters of the oxygen detection agent-enclosed bag main body continuous sheet body 31 in the width direction of the oxygen detection agent-enclosed bag main body sheet 31 by the cutting cutter unit 43. A cutting line 31 c for cutting the encapsulating bag body 7 is formed so as not to reach the release paper 36.
[0048]
In this case, the cutting cutter unit 43 is not particularly limited, and for example, a cutter blade, cutting with air, cutting with laser, or the like can be employed.
Note that the cutting operation by the cutting cutter unit 43 detects the position of the oxygen detection agent-enclosed bag main body 7 by a detection sensor such as a phototube disposed in the cutting device 42 as shown in FIG. Thus, the cutting operation is controlled by a control device (not shown).
[0049]
Further, as shown in FIG. 8, the cutting cutter unit 43 is provided with an adjusting screw mechanism 44 for adjusting the cutting depth of the cutting cutter unit 43, whereby the cutting line 31c is cut. The depth can be adjusted according to the thickness of the oxygen detection agent-encapsulating bag body continuous sheet body 31.
Thus, in the cutting cutter part 43, the oxygen detection agent enclosure bag main body continuous sheet body 31 in which the cutting line 31c was formed is supplied to the peeling separator 45 of the peeling sticking part 41.
[0050]
This peeling / separating device 45 reverses the oxygen detecting agent-enclosed bag main body continuous sheet body 31 formed with the cutting line 31c through a substantially triangular peel plate member 46, and rapidly turns the release paper 36 back. Peel off. As a result, the individual oxygen detection agent-enclosed bag body 7 is separated.
Note that the release paper 36 peeled off through the peel plate member 46 is taken up and collected outside the apparatus via the guide rollers 48a and 48b, for example, by a separate take-up device (not shown), or placed in a disposal box. It is to be accommodated.
[0051]
On the other hand, the oxygen scavenger-enclosed bag main body continuous sheet body 24 supplied to the peeling and sticking part 41 is supplied to the sticking device 40 of the peeling and sticking part 41.
In this sticking device 40, as shown in FIG. 8 and FIG. 12A, the oxygen detection agent-sealed bag body 7 separated by the peeling / separating device 45 is sealed with the oxygen scavenger supplied to the sticking device 40. The bag body continuous sheet body 24 is attached to the oxygen scavenger-enclosed bag body 2.
[0052]
That is, in the sticking device 40, as shown in FIG. 12B, the oxygen detector encapsulating bag body 7 from the oxygen scavenger enclosing bag body 2 to the end 3 a on one side of the oxygen scavenger enclosing bag body 2. Part of the width direction, that is, one oxygen detection agent-enclosed bag body 7a arranged in the width direction so as to protrude outward (in FIG. 8, on the front side of the paper surface, in FIG. 9, on the right side). The other oxygen detecting agent-encapsulating bag body 7b is attached to one surface of the oxygen-absorbing agent-encapsulating bag body 2 through the adhesive layer 6 of the double-sided pressure-sensitive adhesive tape 37 so as to protrude. Yes.
[0053]
In this case, the oxygen scavenger-enclosed bag main body continuous sheet body 24 and the oxygen-detecting agent-enclosed bag main body continuous sheet body 31 are controlled by a control device (not shown) to be conveyed synchronously, and the sticking position. It is configured so that it will not shift.
Thus, after the oxygen detector encapsulating bag body 7 is adhered to one surface of the oxygen scavenger enclosing bag body 2 by the adhering device 40, the oxygen scavenger encapsulating bag body continuous sheet body 24 continues. And supplied to the bending sticking device 48 of the bending sticking unit 47.
[0054]
As shown in FIGS. 9 and 10, in the bending and sticking device 48, a link portion 52 is connected to a drive shaft 51 of a rotary cylinder 50 that is mounted on a frame 49 and can be rotated forward and backward. The link portion 52 includes a first link member 53 fixed to a drive shaft 51 of a rotary cylinder 50 that can be rotated in the forward and reverse directions, and is rotatable to the first link member 53 via a connecting pin 54. The second link member 55 is connected. A pressing movement mechanism 56 is connected to the second link member 55.
