The preset invention relates to a zipper-tape bag, and a manufacturing method of the zipper-tape bag.
Zipper-tape bags have been widely used for packaging various goods such as medicines and foods. One of the advantages of the zipper-tape bags is that the zipper-tape bags are easily unsealable and resealable. The bag can be unsealed by a user's operation of pulling both sides of the bag, onto which the zipper tape is bonded, in a direction away from each other to disengage the zipper tape. In contrast, the user can engage the zipper tape to reseal the bag by pressing the both sides of the bag so that the sides move toward each other.
The both sides of the bag are typically pinched by fingers and pulled in a direction perpendicular to a longitudinal direction of the zipper tape in unsealing the zipper-tape bag. In this case, both hands of a user are required for the unsealing. In contrast, Patent Literature 1 discloses a bag capable of being unsealed by a user's operation of mutually oppositely sliding both sides of the bag along a longitudinal direction of the zipper tape. In this case, the user can disengage the zipper tape to unseal the bag by pinching and twisting the both sides of the bag by fingers (specifically, a thumb and an index finger) of one hand.
According to the disclosure of Patent Literature 1, only one of the sides of the bag is bent while the other of the sides is not bent at the part pinched by the user, so that a difference is created in the lengths of the zipper tape bonded to the both sides of the bag, resulting in disengagement of the zipper tape. However, such an unsealing operation is possible only in a zipper tape having low rigidity and low engagement strength. Some of the zipper tapes are made of a material with high rigidity to enhance the engagement strength in order to resist an internal pressure of the bag and/or prevent unintended unsealing by an external force. Such zipper tapes are not easily bent and, consequently, the disclosure of Patent Literature 1 cannot be easily applied.
In view of the above, an object of the invention is to provide a new and improved zipper-tape bag that is configured to be easily unsealed by a slide motion of both sides of the bag in a longitudinal direction of the zipper tape, and a manufacturing method of the zipper-tape bag.
A zipper-tape bag according to an aspect of the invention includes: a bag body including at least a pair of facing surfaces; and an elongated zipper tape whose cross sectional profile includes: first and second bases each bonded to corresponding one of the pair of facing surfaces; and mutually engageable first and second engagement portions respectively protruded from the first and second bases, in which at least one intermediate hinge is provided on at least one point of the zipper tape in a longitudinal direction.
According to the above aspect of the invention, even when the zipper tape is made of a highly rigid material and/or has a high engagement strength, the intermediate hinge facilitates the engagement portion of the zipper tape to be bent and disengaged. Accordingly, the bag can be easily unsealed by oppositely sliding the facing surfaces of the bag body along the longitudinal direction of the zipper tape.
In the above zipper-tape bag, the intermediate hinge optionally includes a thin portion or a cut provided to each of the first and second engagement portions.
The engagement portion, which has an irregular cross sectional profile in the zipper tape, can define the intermediate hinge by forming, for instance, the thin portion or the cut in the engagement portion.
In the above zipper-tape bag, the intermediate hinge optionally includes a punched hole penetrating through the first and second engagement portions and the first and second bases.
As described above, the intermediate hinge is not necessarily provided only in the engagement portion of the zipper tape but may also be formed in the base.
In the above zipper-tape bag, the at least one intermediate hinge optionally includes intermediate hinges provided on at least two points on the zipper tape in the longitudinal direction.
In this case, the at least one intermediate hinge is optionally provided on two points on the zipper tape equidistant from a midpoint of the zipper tape in the longitudinal direction.
According to the above arrangements, openings, which are created near the intermediate hinges when the engagement portion is bent, can be maximized, facilitating the unsealing of the zipper-tape bag.
In the above zipper-tape bag, an antislip structure is optionally provided on at least one of the pair of facing surfaces between the at least two points provided with the intermediate hinge. In the above zipper-tape bag, the antislip structure is optionally provided on at least one of the pair of facing surfaces between the at least one point provided with the intermediate hinge and corresponding one of ends of the zipper tape in the longitudinal direction.
According to the above arrangements, a friction coefficient between the surface of the bag body and a finger of a user can be increased, so that the unsealing operation using the finger of the user can be facilitated.
In the above zipper-tape bag, an engagement strength when the first and second engagement portions are mutually engaged is optionally 26 N/50 mm or more.
