CA2515934A1 - Transversely sealed container - Google Patents
Transversely sealed container Download PDFInfo
- Publication number
- CA2515934A1 CA2515934A1 CA002515934A CA2515934A CA2515934A1 CA 2515934 A1 CA2515934 A1 CA 2515934A1 CA 002515934 A CA002515934 A CA 002515934A CA 2515934 A CA2515934 A CA 2515934A CA 2515934 A1 CA2515934 A1 CA 2515934A1
- Authority
- CA
- Canada
- Prior art keywords
- bag
- inboard
- channel
- heat seal
- vent
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D31/00—Bags or like containers made of paper and having structural provision for thickness of contents
- B65D31/04—Bags or like containers made of paper and having structural provision for thickness of contents with multiple walls
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D31/00—Bags or like containers made of paper and having structural provision for thickness of contents
- B65D31/08—Bags or like containers made of paper and having structural provision for thickness of contents with block bottoms
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D33/00—Details of, or accessories for, sacks or bags
- B65D33/01—Ventilation or drainage of bags
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Bag Frames (AREA)
Abstract
The disclosure is directed to a polyethylene or similar flexible package having a maze vent to allow the escape of air from the interior of the package filled with powdered or granular material. The maze vent comprises an interior vented seal gap, a maze vent channel, and a channel vent. The maze vent allows air to escape during the filling process while maintaining the powdered or granular material within the bag and preventing ingress of air, moisture and other contaminants. The disclosure is directed to a such a package by itself or as a liner to a multiple paper ply satchel bottom bag, the poly liner being free within the innermost ply except for attachment at the mouth of the bag. Further, the satchel bottom bag of the present disclosure may contain a reinforcing patch on the satchel bottom.
Additionally, the reinforcing patch may have an opener for easy opening of the bag.
Additionally, the reinforcing patch may have an opener for easy opening of the bag.
Description
IN TIEIE UNT)CED STATES PATi~NT AND T)ItADFMaRx OFFIC)C
TRANSVERSELY SEALED CON~".AINER
CROSS REFERENCE TO RELATED APPLICATIONS
[U001] This application claims priority tinder 35 U.S.C. ~ 119(e) from U.S_ provisional Patent Application No. 60/641,944, filed on Au4ust 16, 2004.
~AC~OROUND OF THE DISCLOSURE
[oDDZ] The present disclosure generally relates to an improved plastic bag for use by itself or for use as a liner in conjunctiva with a bag having multiple paper ply construction.
[DDD3] More specifically, the disclosure is directed to a seamless tubular plastic liner for a multilayer satchel bottom type bag. Such bags are la~own izx the art, an example being disclosed in U.S. Patent Nv_ x,553,943 which is herein incorporated by reference. Satchel bottom bags are formed by folding a plurality of layers of kraft paper into a tube. The layers are arranged in stepped configurativz~ foz~ adhesive banding. A plastic liner or pouch is inserted into the tube and secured by adhesive to the top, or the mouth end of the tube.
[OUOA~] plastic lined multilayer paper bags are used to package bulk granular or powdered products such as flour, cam meal, sugar, powdered milk, and similar commodities as well as ather powdered or granular materials. The plastic liner may be either an additional plastic ply bonded to the inner most paper ply, or a free-floating plastic bag-within-a-bag as described herein.
[D005] Plastic bags made of polyethylene or other polymeric materials are common packaging containers for a variczy of products and commodities. Such bags may be used either by themselves or as liners for paper bags_ The manufacturer of the bags seals one end ofthe bag (called the "manufacturer ez~d" or "plant ez~d") which fozrz~s the bottom seal page 1 of the bag when the bag is in use. The otlxer exxd (called the "customer end") is left open for the purchaser of the bag to fi11 with its product and close and seal. The customer end forms the top end of the bag through which material is introduced into the interior of the hag.
[0406] When a polyethylene bag is filled with powdered or granular material and sealed, air or other gases may become trapped in the bag. Tllis can create air pockets in tlae bag, which if not allowed to escape, can result in problems wJ~ez~ tl~e bags are stacked for shipment, hor example, trapped air prevents the ban from conforming to the powdzred or granular contents creating air pockets. As bags are placed on top of each other, such as for shipment on pallets, the air bubbles make the stack of bags unstable and prone to tipping, thus lixnxting the number of bags that can be stacked for shipping. Also, as additional bags are placed on top of the hag containing the trapped air, the air pockets are compressed due to the additional weight, increasing the pressure inside the bag. If enough weight is placed on the bag with the trapped air, the increased air pressure may rupture the bag, resul tang in spillage ofthe contents. Therefore vezrting the air from the bag facilitates stacking of bags for shipment and reduces the risk of bag rupture.
[000T] Alternatively, venting of the plastic bag may not be desirable iu1 all situations, particularly when the contents are toxic or hazardous, such as various types of chemicals.
In this situation, reinforcement of the seals is required to zrniunizxxize the possibility of rupture during transportation and handling.
[0008] More particularly, the present disclosure relates to a seamless polyethylene, or similar polymer xnateri al bag, that has a maze vent allowiirg air to escape after the bag has been sealed while inhibitizig the ingress of air, moisture and other contaminants. Such vents are lanown in the art and typically consisF of one or more heat seals having a gap. The heat seals bond the fi-ont and rear walls ofthe bag together. For example, U.S. Patent No.
6,491,433 teaches three heat seals, each with a gap being offset from the gap in the adjacent seal or seals.
[0009] One method of manufacturing a vented seal bag is typically accomplished by folding a sheet of polyethylene oz similar material into a tube. When the sheet is folded, overlapping edges form a longitudinal seam in what is typically the back of the bag. The overlapping edges are then sealed with a plurality of interrupted heat seals.
The interruptions in the heat seals are offset from the interruption in adjacent heat seal or seals, forming a tortuous path :&orn the interior of the bag to the exterioz, allowing trapped air to be expelled. See U.S. Patent No. 6,170,9$5_ [D010] These longitudinal seams are prone to failure, causing leakage and contamination of the material contained within the bag.
[0411 ] The present state of the art uses a flat film that is folded to create bags with seams along the longitudinal axis of the bag that incorporate a vent. These seams are prone to failure, resulting in spilled product and associated wasted expense.
SUMMAIIfY OF TAE DISCLOSURE
[00'12] This disclosure may be described as a novel and improved plastip litter and multilayer paper satchel bottom bag incorporatiztg such a liner. The plastic (or "poly") Inner may be used by itself as an independeaat package, or may be incorporated as part of a bag-withixt-a-bag. The poly liner is placed ~nvithin a multilayer paper satchel bottom bag for added strength and protection.
[0013] The poly liner is formed from a seamless tube of polyethylene or similar polymer material folded flat forming a front panel and a rear panel. A plurality of heat seals are made across the bottom of the plastic tube transverse to the dizection of the bag. In one embodiment, a first solid heat seal and a second interrupted heat seal are created across the bottom or satchel end of the bag, sealing tb.e bottom of the liner and forming a vent channel between the heat seals. The interruption in the second lxeat seal fozxns the vented seal gap.
The vented seal gap is in communication with the interior space of fhe bag.