[0055]
The pressing movement mechanism 56 includes a rotation shaft support member 58 that is rotatably connected to a frame 49 via a bearing 57. The rotary shaft support member 58 is slidably mounted with a sliding portion 60 of the pressing moving bar member 59 through a guide member 62 provided inside the opening 61 of the rotary shaft support member 58. Has been.
Further, the base end portion 59 a of the pressing moving bar member 59 is connected to the second link member 55 of the link portion 52.
[0056]
Furthermore, a fingertip-shaped pressing member 64 is provided at the distal end portion 63 of the pressing moving bar member 59. The material of the pressing member 64 is not particularly limited, but in order to perform sticking by pressing as described later, the oxygen scavenger encapsulating bag body 2 and the oxygen detecting agent enclosing bag body 7 It is preferably a light material that does not damage the surface, is easy to slide along the surface, is light, and has excellent wear resistance. For example, nylon such as “MC Nylon (trade name)” (Nippon Polypenco) Synthetic resins such as aluminum and metal materials such as aluminum can be used.
[0057]
With this configuration, as shown by the arrow in FIG. 10, the rotation of the drive shaft 51 of the rotary cylinder 50 that can rotate in the forward and reverse directions causes the second link member 55 of the link portion 52 to move in the direction indicated by the arrow. It rotates as follows. As a result, as shown in FIG. 10, while the rotation shaft support member 58 rotates, the sliding portion 60 of the pressing moving bar member 59 is provided inside the opening 61 of the rotation shaft support member 58. The leading end portion 63 of the pressing moving bar member 59 is pulled and then slid so as to protrude, whereby the pressing moving bar member 59 is moved from the position indicated by the solid line to the position indicated by the one-dot chain line. Move up.
[0058]
As a result, as shown in FIG. 10, the finger-shaped pressing member 64 at the distal end portion 63 of the pressing moving bar member 59 moves from the solid line position to the one-dot chain line position. It moves over both sides 4 and 5 of the oxygen scavenger bag main body 2 along one side edge 3 a of the bag main body 2. It will press against both sides 4 and 5.
[0059]
That is, the oxygen-detecting agent-enclosed bag body 7 is attached to the oxygen-desorbing agent-enclosed bag body 7 at the end 3a on one side of the oxygen-desorbing agent-encapsulating bag body 2 by the finger-shaped pressing member 64 of the tip 63 of the pressing moving bar member 59. 2, one oxygen detection agent-enclosed bag body 7 a that protrudes outside the oxygen detection agent-enclosed bag body 7 is bent toward the surface 5 side of the oxygen scavenger-enclosed bag body 2 (see FIG. 12 (B) arrow). In this state, the oxygen detector encapsulating bag body 7a is adhered to the surface 5 of the oxygen scavenger enclosing bag body 2 to form the oxygen scavenger enclosing bag body 1 (see FIG. 1).
[0060]
After that, when the drive shaft 51 of the rotary cylinder 50 that can be rotated in the forward and reverse directions is further rotated in the direction of the arrow, the second link member 55 of the link portion 52 is rotated as indicated by the arrow to be pushed and moved. The bar member 59 is moved to the initial position shown by the solid line in FIG. 10, and the next cycle is repeated.
As described above, the oxygen detection agent-enclosed bag body 7 is bent and pasted so that the oxygen-detecting agent-enclosed bag body 7 extends over both surfaces 4 and 5 of the oxygen-desorbing agent-enclosed bag body 2 at the side edge 3a on one side. After that, the oxygen scavenger-enclosed bag body 1 is subsequently supplied to the pressing device 65 of the bending sticking unit 47.
[0061]
As shown in FIGS. 8, 9, and 11, the pressing device 65 includes a pressing mechanism 73 attached to the frame 66.