According to the above arrangement, the bag is not easily unsealed by a simple operation of separating both sides of the bag in a thickness direction of the zipper tape. Thus, while an unintended unsealing by, for instance, an external force is prevented, the bag can be easily unsealed when both sides of the bag are slid in the longitudinal direction of the zipper tape.
In the above zipper-tape bag, the zipper tape optionally defines a side of a housing space defined between the pair of facing surfaces, the first base is optionally bonded to one of the pair of facing surfaces both at a region near the housing space and a region opposite the housing space with respect to the first engagement portion, and the second base is optionally bonded to the other of the pair of facing surfaces at a region near the housing space with respect to the second engagement portion, and is optionally not bonded to the pair of facing surfaces at a region of the other of the pair of facing surfaces opposite the housing space with respect to the second engagement portion. In this case, a width of the region of the second base opposite the housing space with respect to the second engagement portion is optionally smaller than a width of the region of the first base opposite the housing space with respect to the second .engagement portion. Further, the width of the region of the second base opposite the housing space with respect to the second engagement portion is optionally 0.
According to the above arrangement, the bag is not easily unsealed by the simple operation of separating both sides of the bag in the thickness direction of the zipper tape irrespective of the engagement strength of the zipper tape. Thus, while an unintended unsealing by, for instance, an external force is prevented, the bag can be easily unsealed when both sides of the bag are slid in the longitudinal direction of the zipper tape.
A manufacturing method of a zipper-tape bag according to a second aspect of the invention includes: feeding an elongated zipper tape whose cross sectional profile includes: first and second bases; and mutually engageable first and second engagement portions respectively protruded from the first and second bases; bonding the first and second bases respectively on a pair of mutually facing films; and bonding the films with each other to form a bag body, in which the method further includes forming an intermediate hinge at least one point of the zipper tape in a longitudinal direction.
According to the above aspect of the invention, even when the zipper tape is made of a highly rigid material, the engagement portion of the zipper tape can be easily bent by the presence of the intermediate hinge. Accordingly, the bag can be easily unsealed by oppositely sliding the facing surfaces of the bag body along the longitudinal direction of the zipper tape.
In the above manufacturing method, the forming of the intermediate hinge is optionally performed between the feeding of the zipper tape and the bonding of the first and second bases onto the respective films.
According to the above arrangement, the intermediate hinge can be formed in the zipper tape without affecting the film of the bag body.
In the above manufacturing method, the forming of the intermediate hinge is optionally performed after the bonding of the first and second bases onto the respective films.
In this case, while the intermediate hinge is formed in the film of the bag body, a positioning accuracy of the intermediate hinge with respect to an end of the zipper tape can be improved.
As described above, according to the above aspects of the invention, the bag can be easily unsealed by sliding both sides of the bag along the longitudinal direction of the zipper tape.
Suitable exemplary embodiment(s) of the invention will be described in detail below with reference to attached drawings. It should be noted that the same reference numerals will be attached to components having substantially the same structures and functions to omit duplicated explanations therefor in the specification and drawings.
As shown in
The film 110 is a single-layered or multi-layered film made of, for instance, a thermoplastic resin. More specifically, the film 110 may be made of an LDPE (Low-Density-PolyEthylene), LLDPE (Linear Low-Density PolyEthylene), or PP (PolyPropylene). PP may be HPP (Homo PolyPropylene), RPP (Random PolyPropylene), or BPP (Block PolyPropylene). When the film 110 is a multi-layered film, a top base material of the multi-layered film may be OPP (biaxially Oriented PolyPropylene), OPET (biaxially Oriented PolyEthylene Terephthalate), or ONy (biaxially Oriented Nylon). The film 110 may further include a layer of an inorganic material formed by vapor-depositing aluminum or layering an aluminum foil.