Next, one or both of the front and rear panels of the liner are perforated within the ve><at Channel between the heat seals with a plurality ofperforation holes forming the c~t~rior vent-(0014 When the bab has been filled and sealed, an increase in pressure w-ithin the baj w~ili cause the front and rear parcels of the vent channel to separate allowing air to pass through the vented seal gap, through the vent channel, and to be exhausted through the exterior vent.
When pz~essure has been reduced through venting, the front and rear panels of the vent cliannel collapse against each other, closing off the passage to the exterior of the bag and thus sealing the bag against entzy of moisture or other contaminants from the outside-[0015~ In alternative ernbodirzaents,. maze blocks may be formed within the maze vent channel, substantially perpendicular to and in communication with one or more of the transverse heat seals. The maze blocks function to form a tortuous patb~
tbzough the vent channel trapping powdered or granular product that may enttez ttte vent channel. Product is retained in the vent channel preventing clogging of the exterior vent and/or leakage of pmduct.
(aalsl A machine known in the art, a W&H Rocaliner, is rnvdihed to manufacture bags having the maze vent described herein. The typical Rotaliner has a drum with a sealing bar havizag a sealing surface. The sealing bar is modified by maclvning a gap in the sealing surface corresponding to the second heat seal to create an interruption in the second heat seal forzxxing the vented seal gap. If a bag is to be manufactured having amaze blocks, weld beads are created on the Rotaliner sealing bar in communication with and substaaitially perpendicular to either the first or second heat seal and machined.
page 4 [0017] Uxxder certaixr cixciunstances, venting of the plastic liner may not be desirable. It is, therefore, necessary to reinforce the bottazcz Ixeat seal to prevent rupture.
Multiple solid heat seals are provided at the bottorxz o:f the liner, instead of oz~e interrupted heat seal and one solzd heat seal.
[009 $] In one embodiment of this disclosure, it is envisioned that a plastic liner of the t5,~pe described herein zs used is conjunction with a satchel battorn bob constructed of a p tuz~alzt~f of papEr layers or plies, such as kra$ paper or high performance paper as is generally known in the art. A plurality of paper plies are folded into a tube wherein a plastic liner is inserted into the tube and secured by adhesive to the innerztxost ply near the top ar mouth end.
[0019] The plastic liner is heat sealed at its bottom, or satchel end, before insertion i nta the paper tube. The plastic liner is else temporarily secured by adhesive to the inner paper ply of the back wall of the bag. 'this is to secure the liner during the satchel folding process.
The paper plies are folded to form a flat satchel bottom. After bulk product is introduced into the bag, the mouth of the plastic liner may be heat sealed closed. The paper plies at the mouth end have a stepped configuration for adhesive bonding. The paper plies are ;Folded over and secured by adhesive, tlxus enclosing the plastic liner aztd its contents.
[0020] The satchel end of the plastic liner is folded within but not adhesively secured to the folds of the plies of the satchel end. The liner is thus secured and held flat during transport ofthe bag. As the bag is unfolded for filling, the plastic liner is released from the folds of the satchel end and is a free-floating bag-within-a-bag secured only at the top to the innermost paper ply.
(0021 ~ Zn another ezn,bodiz~nent of the present disclosure, a patch is provided on the outside of the folded satchel bottom_ The patch may be made of kraft paper or other suitable material and may be of one or more layers and is adhesively affixed to the outside of the satchel bottom. The patch provides additional reinforcement to tl~e satchel bottom.
[D022~ In yet another embodiment, it may be desirable to provide an easy opening bottom to the ban of the present disclosure. lzr this embodiment, na adhesive is applied to the daps of the satchel bottom. A patch is adhesively applied to the outside of the satchel bottom.
An opener step is pro~~ided between the patci~ cud the daps of the satchel bor ~orz. Thw opener strip terminates at a cuff area at one side ofthc patch. A pair of slits are provided in the patch on either side of the opener strip to farm the cuff The opener st3rip xnay be fozzned of plastic, string, or other strong flexible rnaterial_ A user grips the cuff pulling away from the satchel bottom. As the user pulls the cuff, the opener strip tears the patch exposing the satchel flaps which are easily opened because there is no adhesive securing them in place.
~atfEF DESCRIPTION OF THE DRAWINGS
[DD23] FIG. 1 is a view of a poly bag having a maze vent of the present disclosure;
[0024] FIG. 2 is a view of a poly bag having another embodiment of a maze vent of the present disclosuze wrath maze blocks perpendicular to the heat seals;
[0025] FIG. 3 is a view of a poly bag of the present disclosure having a double bottom seal;
[0026] FIG. 4a is an alternate cota~guration for the maze vent of the present disclosure;
[ODZ7] FIG. 4b is another alternate configuration for the maze vent of the present disclosure;
[8D28~ FIG. A.c is another alternate configuration for the maze vent of the present disclosure;
[oa~s7 FIG. A.d is another alternate coni~iguration Far the maze vent of the present disclosure;
[003D] FIG. 4e is another alternate configuration for the maze vent of the present disclosure;
[043'x] FIG. 4~ is another alternate configuration far the maze vent of the present disclosure;
[Od32] FIG. 4g is another alternate configuration for the maze vent of the present disclosure, [0033] FIG. 4h is another alternate cozrfiguration for the maze vent of the present disclosure;
[0034] FIG. 4i is another alternate configuration for the maze vent of the present disclosure;
[0035] FIG. 4j is another alternate configuration for the maze vent of the present disclosure;
[036] FIG_ 4k is axtother alternate configuratiort for the maze vent of the present disclosure;
[0037] FIG. 5 is a perspective view of the multi-ply plastic lined bag with satchel bottom, partially broken away, and having a pinch closure-type open top ready to be filled by a user with a commodity or the like;
[0038] FIG. 6 is a front elevation view of a znulti-layer bag blank showing a main fold line and slits for forniing a satchel bottom;
[0039] FIG. 7 is a front elevation view of a tube blank with the multiple paper plies ut one side of the being folded upwardly around the main score line to thereby define upper and lower paper Flaps and four diagonal bend Iines in the paper ply flaps, both above and below the main scare line, and foldably holding at the upper flap the plastic liner;
[0040] FIG. 8 is a detailed view of the folds of the satchel bottom;
page 7 [004.11 p')'G. 9 is a detailed view of the folds of the satchel bottom of a bag having an easy oparing feature;
TRANSVERSELY SEALED CON~".AINER
CROSS REFERENCE TO RELATED APPLICATIONS
[U001] This application claims priority tinder 35 U.S.C. ~ 119(e) from U.S_ provisional Patent Application No. 60/641,944, filed on Au4ust 16, 2004.
~AC~OROUND OF THE DISCLOSURE
[oDDZ] The present disclosure generally relates to an improved plastic bag for use by itself or for use as a liner in conjunctiva with a bag having multiple paper ply construction.
[DDD3] More specifically, the disclosure is directed to a seamless tubular plastic liner for a multilayer satchel bottom type bag. Such bags are la~own izx the art, an example being disclosed in U.S. Patent Nv_ x,553,943 which is herein incorporated by reference. Satchel bottom bags are formed by folding a plurality of layers of kraft paper into a tube. The layers are arranged in stepped configurativz~ foz~ adhesive banding. A plastic liner or pouch is inserted into the tube and secured by adhesive to the top, or the mouth end of the tube.