The pressing mechanism 73 includes an opening / closing support member 74 fixed to the frame 66. Inside this open / close support member 74, a pair of substantially squeezing-shaped pinching mechanisms 77 comprising a pair of left and right pinching members 75, 76 which are mounted so as to be openable and closable by a pivot pin (not shown) are slidably mounted. Has been. An air chuck driving device (not shown) is connected to the base end portion 78 of the clamping mechanism 77.
[0062]
Further, sandwiching members 79 and 80 are provided inside the sandwiching members 75 and 76. The material of these sandwich members 79 and 80 is not particularly limited, but in order to perform sticking by pressing as described later, the oxygen scavenger encapsulating bag body 2 and the oxygen detecting agent encapsulating bag. In order to absorb the unevenness of these surfaces without damaging the surface of the main body 7 and to press them reliably, it is preferable that the material is a soft material and excellent in wear resistance. Name) "(Kinki Rubber Co., Ltd.) and other rubber materials such as neoprene rubber, and synthetic resins can be used.
[0063]
With this configuration, as shown in FIG. 11, the clamping mechanism 77 is moved forward by driving the air chuck driving device, so that the clamping members 75 and 76 are on the front side (lower side in FIG. 11). 11 and guided by the opening / closing support member 74 to move from a position where the clamping members 75 and 76 are separated from each other as shown by a dashed line in FIG. 11 to a position where they are close to each other as indicated by a solid line. To do.
[0064]
As a result, the oxygen detection agent-enclosed bag body 7 that is bent and stuck to the surface of the oxygen scavenger bag body 2 by the bending sticking device 48 is sandwiched from both sides by the sandwiching materials 79 and 80 of the clamping members 75 and 76. do it. The oxygen detector encapsulating bag body 7 is pressed and adhered to both surfaces 4 and 5 of the oxygen scavenger enclosing bag body 2.
After that, by driving the air chuck driving device, the clamping members 75 and 76 are projected and moved forward (upward in FIG. 11) and guided to the opening / closing support member 74, as shown by a one-dot chain line in FIG. In addition, the holding members 75 and 76 are moved to positions away from each other, and the next cycle is repeated.
[0065]
With this configuration, the oxygen detecting agent-enclosed bag body 7 is sandwiched from both sides by the pressing device 65 and pressed and adhered to both surfaces 4 and 5 of the oxygen-desorbing agent-enclosed bag body 2. The oxygen detection agent-enclosed bag body 7 can be more reliably attached to both surfaces of the bag body 2.
Therefore, poor adhesion of the oxygen detector encapsulating bag body 7 to both surfaces of the oxygen scavenger encapsulating bag body 2 occurs, and the oxygen detecting agent encapsulating bag body 7 is peeled off from both surfaces of the oxygen scavenger enclosing bag body 2. Since it does not fall off, the oxygen detection function does not deteriorate.
[0066]
After the oxygen detector encapsulating bag body 7 is attached to both surfaces of the oxygen scavenger encapsulating bag body 2 by the pressing device 65 as described above, the oxygen scavenger enclosing bag body 1 is as shown in FIGS. 1 and 8. 1 and passed through a pair of pressing rollers 81 and guide rails 82 that are spaced apart from each other by a predetermined distance, and are accommodated in a pool box 83 as shown in FIG. As shown, it is wound around a take-up reel of a take-up device (not shown).
[0067]
In addition, the continuous sheet body of the oxygen scavenger-enclosed bag body 1 continuously connected in this way is cut into individual oxygen-agent-sealing bag bodies 1 by a customer or the like according to use as appropriate. Used to enclose in. In addition, the continuous sheet body of the oxygen scavenger bag 1 continuously connected in this way may be delivered to a customer after being cut into individual oxygen scavenger bags 1.
[0068]
Moreover, in the manufacturing apparatus 20 of the oxygen scavenger encapsulating bag body of this embodiment, as shown in FIGS. 1 and 8, by operating the oxygen detection agent attaching position adjusting handle 84 provided in the attaching apparatus 40, By adjusting the upper / lower / left / right attachment positions by a moving mechanism such as an LM guide (not shown), it is possible to cope with various sizes of the oxygen scavenger-enclosed bag body 1.
