The present invention relates to a packaging bag in which a target object such as food or the like is packaged and in particular to a packaging bag including a seal.
In a packaging bag for packaging a target object such as a food material, edges of a bent film are sealed with a seal, and the target object is contained in the resulting containing space. When a consumer takes out the target object, he or she peels the seal sealing the opening to open the bag. Such a packaging bag is manufactured as follows: containing space, which is partially opened, is formed by bending a film and then sealing the side edges of the film; a target object is charged into the containing space through the opening; and then the opening is sealed.
Patent Literature 1 discloses a packaging bag which is formed by bending a film, overlapping the side edges of the film by envelope seaming., and forming a seal in the overlapping region, and a manufacturing method thereof. Patent Literature 3 discloses a packaging bag which is formed by bending a film, overlapping the side edges of the film by butt seaming, and forming a seal in the overlapping part, and a manufacturing method thereof.
Some of packaging bags include a easy-peel seal (easy-opening portion) for easy-opening. These packaging bags are formed by bonding together the edges of a film by envelope seaming or butt seaming and then forming a easy-peel seal in the bonded region.
Patent Literature 1 discloses a packaging bag which is formed by bending a film into a tubular shape, overlapping the edges of the film, and forming multiple longitudinal seals having easy-peel properties in the overlapping region.
Patent Literature 2 discloses a packaging bag which is formed by bending a film, overlapping edges of the film by butt seaming, and forming a easy-peel seal in the overlapping region.
However, if the bondability of an easy-peel seal is too low, the bag-break strength of the bag will be reduced. Such a seal would be peeled unintentionally. On the other hand, if the bondability of an easy-peel seal is too high, the bag would not be easily opened, or the contents would burst out due to the impact when opening the bag. As seen above, for a packaging bag including an easy-peel seal, it is very important that the seal have proper degrees of openability and bag-break strength
Further, when a traditional packaging bag is water-cooled, some water enters between the seal edge serving as a handle and the body of the packaging bag, and such water is difficult to remove even through a drying step.
The present invention has been made in view of the foregoing, and an object thereof is to provide a packaging bag which can prevent the entry of water between the handle and the body, as well as can maintain proper degrees of openability and bag-break strength.
A packaging bag of the present invention includes a easy-peel seal. The seal includes a first region in which multiple belt-shaped seals are spaced from each other in a width direction and a second region in which a single belt-shaped seal is disposed.
According to the packaging bag of the present invention, the multiple belt-shaped seals in the first region can achieve easy-opening properties. Further, since the single belt-shaped seal in the second region has higher bond strength than those in the first region, it can maintain the bag-break strength of the bag. Thus, when opening the bag, the consumer can easily open it from the first region; when the bag is not opened, the break-strength of the bag is maintained by the second region. Although the bond strength of the first region is low, the first region prevents the entry of water, since the multiple belt-shaped seals are disposed in the first region.
A packaging bag of the present invention includes a longitudinal seal having easy-opening properties. The longitudinal seal includes a first seal formed so as to be spaced from a film edge so that the first seal can be picked up with fingers and a second seal formed adjacent to the film edge.
According to the packaging bag of the present invention, the second seal is formed in a position closer to the opening than the first seal and therefore can prevent the entry of water. Different degrees of strength may be provided to the first region and second region when necessary. For example, by reducing the strength of the second seal compared to that of the first seal, it is possible to prevent the entry of water between the handle and the body and maintaining the openability.
According to the present invention, it is possible to provide a packaging bag which can prevent the entry of water between the handle and the body, as well as can maintain proper degrees of openability and bag-break strength.
Now, embodiments of a packaging bag according to the present invention will be described in detail with reference to the drawings.
First Embodiment
In each first region A, multiple belt-shaped seals, a first belt-shaped seal 3a and a second belt-shaped seal 3b, are spaced from each other by a predetermined distance approximately in parallel. The first regions A1 and A2, which are connected to the opposite edges of the second region B1, are shifted from each other in the width direction x of the longitudinal seal 3. Similarly, the first regions A2 and A3, which are connected to the opposite edges of the second region B2, are shifted from each other in the width direction x.