[OUOA~] plastic lined multilayer paper bags are used to package bulk granular or powdered products such as flour, cam meal, sugar, powdered milk, and similar commodities as well as ather powdered or granular materials. The plastic liner may be either an additional plastic ply bonded to the inner most paper ply, or a free-floating plastic bag-within-a-bag as described herein.
[D005] Plastic bags made of polyethylene or other polymeric materials are common packaging containers for a variczy of products and commodities. Such bags may be used either by themselves or as liners for paper bags_ The manufacturer of the bags seals one end ofthe bag (called the "manufacturer ez~d" or "plant ez~d") which fozrz~s the bottom seal page 1 of the bag when the bag is in use. The otlxer exxd (called the "customer end") is left open for the purchaser of the bag to fi11 with its product and close and seal. The customer end forms the top end of the bag through which material is introduced into the interior of the hag.
[0406] When a polyethylene bag is filled with powdered or granular material and sealed, air or other gases may become trapped in the bag. Tllis can create air pockets in tlae bag, which if not allowed to escape, can result in problems wJ~ez~ tl~e bags are stacked for shipment, hor example, trapped air prevents the ban from conforming to the powdzred or granular contents creating air pockets. As bags are placed on top of each other, such as for shipment on pallets, the air bubbles make the stack of bags unstable and prone to tipping, thus lixnxting the number of bags that can be stacked for shipping. Also, as additional bags are placed on top of the hag containing the trapped air, the air pockets are compressed due to the additional weight, increasing the pressure inside the bag. If enough weight is placed on the bag with the trapped air, the increased air pressure may rupture the bag, resul tang in spillage ofthe contents. Therefore vezrting the air from the bag facilitates stacking of bags for shipment and reduces the risk of bag rupture.
[000T] Alternatively, venting of the plastic bag may not be desirable iu1 all situations, particularly when the contents are toxic or hazardous, such as various types of chemicals.
In this situation, reinforcement of the seals is required to zrniunizxxize the possibility of rupture during transportation and handling.
[0008] More particularly, the present disclosure relates to a seamless polyethylene, or similar polymer xnateri al bag, that has a maze vent allowiirg air to escape after the bag has been sealed while inhibitizig the ingress of air, moisture and other contaminants. Such vents are lanown in the art and typically consisF of one or more heat seals having a gap. The heat seals bond the fi-ont and rear walls ofthe bag together. For example, U.S. Patent No.
6,491,433 teaches three heat seals, each with a gap being offset from the gap in the adjacent seal or seals.
[0009] One method of manufacturing a vented seal bag is typically accomplished by folding a sheet of polyethylene oz similar material into a tube. When the sheet is folded, overlapping edges form a longitudinal seam in what is typically the back of the bag. The overlapping edges are then sealed with a plurality of interrupted heat seals.
The interruptions in the heat seals are offset from the interruption in adjacent heat seal or seals, forming a tortuous path :&orn the interior of the bag to the exterioz, allowing trapped air to be expelled. See U.S. Patent No. 6,170,9$5_ [D010] These longitudinal seams are prone to failure, causing leakage and contamination of the material contained within the bag.
[0411 ] The present state of the art uses a flat film that is folded to create bags with seams along the longitudinal axis of the bag that incorporate a vent. These seams are prone to failure, resulting in spilled product and associated wasted expense.
SUMMAIIfY OF TAE DISCLOSURE
[00'12] This disclosure may be described as a novel and improved plastip litter and multilayer paper satchel bottom bag incorporatiztg such a liner. The plastic (or "poly") Inner may be used by itself as an independeaat package, or may be incorporated as part of a bag-withixt-a-bag. The poly liner is placed ~nvithin a multilayer paper satchel bottom bag for added strength and protection.
[0013] The poly liner is formed from a seamless tube of polyethylene or similar polymer material folded flat forming a front panel and a rear panel. A plurality of heat seals are made across the bottom of the plastic tube transverse to the dizection of the bag. In one embodiment, a first solid heat seal and a second interrupted heat seal are created across the bottom or satchel end of the bag, sealing tb.e bottom of the liner and forming a vent channel between the heat seals. The interruption in the second lxeat seal fozxns the vented seal gap.
The vented seal gap is in communication with the interior space of fhe bag.
Next, one or both of the front and rear panels of the liner are perforated within the ve><at Channel between the heat seals with a plurality ofperforation holes forming the c~t~rior vent-(0014 When the bab has been filled and sealed, an increase in pressure w-ithin the baj w~ili cause the front and rear parcels of the vent channel to separate allowing air to pass through the vented seal gap, through the vent channel, and to be exhausted through the exterior vent.
When pz~essure has been reduced through venting, the front and rear panels of the vent cliannel collapse against each other, closing off the passage to the exterior of the bag and thus sealing the bag against entzy of moisture or other contaminants from the outside-[0015~ In alternative ernbodirzaents,. maze blocks may be formed within the maze vent channel, substantially perpendicular to and in communication with one or more of the transverse heat seals. The maze blocks function to form a tortuous patb~
tbzough the vent channel trapping powdered or granular product that may enttez ttte vent channel. Product is retained in the vent channel preventing clogging of the exterior vent and/or leakage of pmduct.
(aalsl A machine known in the art, a W&H Rocaliner, is rnvdihed to manufacture bags having the maze vent described herein. The typical Rotaliner has a drum with a sealing bar havizag a sealing surface. The sealing bar is modified by maclvning a gap in the sealing surface corresponding to the second heat seal to create an interruption in the second heat seal forzxxing the vented seal gap. If a bag is to be manufactured having amaze blocks, weld beads are created on the Rotaliner sealing bar in communication with and substaaitially perpendicular to either the first or second heat seal and machined.
page 4 [0017] Uxxder certaixr cixciunstances, venting of the plastic liner may not be desirable. It is, therefore, necessary to reinforce the bottazcz Ixeat seal to prevent rupture.
Multiple solid heat seals are provided at the bottorxz o:f the liner, instead of oz~e interrupted heat seal and one solzd heat seal.
[009 $] In one embodiment of this disclosure, it is envisioned that a plastic liner of the t5,~pe described herein zs used is conjunction with a satchel battorn bob constructed of a p tuz~alzt~f of papEr layers or plies, such as kra$ paper or high performance paper as is generally known in the art. A plurality of paper plies are folded into a tube wherein a plastic liner is inserted into the tube and secured by adhesive to the innerztxost ply near the top ar mouth end.
[0019] The plastic liner is heat sealed at its bottom, or satchel end, before insertion i nta the paper tube. The plastic liner is else temporarily secured by adhesive to the inner paper ply of the back wall of the bag. 'this is to secure the liner during the satchel folding process.
The paper plies are folded to form a flat satchel bottom. After bulk product is introduced into the bag, the mouth of the plastic liner may be heat sealed closed. The paper plies at the mouth end have a stepped configuration for adhesive bonding. The paper plies are ;Folded over and secured by adhesive, tlxus enclosing the plastic liner aztd its contents.