[0069]
In the above-described embodiment of the manufacturing apparatus and manufacturing method for manufacturing the oxygen scavenger-encapsulating bag body 1 of the present invention, the oxygen detecting agent-encapsulating bag body 7 is composed of the rectangular bag bodies 12 and 12 and the connecting portion 13. Although the embodiment using the two-piece continuous shape has been described, as shown in FIG. 5, the oxygen detection agent-enclosed bag body 7 is one oxygen detection continuous on both surfaces of the oxygen scavenger-enclosed bag body 2. It is also possible to bend and attach what is formed so that the agent accommodating part 14 is located. By configuring in this way, it is only necessary to attach one oxygen detection agent to both surfaces of the oxygen scavenger-enclosed bag main body, so that the configuration is simple and the manufacture thereof is facilitated.
[0070]
The preferred embodiment of the present invention has been described above. However, the present invention is not limited to this. In the oxygen scavenger-enclosed bag manufacturing apparatus 20 of the above-described embodiment, a single oxygen scavenger-enclosed bag body 1 is provided. However, various modifications can be made without departing from the object of the present invention, such as the production of a continuous sheet body of two oxygen absorber-encapsulating bag bodies 1. Is possible.
[0071]
【The invention's effect】
According to the present invention, the oxygen detecting agent-encapsulating bag body is folded on the surface of the oxygen-absorbing agent-encapsulating bag body so as to cover both surfaces of the oxygen-absorbing agent-encapsulating bag body at one end of the oxygen-absorbing agent-encapsulating bag body. Since it is affixed, an oxygen detection agent enclosure bag main body will exist on both surfaces of a deoxidation agent enclosure bag main body.
[0072]
Therefore, for example, when packaging and enclosing an article to be packaged such as food in a packaging bag, the oxygen-sensing agent-encapsulating bag body is pasted in whatever direction the oxygen scavenger-encapsulating bag body is encapsulated. The worn side is sealed so as to face the outside of the packaging bag.
Thereby, since the oxygen detection agent of the oxygen detection agent-enclosed bag body can be visually recognized from the outside, the oxygen detection function can be surely confirmed.
[0073]
Moreover, since it is not necessary to consider the enclosing direction of the oxygen scavenger-enclosed bag body, the operation of enclosing in the packaging bag is facilitated, the productivity is improved, and the cost can be reduced.
In addition, at one end of the oxygen scavenger bag body, the oxygen detection agent bag body is folded and attached to the surface of the oxygen scavenger bag body so as to cover both sides of the oxygen scavenger bag body. Therefore, the oxygen scavenger-encapsulating bag body is not bulky, is compact, and can be enclosed in a packaging bag even when a packaged body such as a small-sized food is packaged.
[0074]
Further, in the oxygen detection agent-enclosed bag body, since the oxygen detection agent is enclosed in the bag, for example, oxygen due to the influence of moisture, oil, alcohol, etc. contained in an article to be packaged such as food packaged in a packaging bag. The detection function is not impaired.
Further, according to the present invention, the oxygen detection agent-enclosed bag main body is placed on the surface of the oxygen-absorbing agent-enclosed bag main body so as to cover both surfaces of the oxygen-absorbing agent-enclosed bag main body at one side edge of the oxygen-absorbing agent encapsulated bag main body. The oxygen scavenger-enclosed bag body having the oxygen detection function with the bent structure can be produced continuously and reliably in large quantities.
[0075]
Further, according to the present invention, the oxygen detecting agent-encapsulating bag is moved by the pressing and moving member at one end side of the oxygen scavenger enclosing bag body while moving from one surface to the other surface along the end side. Since the main body is pressed and attached to both surfaces of the oxygen scavenger bag main body, the oxygen detector encapsulating bag main body can be securely attached to both surfaces of the oxygen scavenger bag main body.
[0076]
Therefore, poor adhesion of the oxygen detector encapsulating bag body to both surfaces of the oxygen scavenger encapsulating bag body may occur, and the oxygen detector encapsulating bag body may peel off or fall off from both surfaces of the oxygen scavenger enclosing bag body. As a result, the oxygen detection function does not deteriorate.