In each second region B, a single belt-shaped seal 3c is disposed. Each belt-shaped seal 3c is formed with a wide width so that the multiple belt-shaped seals, 3a and 3b, in the corresponding first regions A can be connected to the belt-shaped seal 3c. Specifically, for the belt-shaped seal 3c in the second region B1, one side edge thereof in the width direction reaches one side edge of the second belt-shaped seal 3b in the first region A1, and the other side edge reaches the other side edge of the first belt-shaped seal 3a in the first region A2. As seen above, the belt-shaped seal 3c is formed in such a manner that the belt-shaped seals 3a and 3b in both the first regions A1 and A2 can be connected thereto. Similarly, the belt-shaped seal 3c in the second region B2 are formed in such a manner that the belt-shaped seals 3a and 3b in both the first regions A2 and A3 can be connected thereto. Preferably, the width of the single seal (i.e., the width of the second region B) is larger than the width of the multiple seals (i.e., the width of the first region A). Further, the width of the single seal may be larger than the width of each of the multiple seals or may be larger than the total width of the multiple seals.
In the packaging bag 1 of the present embodiment, by adjusting the width of the multiple seals in the first region A and the width of the single seal in the second region B, the belt-shaped seal 3c of the second region B is formed with a wide width so that the belt-shaped seals 3a and 3b in the corresponding first region A can be connected thereto. Thus, the bond strength of the second region B is increased compared to that of the first region A, and the bag-break strength of the bag can be maintained. On the other hand, when opening the packaging bag 1, the consumer picks up an edge of the overlapping portion 2 to peel the longitudinal seal 3. At this time, the longitudinal seal 3 is easily peeled, starting with the belt-shaped seals 3a and 3b in the first region A. Thus, openability is maintained. In general, a narrow seal has good openability, but such a seal is poor in bag-break strength. For this reason, by disposing multiple narrow seals in parallel, the entry of water is prevented. Further, even when one of the narrow seals is peeled, the leakage of the contents can be prevented, since the other seal remains. Accordingly, openability is maintained while preventing the entry of water or preventing the leakage of the contents. However, simply providing multiple narrow seals does not provide sufficient bag-break strength. In the present embodiment, on the other hand, by using the single wide seal together, bag-break strength is significantly improved. In this case, openability is not significantly impaired. The reason is that since the consumer opens the bag from the multiple narrow seals, he or she can also peel the wide seal with momentum based on the shear force. Note that the shape of the longitudinal seal in the packaging bag 1 is not limited to that in the present embodiment and various shapes may be employed. For example, a single seal may be disposed only in the central portion of the bag, in which the bag is likely to be broken, in order to maintain bag-break strength, and multiple seals may be disposed near the transverse seals at both edges of the bag. Thus, when opening the bag, the consumer can easily open the edge. Further, by opening the bag from the edge sequentially, the consumer can also easily open the central portion, in which the single seal is formed.
Next, a method for manufacturing the packaging bag 1 will be described using an example in which the packaging bag 1 is manufactured using a pillow packaging machine 100 shown in
The first step in which a twofold multilayer film is formed into a tubular shape: a multilayer film 10 obtained from a roll original film F travels around feed rolls 120 and 121 and is led to a former 112. A sensor 119 disposed on the path from the roll original film F to the former 112 detects register marks printed on multilayer films 10 at predetermined distances in the length direction so that the multilayer films 10 each having a predetermined length can be fed onto the path in the pillow packaging machine 100 at predetermined time intervals. During the passage through the former 112, each multilayer film 10 is bent into a tubular body in which both side edges of the bent multilayer film overlap each other. An overlapping portion 2 is formed in the overlapping region.