[0020] The satchel end of the plastic liner is folded within but not adhesively secured to the folds of the plies of the satchel end. The liner is thus secured and held flat during transport ofthe bag. As the bag is unfolded for filling, the plastic liner is released from the folds of the satchel end and is a free-floating bag-within-a-bag secured only at the top to the innermost paper ply.
(0021 ~ Zn another ezn,bodiz~nent of the present disclosure, a patch is provided on the outside of the folded satchel bottom_ The patch may be made of kraft paper or other suitable material and may be of one or more layers and is adhesively affixed to the outside of the satchel bottom. The patch provides additional reinforcement to tl~e satchel bottom.
[D022~ In yet another embodiment, it may be desirable to provide an easy opening bottom to the ban of the present disclosure. lzr this embodiment, na adhesive is applied to the daps of the satchel bottom. A patch is adhesively applied to the outside of the satchel bottom.
An opener step is pro~~ided between the patci~ cud the daps of the satchel bor ~orz. Thw opener strip terminates at a cuff area at one side ofthc patch. A pair of slits are provided in the patch on either side of the opener strip to farm the cuff The opener st3rip xnay be fozzned of plastic, string, or other strong flexible rnaterial_ A user grips the cuff pulling away from the satchel bottom. As the user pulls the cuff, the opener strip tears the patch exposing the satchel flaps which are easily opened because there is no adhesive securing them in place.
~atfEF DESCRIPTION OF THE DRAWINGS
[DD23] FIG. 1 is a view of a poly bag having a maze vent of the present disclosure;
[0024] FIG. 2 is a view of a poly bag having another embodiment of a maze vent of the present disclosuze wrath maze blocks perpendicular to the heat seals;
[0025] FIG. 3 is a view of a poly bag of the present disclosure having a double bottom seal;
[0026] FIG. 4a is an alternate cota~guration for the maze vent of the present disclosure;
[ODZ7] FIG. 4b is another alternate configuration for the maze vent of the present disclosure;
[8D28~ FIG. A.c is another alternate configuration for the maze vent of the present disclosure;
[oa~s7 FIG. A.d is another alternate coni~iguration Far the maze vent of the present disclosure;
[003D] FIG. 4e is another alternate configuration for the maze vent of the present disclosure;
[043'x] FIG. 4~ is another alternate configuration far the maze vent of the present disclosure;
[Od32] FIG. 4g is another alternate configuration for the maze vent of the present disclosure, [0033] FIG. 4h is another alternate cozrfiguration for the maze vent of the present disclosure;
[0034] FIG. 4i is another alternate configuration for the maze vent of the present disclosure;
[0035] FIG. 4j is another alternate configuration for the maze vent of the present disclosure;
[036] FIG_ 4k is axtother alternate configuratiort for the maze vent of the present disclosure;
[0037] FIG. 5 is a perspective view of the multi-ply plastic lined bag with satchel bottom, partially broken away, and having a pinch closure-type open top ready to be filled by a user with a commodity or the like;
[0038] FIG. 6 is a front elevation view of a znulti-layer bag blank showing a main fold line and slits for forniing a satchel bottom;
[0039] FIG. 7 is a front elevation view of a tube blank with the multiple paper plies ut one side of the being folded upwardly around the main score line to thereby define upper and lower paper Flaps and four diagonal bend Iines in the paper ply flaps, both above and below the main scare line, and foldably holding at the upper flap the plastic liner;
[0040] FIG. 8 is a detailed view of the folds of the satchel bottom;
page 7 [004.11 p')'G. 9 is a detailed view of the folds of the satchel bottom of a bag having an easy oparing feature;
[002] FIG. 10 is a detailed view of the completed satchel bottom with reinforcing patch.
bETArf,Eb bESCI~TPT10N
[0043] ~Vhilo the prcs~nt disclosure will be described fully her~inafier with refercnc., to the aeeompanyino drauTuigs in which.a pa.~icular embodiment is sliourn, it is understood at the outset that persons skilled in the are may modify the disclosure herein described while still achieving the desired result of this disclosure. Accordingly, the description which follows is to be understood as a broad informative disclosure directed to persons skilled in the appropriate arts and not as limitations of the present disclosure.
[OD44] FIG. 1. depicts the arrangement of an embodiment of the present disclosure. A poly bag 10 is formed from a seanrAless tube o;f polyetlrylezre ox similar polymer material creating an interior and exterior. The tube is folded upon itself forming a first edge Fold 12 and a secoxzd edge fold 14 and a Front wall and a rear wall- When the seanrtless tube is cut to the desired size, it will have two ends. ')-he first end 16, called the manufacturer end or the plant end, is typically the bottom of the bag. The second end 1.8, called the customer end because the bxg purchaser seals this errd aver it fills the bag with product, is Left unsealed and is typically the top of the bag. Irvcated at the bottom end afthe bag are at least two heat seals, the first 20, a solid bottom seal, located nearer the manufacturer end, closes the bottom of the bag. The second 22, an intercepted seal, is located above the first heat seal 20 and is in contact with the interior space of the bag. The second heat seal 22 is interrupted by a vented seal gap 24. Tlte solid bottom seal 20 and the interrupted seal 22 are substantiallyparallel to each other and define the vent channel 26 as the space between them. Finally, there is an exterior vent 28 to allow the air to pass from the vent channel 26 to the exterior of the bag. In the embodiment shown in FIB. 1, the exterior vent 28 takes the form of a plurality of perforation holes ixc both the front attd rear walls of the vent channel 26. The exterior vent 28 may consist of any suitable means to allow air to escape the maze ve~at clxazxziel 26 to the exterior of the bag. The vented seal gap 24 should be offset rrom the extErior vent 28 to inhibit loss of powered or ~-anular material contained w~itl~in the bag 10.
[0045] FIG. 2 depicts an alternative embodizzaent rvith additional heat seals placed substantially perpendicular to the solid heat seal 20 and the interrupted heat seal 22 to create maze blocks 30 in the vent channel 26. The maze blocks 30 alternate in communication with either the second heat seal 22 or the first heat seal 20.
Adjacent maze blvclfs 30 define a chamber 32 between them. ~,'he n~uxnber of chambers 32 is dependent on the number of maze blocks 30 with an embodiment Laving multiple maze blocks having a plurality o~chambexs 32.
(0046) An alternate embodiment, shown in FIG. 3, may be employed when it is xtot desirable to have a vented bag. When the contents of the bag are toxic or hazardous, it may be preferable to assure that zoo product escapes the bag. Jn this case, rupture of the bottom seal is prevented by providing a double reinforced seal as shown in FIG. 3_ In this embodiment, two solid heat seals 20 are used to seal the bottom of the poly bag.
[0047 It slxould be understood that the maze veztt is adaptable to many variations and configurations and still be within the scope of the present disclosure. As illustrative examples only, and in no way intended td limit the scope of the present disclosure, FIGS.
4a through 4k show multiple configurations for the xxi:aze vent. FIG. 4a shows a poly bag 1 p with a maze vent laaviztg an interrupted heat seal 22 with two vented seal gaps 24 located at either side of the seal, and the exterior vent 28 comprising a plurality of perforations located at substantially the center of tb:e vent channel 26. FIG.