Further, according to the present invention, the oxygen detection agent-enclosed bag body is sandwiched from both sides by the pressing device and pressed and adhered to both surfaces of the oxygen-desorbing agent-enclosed bag body. It can be securely attached to both sides of the encapsulating bag body.
[0077]
Therefore, poor adhesion of the oxygen detector encapsulating bag body to both surfaces of the oxygen scavenger encapsulating bag body occurs, and the oxygen detector encapsulating bag body peels off or falls off from both surfaces of the oxygen scavenger enclosing bag body. Since it can be further prevented, it is an extremely excellent invention that has a number of distinctive and distinctive effects such as further prevention of the deterioration of the oxygen detection function.
[Brief description of the drawings]
FIG. 1 is a perspective view of an oxygen scavenger-enclosed bag body having an oxygen detection function according to the present invention.
2A is a top view of FIG. 1, and FIG. 2B is a cross-sectional view taken along the line II of FIG. 2A.
3A is a top view of a deoxidant-encapsulating bag body used in an oxygen-desorbing agent-encapsulating bag body having an oxygen detection function according to the present invention, and FIG. 3B is a plan view of FIG. ) Is a cross-sectional view taken along line II-II.
4A is a top view of an oxygen detection agent-enclosed bag body used in the oxygen scavenger-enclosed bag body having an oxygen detection function of the present invention, and FIG. 4B is a plan view of FIG. It is sectional drawing in the III-III line.
FIG. 5 is a perspective view of another embodiment of the oxygen scavenger-enclosed bag body having the oxygen detection function of the present invention.
[Fig. 6] Fig. 6 is a front view showing an entire apparatus for producing an oxygen scavenger-enclosed bag body having an oxygen detection function according to the present invention.
7 is a side view in the IV direction of FIG. 6. FIG.
FIG. 8 is a partially enlarged front view of FIG. 6;
FIG. 9 is a view taken in the direction of arrow A in FIG. 8;
FIG. 10 is a view taken in the direction of arrows along the line BB in FIG. 8;
11 is an arrow view taken along the line CC of FIG. 8. FIG.
FIG. 12 is a schematic view for explaining a method for producing a deoxidant-encapsulating bag body having an oxygen detection function according to the present invention.
FIG. 13 is a top view of an oxygen detection agent-encapsulating bag body continuous sheet body used in the present invention.
14A is a top view of a conventional oxygen scavenger composite packaging bag, and FIG. 14B is a cross-sectional view thereof.
FIG. 15 (A) is a top view of a conventional oxygen scavenging composite oxygen absorber packaging bag, and FIG. 15 (B) is a cross-sectional view thereof.
FIG. 16 is a top view showing a sealed state of a conventional oxygen scavenging composite oxygen absorber packaging bag.
FIG. 17 is a top view showing a sealed state of a conventional oxygen scavenging composite oxygen scavenger bag.