The second step in which a longitudinal seal is formed: the overlapping portion 2 of the multilayer film 10 is heat-sealed by a longitudinal sealer 113 to form a longitudinal seal 3. At this time, the longitudinal sealer 113 performs heat sealing by contacting or separating the contact surfaces thereof with or from the overlapping portion 2 at the timing when the multilayer film 10 moves at predetermined time intervals.
Subsequently, when the subsequent target region is fed along the length direction y, the longitudinal sealer 113 performs the second heat sealing by pressing the contact surfaces against that region. At this time, the contact surfaces of the longitudinal sealer 113 and the overlapping portion 2 are relatively moved to predetermined positions in the width direction x. Thus, as shown in
As with the second heat sealing, the third heat sealing is performed to form belt-shaped seals (belt-shaped seals of a third group G3). Thus, as shown in
The third step in which a lower transverse seal is formed: the multilayer film 10 having the longitudinal seal formed thereon is fed downstream in the form of a tubular body 7. When a squeeze roll 115, which can be opened and closed, is closed, the tubular body 7 is squeezed and flattened; and when the transversely sealing machines 116 and 117 are closed, a lower transverse seal 5 is formed in a predetermined position of the flattened tubular body 8.
The fourth step in which a target object is charged: a predetermined amount of a target object W is introduced into a hopper 111 and then charged into the tubular body 8.
The fifth step in which an upper transverse seal is formed: a yet-to-be-separated packaging bag 1a, as well as the tubular body 7 and a predetermined length of the multifold multilayer film 10 following the tubular body are fed by opening the squeezing roll 115 and transversely sealing machines 116 and 117 and then rotating the feed roll 114. Subsequently, the transversely sealing machines 116 and 117 are closed to heat-seal a predetermined position, thereby forming an upper transverse seal 6, as well as forming a lower transverse seal 5 connected to the upper transversely sealed part 6, of a subsequent packaging bag located upstream of the path.
The sixth step in which the boundary between the connected bags are cut: a press/cutter 118 is closed to press the lower transverse seal 5 of the yet-to-be-separated packaging bag la and the upper transverse seal 6 connected to the transversely sealed part 5, then cuts the boundary between both bags, and drops a packaging bag 1 onto a conveyor 130.
In this way, the packaging bag 1 shown in
Further, the openability of the packaging bag 1 is improved as the proportion of the first regions A is increased; the bag-break strength thereof is increased as the proportion of the second regions B is increased. According to the manufacturing method of the present embodiment, the first regions A and second regions B can be formed by shifting the pair of seal bars or the film in the second step. Further, the amount of shift of the belt-shaped seals in the length direction y can be adjusted by changing the distance between the seals. Thus, it is possible to change the composition ratio between the first regions A and second regions B in the longitudinal seal 3. Accordingly, it is possible to easily adjust the openability and bag-break strength of the longitudinal seal 3.
While the first embodiment of the present invention has been described, the invention is not limited thereto, as a matter of course. Various changes or modifications can be made thereto without departing from the spirit and scope of the invention.
For example, three or more belt-shaped seals may be disposed in each first region. Further, the respective numbers of the first regions and second regions which are alternately disposed in the length direction y are not limited to those in the present embodiment and may be larger or smaller. The belt-shaped seals alternately disposed without any gap in each second region may overlap in part each other in the width direction x and length direction y.
Further, as shown in
Further, the packaging bag may be formed as a single-fold multilayer film, or the overlapping portion may be formed by butt seaming.
Further, the manufacturing method is not limited to that in the present embodiment. For example, first regions and second regions may be formed using a seal bar for forming first regions and a seal bar for forming second regions, respectively.
Second Embodiment
A packaging bag of a second embodiment of the present invention can maintain openability, as well as can prevent entry of water between the handle and the body. In the present embodiment, there will be described, as an example, an envelope seamed packaging bag in which edges of a film are stacked and longitudinally sealed.