4b shows a maze vent having an abbreviated heat seal 34. The abbreviated heat seal 34 is located between the solid heat seal 20 and the intert~xpted heat seal 22. The abbreviated heat seal 34 is aligned with anal longer than the vented seal gag 24 so that portions of the abbreviated seal 34 are vertically aligned with portions of the W terrupted heat seal 2?
ammecliately adjacent to the vented seal gap 24. FiG. ~c is a vaziatioz~ of th.e maze vent of FIG. =la with the addition of maze blocles 30 in cooperation with the interrupted heat seal 22 ors either side of the exterior vent 28. FIG. 4d is a variation of the maze vent of FIG.
4c, adding a zxxaze block 30 in cooperation with the solid heat seal 20 between the perforations of the exterior vent 28. FIG. 4e shows a variation of the maze vent of k'IG_ 4b, adding maze blocks 30 in cooperation with the interrupted 22 and solid 20 heat seals between the abbreviated heat seal 34 and the exterior vent 28. FIG. 4f shows a maze vent having a substantially centered vented seal gap 24 and an abbreviated heat 34, with an exterior vent 28 on either side of the abbxeviated heat seal.
[0048] k~G. 4g is another embodiment of the maze vent, having twa intemxpted heat seals 22 wherein tlxe vented seal gap 24 in each interrupted seal is located adj acent to an opposite side of the poly bag. In the embodiment of FIG. 4g, the exterior vent 28 is vertically aligned with the vented seal gap of the innermost interrupted heat seal.
(D049] FIGS. 4h through 4k show embodiments of the maze vent having two interrupted heat seals 22 and no solid heat seal. The exterzzat vent, therefore, comprises a seal gap in the bottom heat seal. Instead of air being vented through the sides of the poly bag, the gap in the bottom heat seal allows air to vent out the bpttom pf the tubular poly bag body. pIG.
4h shows a maze vent having two interrupted heat seals 22, vc~ith the vented seal gap 24 and the exterior vent located at opposite sides of the poly bag. FIG. 4i shows a maze vent with lyage 10 an inner interrupted heat seal having two vented seal gaps 24 located at opposite ends of the heat seal azxd an outer interrupted seal with the exterior vent 2$ located substantially in the center. FIB. 4j shows a maze vent having an inner intemzpted heat seal having a vetzted seal gap 24 offset to one side of the seal and an outer interrupted heat seal with two exterior vents 2~ both offset to the opposite side o.f th~ po'y bad as the inner seal jap. f'TG. -lr_:
shows a rrzaze vent r~~ith aii inner interrupted )aeat seal l~avzng a ented seal gap 24 ~oc~l.c' substantially in the center of the itaner heat seal and an outer interrupted seal with the exterior vents 28 located at opposite ends of the outer heat seal.
[oo~a3 Additionally, the present disclosure is directed towards a method for manufacturing such a poly bag with a maze vent. The method for zaanufacturing a bag having a maze vent as described herein requires modificatxo~. of a Windmi5eller &
Hdlscher (W&Fi) Rotaliner, a machine kn.vwn in the art. A W&H Rotaliner has a sealing drum housing five sealing stations. Each sealing station has a sealing bar with a first sealing surface and a second sealing surface spaced apart and substantially parallel to each other. Each sealing station makes one set of seals across the bottom of the polyethylene tube per bag. The rotating seal bar makes a series of five bags before a bar has rotated back to its original position. A notch is machined in the second sealing surface corresponding to the inner heat seal 22 creasing the varted seal gap 24.
[Q051] Polyethylene or other suitable material film is extruded into tubes and compressed flat fozxr~,i,x~g a front wall and a rear wall. The flattened tube is then fed into the modified W&H Rotaliixez wherein the first bottom heat seal 20 and the second inner heat seal 22 are made across the bottom end of the poly tube, and the exterior vent 2$ is formed by making perforation holes between the seals. Perforation holes may be formed by any suitable means known in the art inc lading mechanical or needle perforation, electrical disch~~rge ar laser. Additionally, although the perforations generally described herein as penetrating both the front and rear walls of the vent channel 25, it is also envisioned that perfaratians of only one wall, such as by controlled laser machining, also fall within the scope of this discl4sure.
X0052] The maze blocks iU are formed by making at least one maze black surface oz~ the seal>Iig oar. '1-lus is doztc byweldint at least one bead ofmetal, in ~.ozzzrA~uzaicatic~n with and substantially perpendicular to either the first heat sealing surface or the second heat sealing surface. The weld bead or beads are then mach~uoud to proper dimensions. In one embodiment, the first maze block surface is in cvmznuzzicatxon with and substantially perpendicular to the second heat sealing surface. The second maze block surface in communication with and substantially pexpexxdicular tv the frst heat sealing surfacE.
Additional maze block surfaces xnay he added, alternating in communication with the second heat sealing surface ao.d the first heat sealing surface.
[0053 ~n oae embodiment, the heat seals 20, 22 and the maze blocks 30 each are typically II16 inch wide. The solid bottom seal 20 is typically located 5/8 inch above the bottom edge 16 of the #lattened poly tube. The inner seal 22 is typically located 1-1/8 inch above the bottom seal 20. The vented seal gap 24 in the inner seal 22 is typically located :~ inches from one of the side folds 12 or 14 in the poly tube and is typically 118 inch to 114 inch wide.
The perforation holes forming the exterior vent 28 are typically located to be centered 2 inches from the fold in the poly tube opposite the side where the vented seal gap is located.
[0054] In one embodiment having maze bloclCS 30, the first maze block is typically located 2 inches inward from the vented seal gap 24 azxd itt communication with the interrupted heat seal 22. Additional maze blocks may be located typically in succession at 4 inch intervals, alternating in communication with the first heat seal 20 and the second heat seal 22. The maze blocks typically are 3I4 inch long and 1/16 inch wide. however, in alternate embodiments, such as those shown in FIGS. 4c and 4d, zxxaze blacks 30 may be pasiiianed at the end of heat seal 22 directly adjacent to the vented seal gap 24.
[Op55] In the disclosed embodiments, the microperfoxation holes forming the exterioz vent 28 are typically l, mzn in diameter and located to 1~~ centered 2 inches from.
the sid~:: fold opposite to the veztted seal dap 24 a.~d at least l; 4 inch abo sw the solid bottom seal ~0. It is envisiozted that from 2 to about 10 perforations provide an optimal range for a variety of bag contents to be vented although any number of perforations may be used and sti 11 fall within the scope of the present disclosure.
(0056] After material is introduced into the poly bag 10, any trapped air is al lowed to pass through the veztted seal gap 24, into the vent channel 26, and is exhausted to the exterior of the bag ih~rough the exte~zor vent 28. Amy material that passes through the vented seal gap 24 into the vent channel 26 is trapped within. In an exinbodiment having multiple maze blocks 30, chambers 32 are formed between adjacent maze blocks, which retain material that has entered the vent channel 26, inhibiting it firm reaching the exterior vent 28.
(0057 In addition, the poly bag of the preseztt disclosure may be incorporated as part of a mufti-component flexible package. For exazztple, mufti-ply paper bags have long been known in the art. Such bags are generally formed froxxx two or mare layers of paper bonded together and folded to farm a bag. One type of such bag is a "satchel bottom"
type bag.