It should be noted that the facing surfaces 111A, 111B of the bag body, which are provided by mutually bonding two films 110 at a bottom seal portion 112 and side seal portions 113 in the first exemplary embodiment, may be provided by bending a single film 110 at a part corresponding to the side seal portion 113 in some exemplary embodiments. Further, a so-called gusset (i.e. an interfolded part of the film 110) may be formed at a part corresponding to the bottom seal portion 112 and/or side seal portions 113 in the example shown in
An opening 114 of the bag body in the first exemplary embodiment is formed by forming a seal portion at the bottom seal portion 112 and the side seal portions 113 and omitting the seal portion at a side of the bag body opposite the housing space SP with respect to the zipper tape 120. However, a top seal portion is provided in addition to the bottom seal portion and the side seal portions at the side of the bag body opposite the housing space SP with respect to the zipper tape in some other exemplary embodiments, the bag body being configured to be cut at a part between the top seal portion and the zipper tape to allow later formation of the opening in the bag body. In still other exemplary embodiments, the zipper-tape bag is optionally provided without forming the bottom seal portion located opposite with respect to the zipper tape. In this case, the bottom seal portion is provided after putting contents in the bag. The invention is applicable to zipper-tape bags of various known configurations in addition to the above.
The zipper tape 120 is made, for instance, through extrusion of a polyolefin resin. More specifically, the zipper tape 120 may be made of an LDPE (Low-Density-PolyEthylene), LLDPE (Linear Low-Density PolyEthylene), or PP (PolyPropylene). PP may be HPP (Homo PolyPropylene), RPP (Random PolyPropylene), or BPP (Block PolyPropylene). Known additives such as a stabilizer, antioxidant, lubricant, antistatic agent, and coloring agent may be added to the material of the zipper tape 120 as necessary.
It should be noted that an engagement portion 122A (first engagement portion) and an engagement portion 122B (second engagement portion) of the zipper tape 120, which are respectively a female engagement portion and a male engagement portion in the illustrated example, may alternatively be a male engagement portion and a female engagement portion, respectively. The cross sectional profiles of the engagement portions are not limited to those in the illustrated example but may have various known shapes. The engagement portions are not limited to the combination of the male and female members, but may be engagement portions having mutually facing hook-shaped cross sectional profiles. Further, though the illustrated zipper tape 120 includes the mutually engageable first and second engagement portions (engagement portions 122A, 122B), additional engagement portions (e.g. mutually engageable third and fourth engagement portions respectively protruded from the bases 121A, 121B) may be provided.
In the first exemplary embodiment, the engagement portions 122A, 122B having the irregular cross sectional profile in the zipper tape 120 are thinned, so that the thin portions 131A, 131B function as intermediate hinges of the zipper tape 120. Herein, the intermediate hinge refers to a point, at which a deflection angle of the zipper tape 120 becomes discontinuous because a bending moment is not transmitted or relatively weakened in a longitudinal direction of the zipper tape 120. Accordingly, the zipper tape 120 can be easily bent at the intermediate hinges. In the first exemplary embodiment, as shown in
With the above-described thin portions 131A, 131B, when the facing surfaces 111A, 111B of the film 110 are oppositely slid at or near the center of the thin portions 131A, 131B along the longitudinal direction of the zipper tape 120 as shown in
In order to facilitate the above-described unsealing operation using a finger of a user, an antislip structure 140 may be provided to the side of the facing surface 111A, 111B opposite the side bonded with the bases 121A, 121B, respectively, of the zipper tape 120 as shown in
According to the above-described first exemplary embodiment of the invention, the thin portions 131A, 131B, which are provided on the zipper tape 120 to serve as the intermediate hinges, facilitate the bending of at least one of the engagement portions 122A, 122B of the zipper tape 120 even when the zipper tape 120 is made of, for instance, a highly rigid material. Accordingly, the bag in the first exemplary embodiment can be easily unsealed by oppositely sliding the facing surfaces 111A, 111B of the film 110 forming the bag body along the longitudinal direction of the zipper tape 120.
The above-described antislip structures 140A, 140B are applicable, for instance, when the zipper tape 120 has a high engagement strength and is not easily unsealed only by a simple operation of separating the facing surfaces 111A, 111B in a thickness direction of the zipper tape 120. For instance, in order to prevent unintended unsealing by an external force for the purpose of childproofing or the like, the engagement strength when the engagement portions 122A, 122B of the zipper tape 120 are mutually engaged may be set at a level not easily unsealed by the above-described simple operation (specifically, 26 N/50 mm or more, preferably 30 N/50 mm or more, more preferably 40 N/50 mm or more) and the bag can be unsealed by oppositely sliding the facing surfaces 111A, 111B along the longitudinal direction of the zipper tape 120. The maximum value of the engagement strength is, for instance, approximately 200 N/50 mm. It should be noted that the antislip structures 140A, 140B, which are also provided solely for assisting the unsealing operation, may be provided, for instance, on only one of the facing surfaces 111A, 111B or may be not provided. The engagement strength herein can be measured as follows using, for instance, a digital force gauge (manufactured by IMADA CO., LTD.). Initially, the zipper tape is cut in the longitudinal direction in a length of 50 mm. Then, the male base 121B and the female base 121A of the zipper tape are each held at a part 2 mm apart from the engagement portion. Subsequently, while the female base 121A is fixed, the male base 121B is raised until the engagement portions 122A, 122B are disengaged. The strength of the force applied when the engagement portions 122A, 122B are disengaged is measured and the measurements at the maximum load is defined as the engagement strength. When the length in the longitudinal direction is less than 50 mm, denoting the length as X mm, measurements N/X mm can be converted to N/50 mm by multiplying the measurements by 50/X.