The opening 9 includes an edge 2a of an outer side edge 2b of an overlapping portion 2 on the outer surface of the packaging bag and an inner side edge 2c of the overlapping portion 2 on the inner surface of the packaging bag. That is, the opening 9 is formed at the edge adjacent to the edge 2a of the overlapping portion 2.
The longitudinal seal 4 includes a first seal 4a and a second seal 4b.
The first seal 4a is formed so as to be spaced from the edge 2a by at least a predetermined distance so that the consumer can pick up the edge 2a or its vicinities with fingers when opening the bag. The first seal 4a includes two belt-shaped seals, 4a1 and 4a2, which are approximately parallel with the edge 2a. While the first seal 4a includes the two belt-shaped seals considering both openability and bag-break strength, the first seal 4a need not necessarily include multiple belt-shaped seals and may include a single belt-shaped seal.
The second seal 4b is formed in a position closer to the opening 9, which is an edge of the film, than the first seal 4a. In particular, in the present embodiment, the second seal 4b is disposed at an edge adjacent to the opening 9 in a belt shape. Specifically, the second seal 4b is formed at an edge adjacent to the edge 2a of the overlapping portion 2 in a belt shape. The second seal 4b is preferably formed on the edge in order to prevent the entry of water into the edge, but it does not necessarily have to be formed on the edge. The second seal 4b only has to be formed near and along the edge. The second seal 4b is preferably formed in such a manner that it has lower strength than the first seal 4a and thus the consumer can easily open it with a weak force. That is, the second seal 4b only has to prevent the entry of water when the bag is water-cooled in the bag manufacturing process, and it preferably has as low strength as possible in terms of openability. On the other hand, the first seal 4a is preferably provided with a certain degree of strength so that it is not peeled unintentionally, for example, when the bag is carried. However, it is not preferable to provide the first seal 4a with too high strength, since such a first seal 4a is difficult to open without using some tool. Since the first seal 4a includes the multiple parallel seals, the other seal reliably remains even when one of the seals is peeled. Thus, both openability and bag-break strength can be achieved. The strength of the seals can be adjusted, for example, by heat- sealing the second seal 4b with a lower heating temperature than that of the first seal 4a, or contacting the seal bars with the film with a smaller force when forming the second seal 4b than when forming the first seal 4a.
The packaging bag 11 may be water-cooled with the opening 9 sealed, depending on the type of the target object. At this time, there may occur problems such as the entry of water into the overlapping portion 2 through the opening 9. However, the second seal 4b is formed in a position closer to the opening 9 than the first seal 4a in the packaging bag 11. Thus, the second seal 4b can prevent the entry of water On the other hand, if the strength of the second seal 4b is extremely low, it may be peeled unintentionally and thus water may enter the overlapping portion 2. Even in this case, the entering water is small in amount. When the consumer takes out the target object, he or she peels the longitudinal seal 4 to open the opening 9. In this case, if the strength of the second seal 4b is as low as possible and the first seal 4a has easy-peel properties to the extent that the bag is not unintentionally broken, the consumer can first peel the second seal 4b easily and then peel the first seal 4a while picking up the film edge. Thus, the consumer can open the bag without difficulty, and the openability of the opening 9 is not impaired.
Particularly, in the second embodiment, the second seal 4b is formed at the edge adjacent to the opening 9 and therefore can prevent the entry of water at the forefront when the bag contacts water. Thus, extremely high waterproof effects can be obtained.
Next, a method for manufacturing the packaging bag 11 will be described. A pillow packaging machine 100 used in this manufacturing method is approximately the same as that shown in
The second step in which a longitudinal seal is formed: the longitudinal sealer 113 heat-seals the overlapping portion 2 of the multilayer film 10 by contacting or separating the contact surfaces of the seal bars with or from the overlapping portion 2 at the timing when a multilayer film 10 moves at predetermined time intervals, thereby forming first seals 4a1 and 4a2 and a second seal 4b. That is, in the present embodiment, the step in which the first seals 4a1 and 4a2 are formed and the step in which the second seal 4b is formed are performed simultaneously. Note that the first seal 4a and second seal 4b need not necessarily be formed simultaneously. For example, after the first seal 4a is formed, the second seal 4b may be formed in a subsequent step.