.A, satchel bottom bag forrxted from multiple paper plies is folded at the bottom and secured by adhesive. When the bag is opened, the bottom is flat, allowing the bag to stand while being ~lled_ ,A satchel bottom bag may be farmed with or without side gerssets. Satchel bottom bags znay have a plastic liner for contaxz~xng granulated or powdered product therein.
[005$] The poly liner having a maze vetxt as described herein, may be incorporated into a satchel bottom mufti-ply paper bag as a bag~within-a-bag for packaging bulls granulated or powdered material. FIG. 5 shows such a satchel bottom bag 50, with a poly liner 10 disposed within a rztultiple ply outer tube 52. The multiple ply outer tube 52 is fotzned from a plurality of c.ontisuous laterally ofFset plies 54, 56, and 58. The plies 54, 56, arid 58 axe made of a non-heat sealable material, preferably paper, such as used in ~h~ell. '~ ~~wm industrial packaging bags sold by Semis Company, Ins. under its trademark AIRS-TITS.
[0059] The inner poly liner 10 comprises a searstless heat sealed tube, as described herein, that is fed to a bag-making device, which forms a bag blank. The inner tubular ply 10 is narrower in width than one-half the perinr~etex of the paper ply 58. This results in a lateral space, or gap, between the poly liner 10 and inner most papex ply 58. The tubular blank is generally designated as 60, as shown in h'IG. 6, which blank may be produced on a cvz~ventional stepped end tuber device. The overlapping edges ofthe multiple paper plies 54, 56, 5$ are adhesively bonded to form the seams along the overlaps, preferably by applying a hot melt adhesive. As the blank 60 is formed, the poly liner 10 is circumfere~ntially bonded at 62 adjacent floe top edge of the paper ply 5$, which ply is the innerxztost contiguous paper ply. The bonds 62 are a series of dots of adhesive around the outer circumference of the poly liner 10 generally near the open end. However, below the bands 62, the poly liner 10 is freely and non-attachably retained within the paper tube 52, except for temporary adhesive at the back side and near the bottom of the tube blank 60, which momerita~ily aid in the bottom folding process to form the bag_ ,~4lter completion of the bag, they serve no fuc~Gtivn, dissipate, and do not impede the loose folding of the bag, or its ability to be retained in a fully detachable manner within the paper plies. The paper plies 54, 56, 58 are bonded together by dots of adhesive extending circumFerentially Page I4 around and near the top open end of the blank 60, as shown at reference numerals G4, b6_ The dots of adhesive 64 are provided to adhere ply 54 to ply 56 and dots of adhesive 66 are provided to attach ply 56 to ply 58. The li;ae of dots of adhesive 64, 65 are also longitudinally offset front to back due to the stepping of thv paper plies 54, 56, 58.
Ioaso~ The em'oodimezit of the op~:n top iii FIG- ~ has a stepped arrangez~.~.ez~t of the plus 54, 56, 58; however, a flush cut top, wherein tile plies 5~, 56, 58 arc cut straight across ~:~rtl the top of the poly liner 10 to provide a common upper periphery, is also acceptahle_ Typically, a bag having flush-cut plies would be closed by sewing; however, the p<71y liner would still be heat sealable and severable.
rQ061 ~ The closure of the open top of FIG. 5 is accomplished by reactivation of a Itot melt adhesive strip 6$ located oxt ply 56 and a hot melt adhesive strip 70 located on ply 58. The hot melt adhesive strips on the stepped front and hack sides are longitudinally offset due to the Stepping, so that the upper end may be passed through a folding machixle, and 6y means ofpressure rollers, the stepped plies 54, 56, 58 are overlapped and adhesively joined in a standard way as explained iz~ Z3_S. Patent No. 5,2$1,027.
[0062] Also, in regard to closing the top end, the upper end of the poly liner 10 would be heat sealed to closure and then, in preferred form, severed by pressure rollers applied to the exterior of the paper ply 5$, whereby the poly liner 10 will detach below the line of adhesive dots 62 to result in the freely detachable arrangement of the pouch X
0 as a bag-in-a-bag.
I0063~ rt should be understood that other types of closures are alternately envisioned for the open end of the present bag 60, including a pinch-type closure, adhesive closures other than reactivatable hot melts, or mechanical closures, such as staples, clasps, zipper assemblies, etc. The preferred forrz~. of the invention, regardless of how the paper plies are closed, envisions the heat sealing and severance of the top of the poly liner 10 so that the bag is detached thereat.
[p064] In connectiozt with any of these typos of open end closures, the formation of the satchel bottom ofthe bag will aaow be described as shown, in FIGS. 6 through 10.
[0065] As previously rlotc:d, the bag blank. 60 is the first s tep of Fom~ina the satchel bottom.
FIG. 6 is the "back" sidr: of the bag 50 for proposes of exc~lan_~tio~~Slits are first i:ut through the front and back sides of exterior ply 54 whereby two parallel slits S4 are made in the front side, and twa parallel slits $4 are made in the back silo of ply 54. Next, two parallel slits 86 are cut through both the fe-ont and back plies 56 as shown in dashed lines in FIG. 6. In the disclosed embodiment, the slits 84 are about 3 inches long, made about 4 to 4-112 inches inwardly of the lateral edges of the hag. The slits 86 are approximately 2.-1.12 inches long and inwazdly parallel to slits 84 at about 3/4 to 1 inch. The width of the bag 50 measured across the blank fi0 at the outer ply 54 is standard size in the range of about 19-I/2 to 20 inches. Each pair of slits is cut through the bottom edge of the respective ply.
These dimensions are useful for understanding the preferred embodiment, but are not to be understood as limitations to flee in~rentxon. While the greferred embodiment has a non-slit innermost ply 58 and two overlying slit plies 54, 56, the invention erxvisions a bag 60 with from 2 to G paper plies overlying the ply 58; the inner ply 5$ being xxon-slit and the others being slit wherein each ply is slit inwardly at about a 1/2 to 1 inch, distance parallel to the slits of the preceding adjacent overlying ply_ The slits ate sequentially shorter by 1 /4 to 314 inch less than the preceding overlying ply. The goal is to optimize the lateral distance between the slits on sequential plies so that later exposed geometric zones of adhesion surfaces are maximized for effective bonding.
(0066] A gap laterally offsets the poly liner 10 from fine plies 52 by 1/4 inch in the exemplary ernbodiment. As part of the blank forming process, the poly liner 10 i s heat sealed closed along its lower edge as previously described herein, the bottom edge of the poly liner 10 being closely adjacent and parallel to the lower edge of the innermost ply 58_ [0067] As sha~~~n in FIGS. 6 and 7, a main score or crease line ?? zs x.xade it-ansversely across the outer tube 52 arid thereby across all paper plus 5 ~. ~~_ ~~'. Also v; ith refcrenr,_ to FIG. G, in the disclosed embodiment, th,e main score line 72 is made about 8 inches upward from the bottom edge of the front side outer ply 54.