In the second exemplary embodiment, the cuts 132A, 132B, which reach the engagement portions 122A, 122B having irregular cross sectional profiles in the zipper tape 120, function as the intermediate hinges of the zipper tape 120. As already described in the first exemplary embodiment, the zipper tape 120 can be easily bent at the intermediate hinges. In the same manner as the intermediate hinges of the first exemplary embodiment, the cuts 132A, 132B are provided at two points spaced in the longitudinal direction of the zipper tape 120, the two points being optionally equidistant with respect to the midpoint C of the zipper tape 120 in the longitudinal direction. Further, the points provided with the cuts 132A, 132B may each bisect a section between the midpoint C and corresponding one of the ends of the zipper tape 120.
According to the above-described second exemplary embodiment of the invention, in the same manner as the first exemplary embodiment, the cuts 132A, 132B, which are provided on the zipper tape 120 to serve as the intermediate hinges, facilitate the bending of at least one of the engagement portions 122A, 122B of the zipper tape 120 even when the zipper tape 120 is made of, for instance, a highly rigid material. Accordingly, the bag in the second exemplary embodiment can also be easily unsealed by oppositely sliding the facing surfaces 111A, 111B of the film 110 defining the bag body along the longitudinal direction of the zipper tape 120.
In the third exemplary embodiment, the punched holes 133A, 133B, which penetrate through the engagement portions 122A, 122B having irregular cross sectional profiles in the zipper tape 120, function as the intermediate hinges of the zipper tape 120. As already described in the first exemplary embodiment, the zipper tape 120 can be easily bent at the intermediate hinges. In the same manner as the intermediate hinges of the first exemplary embodiment, the punched holes 133A, 133B are provided at two points spaced in the longitudinal direction of the zipper tape 120, the two points being optionally equidistant with respect to the midpoint C of the zipper tape 120 in the longitudinal direction. Further, the points provided with the punched holes 133A, 133B may each bisect a section between the midpoint C and corresponding one of the ends of the zipper tape 120.
According to the above-described third exemplary embodiment of the invention, in the same manner as the first exemplary embodiment, the punched holes 133A, 133B, which are provided on the zipper tape 120 to serve as the intermediate hinges, facilitate the bending of at least one of the engagement portions 122A, 122B of the zipper tape 120 even when the zipper tape 120 is made of, for instance, a highly rigid material. Accordingly, the bag in the third exemplary embodiment can also be easily unsealed by oppositely sliding the facing surfaces 111A, 111B of the film 110 forming the bag body along the longitudinal direction of the zipper tape 120.
In the fourth exemplary embodiment, when a user, for instance, pinches a part near the antislip structure 140 and oppositely slides the facing surfaces 111A, 111B of the film 110 in the longitudinal direction of the zipper tape 120, the engagement portion 122A near the thin portion 131 is bent away from the engagement portion 122B to be disengaged (see
As described in the above fourth exemplary embodiment, the number of the intermediate hinge provided to the zipper tape is not necessarily two in the exemplary embodiment of the invention. One intermediate hinge or more than two intermediate hinges may be provided.
As illustrated, in the fifth exemplary embodiment, while the base 121A (first base) of the zipper tape 120 is bonded to the facing surface 111A at a region near the housing space SP and a region near the opening 114 (i.e. opposite the housing space SP) with respect to the engagement portion 122A (first engagement portion), the base 121B (second base), which is bonded to the facing surface 111B at a region near the housing space SP with respect to the engagement portion 122B (second engagement portion), is not bonded to the facing surface 111B at a region near the opening 114 with respect to the engagement portion 122B.