[Explanation of symbols]
1 Oxygen scavenger bag
2 Oxygen absorber bag
3a edge
3b edge
4 Surface
5 Surface
6 Adhesive layer
7 Oxygen detector enclosing bag body
8 bags
9 Oxygen absorber housing
10 Oxygen absorber
11 Sealing part
12 bags
13 Connections
14 Oxygen detection agent storage
15 Oxygen detector
16 Seal part
17 Folding part
18 Perforation
20 Manufacturing apparatus for oxygen scavenger-enclosed bag
21 free wheel
22 Mounting frame
24 Oxygen absorber encapsulated bag body continuous sheet body
25 Delivery reel
26 Delivery device
27, 28, 29 Guide rollers
30 Peeling mechanism
31a single side
31c cutting line
31 Oxygen detector enclosing bag body continuous sheet body
32 Delivery reel
33 Delivery device
34, 35 Guide rollers
36 Release paper
37 Double-sided adhesive tape
38 Guide rail
39 Attitude control roller
39a recess
40 Sticking device
41 Peeling and sticking part
42 Cutting device
43 Cutting cutter
44 Adjustment screw mechanism
45 Peeling and separating device
46 Peel plate material
47 Bending unit
48 Bending device
48a, 48b guide rollers
49 frames
50 Rotary cylinder
51 Drive shaft
52 Link
53 First link member
54 Connecting pin
55 Second link member
56 Movement mechanism
57 Bearing
58 Rotating shaft support member
59 Moving rod member
59a proximal end
60 Sliding part
61 opening
62 Guide member
63 Tip
64 Pressing member
65 Pressing device
66 frames
73 Pressing mechanism
74 Opening and closing support member
75,76 clamping member
77 Clamping mechanism
78 Base end
79,80 sandwich material
81 Pressing roller
82 Guide rail
83 Pool box
84 Position adjustment handle
100 oxygen absorber composite packaging bag
102 Oxygen absorber bag
104 Oxygen detector sheet
106 transparent film
108 Double-sided adhesive tape
200 Oxygen sensing function combined packaging bag
202 Oxygen detector
204 Synthetic resin film bag
205 Oxygen detector bag
206 oxygen scavenger bag
208 surface
210 Packaged goods
212 Packaging bags

Claims (9)

A substantially flat rectangular oxygen scavenger encapsulating bag body in which an oxygen scavenger is enclosed in a bag;
A substantially flat rectangular oxygen detection agent-enclosed bag body in which an oxygen detection agent is enclosed in a bag,
At one side edge of the oxygen scavenger encapsulating bag body, the oxygen detecting agent encapsulating bag body is folded and pasted on the surface of the oxygen scavenger enclosing bag body so as to cover both surfaces of the oxygen scavenger enclosing bag body ,
The oxygen-sensing agent-enclosed bag main body is formed so that separate oxygen-sensing agents are located on both surfaces of the oxygen-absorbing agent-enclosed bag main body, respectively. body.   2. The oxygen scavenger having an oxygen detecting function according to claim 1, wherein the oxygen detector encapsulating bag body is attached to both surfaces of the oxygen scavenger enclosing bag body via a double-sided adhesive tape. Enclosed bag. The oxygen scavenger encapsulating with an oxygen detecting function according to claim 1 , wherein a folding perforation is formed in a bent portion of the oxygen detecting agent enclosing bag body. Bag body. A substantially flat rectangular oxygen detection agent-enclosed bag body in which an oxygen detection agent is enclosed in a bag , which is provided with two oxygen detection agent storage portions in the width direction, and these are continuously elongated in two strips. The oxygen detection agent-enclosed bag body consisting of an arrayed configuration is an oxygen detection agent-enclosed bag body that is continuously connected in a plurality of elongated shapes, and a double-sided adhesive tape having release paper on one side is enclosed with an oxygen detection agent Oxygen detection agent encapsulated bag continuous sheet attached to one side of the bag body,
For the oxygen detection agent-encapsulated bag continuous sheet body, a cutting line for cutting into each oxygen detection agent-enclosed bag body is formed so as not to reach the release paper,
The oxygen detection agent-enclosed bag continuous sheet body in which the cutting line is formed is separated into individual oxygen detection agent-enclosed bag bodies by rapidly turning off the release paper and peeling off,
An oxygen scavenger in which a plurality of substantially flat rectangular oxygen scavenger-enclosed bag bodies in which oxygen absorbers are enclosed in the bags are continuously connected to each other. For encapsulated bag continuous sheet body,
Double-sided pressure-sensitive adhesive tape so that one oxygen detector accommodating portion protrudes outward from the oxygen absorber encapsulating bag body in the width direction of the oxygen detector encapsulating bag body at one end of the oxygen absorber enclosing bag body Attached to one surface of the oxygen scavenger encapsulating bag body,