(0068] In FiG. 7 the satchel bottom of the bag takes on a more clearly definable form and is generally denoted by reference numeral 70. A score line 72 will become the transverse center axis of the bottom of the satchel bottom as will be understood hereinafter. FIies 54, 56, 5$ are folded back with the poly liner 10 only folded to one side of the main score line 72. Thus, the poly liner 10 is retained at one side of the main score line and is tucked in triangular folds 10a, 10b resulting from the diagonal fold lines 74,76 of the outer tube 60.
Tlae back of plies 54, 56, 5$ are similarly arranged to create diagottal fold lines 78, 80. It will be apparent that tl~e non-slit innermost paperply 5$ mai»tains a continuous lower edge generally denoted at 82. The paper plies 54, 56, 58, in addition to the poly liner 10, leave the diagonal bend lines 74, 76, 78, and 80, in common, whi ch, by vixtue of the stepped arrangement of the outer tube 52 and the slits $4, $6, create various symmetric geometric exposed zones for adhesion as shown. These zones will be subsequently functional as areas of very effective adhesive zzxating for completing the satchel bottom 70. The blank 64 for forming the satchel bottom 70 is not symmetrical about the main score line 72 but is symmetrical about the longitudinal central axis L of the blank 60.
(OOG9~ Secondary score lines 88, 90, which are equidistaxxt from and parallel to the main score line 72, are shown in FIG. 8. In the disclosed embodiment, these secondary score lines 88, 90 era spaced about 3 inches to either side of the main score line 72. Since the stepping of the plies 54, 56, 5$ Longitudinally offsets the front and hack plies (FIGS- 7 to 9), the relative upward folding of the back plies causes the folds above score line 72 to fore: si:ortex daps tha~~ front side ply i?a; s bo:low score l:nc ?2. h.1 the disalas~:d embodiment, the offset of tl~e front side to back side plies caused by the stepping ufthe plies 52 is about 1 inch. Thereby, when the secondary scone Jxnes 88, 90 are forrrted, the portion of the front side plies below score lane 90 has a greater length than the back side plies above score line 88, as would be understood with reference to FIG. 7.
The score lines 72, $ 8, 90 are all shown iti FTG. 7 far purposes of explanation. It should be understood that tlxe poly liner 10 will receive a crease along the scare line 88, as well as the paper plies that envelop it.
(0070 Per other embodiments, the satchel bottom is dinoiemsioned as shown in FIG. 8.
L?iznension "A" represents the slit length corresponding to slits 84.
Dimension "A" is dependent on the satchel bottom depth drown as dimension "C" as given by the equation A ~ (C + 118 inch) - (C x 13116), which reduces to A = 5/16 C. Dimension "B"
is the distance from the bag edge to the edgy of the izrnermost paper ply. Dimensian "B" is 1/8 inch greater than the satchel bottom depth "C." The patch length is represented by dimension "D." Dimension "D" is given by the equation D = (W - C) + 1 inch., wherein "W" is the width of the bag from one edge to the other. Dimension "D" includes X inch for a cuff, shown as dimension "F." Dimension "E" is the distance from the apex to the slit as shown in FIG. 8 and is equal to dimension "A."
Page 1$
[pa71 ] The next stage in the formation of the satchel bottom 70 is illustrated in FIG. 9. An application of adhesive 92 is shown with stippling in the geometric zones of adhesion on the papers plies 54, 56, 58 created by the slitting 84, 85 and the folding of the plies about the main score line 72. As stated, this folding creates the diagonal folds 74, 76, 7S, 80 whereby a cerr effective series of ~eometz-ically expnsed opposable surface areas are GrL2ted, u110';~~~Ti~ ~OX StCGT:~ C~IIt~iGt fOz7d112b ~fit~lr ld1:e51Ye Q~-j0U72J This farrx~ation or pattern alsa allows for the free non-adhesive retez~tioz~ ofthc folded poly liner 10, as shown at the brob,ett-away triangular shaped folded pottioxts of the paper plies (F1G_ 7) that cover parts l0a and lob of the poly liner. It will be seen that the poly liner 10 above score line 72 assumes a generally tzapezoidal shape bounded by the score line 72, diagonal folds 74, 76, and a portion of the innermost paper ply 58, generally along the edge 94 extending between the diagonal folds 74, 76_ [0073) The adhesive 92 preferably comprises a hot melt glue and is applied in four zones as shown in FIG_ 9, so as not to contact the poly liner 10. The cones are located outwardly a~the secondary fold lines 88, 90 and extend to the diagonal fold lines 74, 76, 78, 80. Flaps 116, 118 formed by slitting paper plies 54 along $4 have adhesive at both flap ends, t5ut no adhesive is applied along the length of the flap.
[00T4J For bags having an easy opening feature, an opener strip 120 is placed against the diagonally folded plies 52 of the satchel bottom before the flaps 116,118 are folded i nward_ This is so that the opener strip 120 lies within the folded flaps 116, 118 of the satchel bottonr~ 70.
~007~] The back side plies above score line 72, as shown iii )FIGS. 8 and 9, arc rotated or folded abort secondary scare line 88. This step folds the back side paper plies 54, 56, 5$
generally onto themselves which also rotates and secures the poly liner along the fold line 1?age 19 8$ theretu0.der. At this stage, the inner poly liner 10 is folded along diagonal bends 74, 76 and at the cxease formed along secondary fold line 58.
[QOlfi] The ply flaps of the front side of the paper plies S4, 56, 58 about the secondary fold line 90, thereby rotates the adhesive 92 to overlie the paper plies >4, 5b, 58 of the back side of ti~~ bag 60. T7.~is step also Lolds the respectiv:, purt:ons of the front side flaps ~~n,o themselves. Each of tlae surfaces wale r~ferenee nu.~:~z~i ~~= indicwte t~~e exposed bottolr surfaces of the satchel bottom which are con~.prised of the outez~ paper ply 54.
[QQ77] 'fv fuzther reinforce tlz.e satchel bottom, a patch 122 may be adhesively fixed to the outside of the bottom of the bag as shown in FIG. 10. The patch zztay be a single ply of kraft paper adhesively fixed to the exterior of the satchel bottom, or may be of other suitably strong material to reinforce the satchel bottom 70 . Reinforcement may be desirable because of foreseeable rough handling or to compensate for the lack of adhesive on the flaps when combined with an easy opening feature. The patch 122 is placed on the outside of the folded. flaps to reinforce the satchel bottom. The patch is secured by adhesive 124 placed ixr zones along the long edges of the patch. The embodiment shown in FIC'r. 10 has the adhesive 124 oriented in strips located on either side of the patch's long axis.
[007$] It may be desirable to have an easy-opening feature on the bag. In this embodiment, the patch has a cuff 126 located at one of its lateral side edges. The cuff 1Z6 is defined by a pair of slits 128, 130 in the patch approximately 1 inch long. The opener strip 120 placed laterally under the flaps 116, 118 of the satchel bottom extends to cooperate with the cuff 12~ area of the patch 122. The cuff area 126 is designed to allow a user to lift the cuff away from the satchel bottom 70 and grasp the opener strip 120 to pull and tear open the bottom of the bag. The opetxer strip 120 may be made of string, plastic or other suitable material.