Thus, in the fifth exemplary embodiment, when the bag is to be unsealed through a simple operation of pinching the parts of the facing surfaces 111A, 111B near the opening 114 and separating the parts away from each other in the thickness direction of the zipper tape 120, the force is not applied on the part of the base 121B near the opening 114 that is not bonded to the facing surface 111B, as shown in
The above arrangement for preventing easy unsealing of the zipper-tape bag 100 with the above simple operation is employed for the purpose of preventing unintended unsealing by an external force (e.g. childproofing). In order to intentionally unseal the zipper-tape bag 100, as described above with reference to
It should be noted that the fifth exemplary embodiment can be modified as desired with reference to conventional arts such as JP 2015-116269 A, JP 2015-217980 A, US Patent Application Publication No. 2014/0161374 and the like, which disclose the use of the arrangements of the zipper tape 120 as described above with reference to
In the above conventional arts, since it is not easy to pinch the parts of the facing surfaces 111A, 111B near the opening 114 for unsealing, an additional unsealing arrangement for intended unsealing is used, where, for instance, the film 110 is cut at a part near the housing space SP with respect to the zipper tape 120, or the part of the base 121B near the opening 114, if present, is pinched. In contrast, with the aid of the intermediate hinge (e.g. the thin portion in the first exemplary embodiment) provided on the zipper tape 120, the zipper-tape bag 100 in the fifth exemplary embodiment can be unsealed by the oppositely sliding operation of the facing surfaces 111A, 111B along the longitudinal direction of the zipper tape 120. Accordingly, in the fifth exemplary embodiment, the zipper-tape bag 100 can be re-sealed using the zipper tape 120 even after the zipper-tape bag 100 is intentionally unsealed. Further, it is not necessary that the part of the base 121B near the opening 114 is pinchable.
Manufacturing Method of Zipper-Tape Bag
The bottom seal portion 112 is formed on the film 110 bonded with the zipper tape 120 at a part between the facing surfaces 111A, 111B using a seal bar 606. Similarly, the side seal portions 113 are provided using seal bars 607. The zipper-tape bag 100 according to the above-described first exemplary embodiment is manufactured after being cut by a cutting blade 608 for cutting the film 110 in the longitudinal direction, and a cutting blade 609 for cutting the film 110 in the width direction. The same process applies to the zipper-tape bags according to the second to fifth exemplary embodiments.
It should be noted that a device for providing the intermediate hinges (e.g. the thin portions 131A, 131B, the cuts 132A, 132B, or the punched holes 133A, 133B) to the zipper tape 120 is not shown in
In the above example, the protrusion 611 is used to form the thin portions 131A, 131B. In contrast, a cutting blade may be provided in place of the protrusion 611 to form the cuts 132A, 132B of the zipper-tape bag 200 according to the second exemplary embodiment. Further, with a punching unit provided in place of the protrusion 611 and a die hole of a shape corresponding to the punching unit provided at a position facing the punching unit, the punched holes 133A, 133B of the zipper-tape bag 300 according to the third exemplary embodiment can be formed. It should be noted that, though the thin portion 131A is formed by pressing from the side of the facing surface 111A and the thin portion 131B is formed by pressing from the side of the facing surface 111B in the illustrated example, both of the thin portions 131A, 131B may be formed by pressing from only one of or both of the sides of the facing surface 111A and the facing surface 111B.
Further, though the intermediate hinge(s) is formed in the zipper tape 120 at the section indicated by the arrow P4 shown in
It should be noted that the zipper-tape bag, which is manufactured by the three-side-seal bag-making machine in the above examples, is not necessarily manufactured by the three-side-seal bag-making machine. For instance, a zipper-tape bag having the zipper tape provided with the intermediate hinge can be manufactured by various other bag-making machines, where the device described with reference to
Suitable exemplary embodiments of the invention have been described above in detail with reference to the attached drawings. However, the scope of the invention is not limited to the exemplary embodiments. It would be obvious for those skilled in the art pertinent to the invention to conceive various modifications or variations within the technical ideas mentioned in claim(s) and these modifications and variations are naturally understood to be within the technical scope of the invention.
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Number | Date | Country | |
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20230087343 A1 | Mar 2023 | US |
Number | Date | Country | |
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Parent | 16770796 | US | |
Child | 17993032 | US |