Note that the heating temperature and pressing force of the contact surface 113c only has to achieve the low strength of the second seal 4b in concert with each other. Accordingly, even when one of the heating temperature and pressing force thereof is greater than or equal to that of the contact surfaces 113a and 113b, there is no problem. As another method, the strength of the seals may be adjusted by reducing the time of heat sealing performed by the contact surface 113c compared to that of the contact surfaces 113a and 113b or by adjusting the seal widths.
After the step in which a longitudinal seal 4 is formed, a lower transverse seal 5 is formed; a target object is charged; an upper transverse seal 6 is formed; and the boundaries of the connected bags are cut. Thus, the packaging bag 11 shown in
While the second embodiment of the present invention has been described, the invention is not limited thereto, as a matter of course. Various changes or modifications can be made thereto without departing from the spirit and scope of the invention.
For example, a single or three or more first seals may be formed, or multiple second seals may be formed. Further, the first seals or second seal may be formed as strong seals, which have high strength, rather than as easy-peel seals.
Further, as shown in
Further, as shown in
Further, the packaging bag may be formed as a monolayer film or may be formed as a multilayer film including two or more layers. The packaging bag may also be a twofold film which is composed of a multilayer film in which layers are bonded together in a pseudo manner or a multilayer film formed by flattening a tubular film extruded by extrusion blow molding.
Further, the overlapping portion of the packaging bag may be formed by butt seaming. In this case, the overlapping portion may be erect, or may be prone by folding it. Further, the second seal may be formed so as to be located at the edge, or the second seal may be formed so as to be spaced from the edge and then the edge may be folded so that the bag can be opened from both sides.
Further, the manufacturing method is not limited to that of the second embodiment. For example, the first seals and second seal may be formed at different timings.
Number | Date | Country | Kind |
---|---|---|---|
2013-064093 | Mar 2013 | JP | national |
2013-064097 | Mar 2013 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2014/057769 | 3/20/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2014/156955 | 10/2/2014 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3342326 | Zackheim | Sep 1967 | A |
4150744 | Fennimore | Apr 1979 | A |
4709397 | Voshall | Nov 1987 | A |
5389686 | Diop | Feb 1995 | A |
5622432 | Zicker | Apr 1997 | A |
5885673 | Light | Mar 1999 | A |
6279297 | Latronico | Aug 2001 | B1 |
6287658 | Cosentino | Sep 2001 | B1 |
6333061 | Vadhar | Dec 2001 | B1 |
6929400 | Razeti | Aug 2005 | B2 |
7329240 | Mesa | Feb 2008 | B2 |
7740923 | Exner | Jun 2010 | B2 |
20060200098 | Von Falkenhausen | Sep 2006 | A1 |
20080112654 | Matsunaga | May 2008 | A1 |
20080203141 | Friebe | Aug 2008 | A1 |
20080223007 | Friebe et al. | Sep 2008 | A1 |
Number | Date | Country |
---|---|---|
0959021 | Nov 1999 | EP |
64-053075 | Mar 1989 | JP |
06-025161 | Apr 1994 | JP |
07-101463 | Apr 1995 | JP |
10-181770 | Jul 1998 | JP |
3921236 | May 1999 | JP |
2011-235913 | Nov 2011 | JP |
9822282 | May 1998 | WO |
2006038700 | Apr 2006 | WO |
Entry |
---|
International Search Report dated Jul. 1, 2014 from corresponding International Patent Application No. PCT/JP2014/057769; 4 pgs. |
Number | Date | Country | |
---|---|---|---|
20160046426 A1 | Feb 2016 | US |