The oxygen detection agent-enclosed bag main body protruding outward is bent at one end of the oxygen scavenger-enclosed bag main body , and the other oxygen detection agent containing portion of the bent oxygen detection agent-enclosed bag main body is provided. By sticking to the other surface of the oxygen scavenger encapsulating bag body through the double-sided adhesive tape,
At one end of the oxygen scavenger encapsulating bag body, the oxygen sensing agent encapsulating bag body is folded and pasted on the surface of the oxygen scavenger enclosing bag body so as to cover both surfaces of the oxygen scavenger enclosing bag body ,
Accordingly, the oxygen detection agent-enclosed bag body is formed so that separate oxygen detection agents are located on both surfaces of the oxygen scavenger-enclosed bag body, respectively. A method for manufacturing a bag. 5. The method for producing an oxygen scavenger-enclosed bag body having an oxygen detection function according to claim 4 , wherein a folding perforation is formed in a bent portion of the oxygen sensor-encapsulating bag body. . A substantially flat rectangular oxygen detection agent-enclosed bag body in which an oxygen detection agent is enclosed in a bag, which is provided with two oxygen detection agent storage portions in the width direction, and these are continuously elongated in two strips. The oxygen detection agent-enclosed bag body consisting of an arrayed configuration is an oxygen detection agent-enclosed bag body that is continuously connected in a plurality of elongated shapes, and a double-sided adhesive tape having release paper on one side is enclosed with an oxygen detection agent Oxygen detection agent encapsulated bag continuous sheet attached to one side of the bag body,
A cutting device for forming a cutting line for cutting each oxygen detection agent-enclosed bag main body so as not to reach the release paper with respect to the oxygen detection agent-enclosed bag continuous sheet body,
A peeling separation device for separating the oxygen detection agent-encapsulated bag continuous sheet body, in which the cutting line is formed by the cutting device, into individual oxygen detection agent-encapsulated bag bodies by rapidly folding and peeling the release paper;
A plurality of oxygen detector-agent-enclosed bag bodies separated by the peeling / separating apparatus, and a plurality of substantially flat rectangular oxygen-desorbing agent-enclosed bag bodies in which an oxygen scavenger is enclosed in a bag are continuously connected in a long shape. Oxygen absorber encapsulated bag continuous sheet body,
Double-sided pressure-sensitive adhesive tape so that one oxygen detector accommodating portion protrudes outward from the oxygen absorber encapsulating bag body in the width direction of the oxygen detector encapsulating bag body at one end of the oxygen absorber enclosing bag body A sticking device for sticking to one surface of the oxygen scavenger enclosing bag body,
The oxygen detection agent-enclosed bag main body protruding outward is bent at one end of the oxygen scavenger-enclosed bag main body, and the other oxygen detection agent containing portion of the bent oxygen detection agent-enclosed bag main body is provided. By sticking to the other surface of the oxygen scavenger encapsulating bag body through the double-sided adhesive tape,
At one end of the oxygen scavenger encapsulating bag body, the oxygen sensing agent encapsulating bag body is folded and pasted on the surface of the oxygen scavenger enclosing bag body so as to cover both surfaces of the oxygen scavenger enclosing bag body ,
Accordingly, the oxygen detection agent-enclosed bag main body includes a bending sticking device that is formed so that separate oxygen detection agents are located on both surfaces of the oxygen scavenger encapsulating bag main body, respectively. Equipment for producing oxygen scavenger-enclosed bag body with functions. The bending sticking device removes the oxygen detection agent-enclosed bag body while moving from one surface to the other surface along one end side of the oxygen-absorbing agent-enclosed bag body. The apparatus for producing an oxygen scavenger-enclosed bag body with an oxygen detection function according to claim 6 , further comprising a pressing moving member that presses and sticks to both surfaces of the oxygen agent-sealed bag body. A pressing device that holds the oxygen detection agent-encapsulated bag body bent and pasted on the surface of the oxygen scavenger encapsulating bag body by the bending pasting device and presses and sticks it to both surfaces of the oxygen scavenger enclosing bag body An apparatus for producing an oxygen scavenger-enclosed bag body having an oxygen detection function according to any one of claims 6 to 7 . The oxygen scavenger encapsulating with an oxygen detecting function according to any one of claims 6 to 8 , wherein a bending perforation is formed in a bent portion of the oxygen detecting agent enclosing bag body. Bag manufacturing equipment.

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