The opener strip 120 operates to tear the flaps 116, 118 of the satchel bottom and the patch 122 when pulled by a user to open the bag.
[0079] Upon the drying of the adhesive 92, the satchel bottom 70 is completed.
The steps for forming the tube blank GO are thereby also completccl. The znulti-ply plastic lined bag with satchel bottom 50 is now in a flat blank stackable f~nz~. ready for shipment to the mant:fac4tu-er, packer, or tlx~ like, for f ping witb a p_ro~iuct.
[0080] When the bag 10 is ready for fillizag, the satchel bottom 70 is unfolded to form a flat rectangular bottom shape as illustrated it1 FICr. 5, whereby the open mouth top is positioned for the introduction of a product, typically a dry granulated powder, such as milk grattules, or the like. The short sides of the rectangular bottom are the overlapped edges of the paper plies, generally dEnoted at 102, 104 in FIG. 5. The longer edges of the rectangular bottom are denoted at 106, 108, which are the fold lines of the paper plies along secondary score liztes 88, 90, respectively. At each turner of the bag, adjacent the short edges 102, 104, a triangle is formed with the diagonal fold lines, as at 110, 112, noted in F'IG. 5. The lateral edge of the bag 50 will taper to meet the intersection of the diagonal bend lines 110, 1 I2, shown. at one side of the bag ibr illustration, at reference numeral 114 in FIG. 5. The mirror image of course is formed on the opposite side of the bag, not shown,
bETArf,Eb bESCI~TPT10N
[0043] ~Vhilo the prcs~nt disclosure will be described fully her~inafier with refercnc., to the aeeompanyino drauTuigs in which.a pa.~icular embodiment is sliourn, it is understood at the outset that persons skilled in the are may modify the disclosure herein described while still achieving the desired result of this disclosure. Accordingly, the description which follows is to be understood as a broad informative disclosure directed to persons skilled in the appropriate arts and not as limitations of the present disclosure.
[OD44] FIG. 1. depicts the arrangement of an embodiment of the present disclosure. A poly bag 10 is formed from a seanrAless tube o;f polyetlrylezre ox similar polymer material creating an interior and exterior. The tube is folded upon itself forming a first edge Fold 12 and a secoxzd edge fold 14 and a Front wall and a rear wall- When the seanrtless tube is cut to the desired size, it will have two ends. ')-he first end 16, called the manufacturer end or the plant end, is typically the bottom of the bag. The second end 1.8, called the customer end because the bxg purchaser seals this errd aver it fills the bag with product, is Left unsealed and is typically the top of the bag. Irvcated at the bottom end afthe bag are at least two heat seals, the first 20, a solid bottom seal, located nearer the manufacturer end, closes the bottom of the bag. The second 22, an intercepted seal, is located above the first heat seal 20 and is in contact with the interior space of the bag. The second heat seal 22 is interrupted by a vented seal gap 24. Tlte solid bottom seal 20 and the interrupted seal 22 are substantiallyparallel to each other and define the vent channel 26 as the space between them. Finally, there is an exterior vent 28 to allow the air to pass from the vent channel 26 to the exterior of the bag. In the embodiment shown in FIB. 1, the exterior vent 28 takes the form of a plurality of perforation holes ixc both the front attd rear walls of the vent channel 26. The exterior vent 28 may consist of any suitable means to allow air to escape the maze ve~at clxazxziel 26 to the exterior of the bag. The vented seal gap 24 should be offset rrom the extErior vent 28 to inhibit loss of powered or ~-anular material contained w~itl~in the bag 10.
[0045] FIG. 2 depicts an alternative embodizzaent rvith additional heat seals placed substantially perpendicular to the solid heat seal 20 and the interrupted heat seal 22 to create maze blocks 30 in the vent channel 26. The maze blocks 30 alternate in communication with either the second heat seal 22 or the first heat seal 20.
Adjacent maze blvclfs 30 define a chamber 32 between them. ~,'he n~uxnber of chambers 32 is dependent on the number of maze blocks 30 with an embodiment Laving multiple maze blocks having a plurality o~chambexs 32.
(0046) An alternate embodiment, shown in FIG. 3, may be employed when it is xtot desirable to have a vented bag. When the contents of the bag are toxic or hazardous, it may be preferable to assure that zoo product escapes the bag. Jn this case, rupture of the bottom seal is prevented by providing a double reinforced seal as shown in FIG. 3_ In this embodiment, two solid heat seals 20 are used to seal the bottom of the poly bag.
[0047 It slxould be understood that the maze veztt is adaptable to many variations and configurations and still be within the scope of the present disclosure. As illustrative examples only, and in no way intended td limit the scope of the present disclosure, FIGS.
4a through 4k show multiple configurations for the xxi:aze vent. FIG. 4a shows a poly bag 1 p with a maze vent laaviztg an interrupted heat seal 22 with two vented seal gaps 24 located at either side of the seal, and the exterior vent 28 comprising a plurality of perforations located at substantially the center of tb:e vent channel 26. FIG.
4b shows a maze vent having an abbreviated heat seal 34. The abbreviated heat seal 34 is located between the solid heat seal 20 and the intert~xpted heat seal 22. The abbreviated heat seal 34 is aligned with anal longer than the vented seal gag 24 so that portions of the abbreviated seal 34 are vertically aligned with portions of the W terrupted heat seal 2?
ammecliately adjacent to the vented seal gap 24. FiG. ~c is a vaziatioz~ of th.e maze vent of FIG. =la with the addition of maze blocles 30 in cooperation with the interrupted heat seal 22 ors either side of the exterior vent 28. FIG. 4d is a variation of the maze vent of FIG.
4c, adding a zxxaze block 30 in cooperation with the solid heat seal 20 between the perforations of the exterior vent 28. FIG. 4e shows a variation of the maze vent of k'IG_ 4b, adding maze blocks 30 in cooperation with the interrupted 22 and solid 20 heat seals between the abbreviated heat seal 34 and the exterior vent 28. FIG. 4f shows a maze vent having a substantially centered vented seal gap 24 and an abbreviated heat 34, with an exterior vent 28 on either side of the abbxeviated heat seal.
[0048] k~G. 4g is another embodiment of the maze vent, having twa intemxpted heat seals 22 wherein tlxe vented seal gap 24 in each interrupted seal is located adj acent to an opposite side of the poly bag. In the embodiment of FIG. 4g, the exterior vent 28 is vertically aligned with the vented seal gap of the innermost interrupted heat seal.
(D049] FIGS. 4h through 4k show embodiments of the maze vent having two interrupted heat seals 22 and no solid heat seal. The exterzzat vent, therefore, comprises a seal gap in the bottom heat seal. Instead of air being vented through the sides of the poly bag, the gap in the bottom heat seal allows air to vent out the bpttom pf the tubular poly bag body. pIG.
4h shows a maze vent having two interrupted heat seals 22, vc~ith the vented seal gap 24 and the exterior vent located at opposite sides of the poly bag. FIG. 4i shows a maze vent with lyage 10 an inner interrupted heat seal having two vented seal gaps 24 located at opposite ends of the heat seal azxd an outer interrupted seal with the exterior vent 2$ located substantially in the center. FIB. 4j shows a maze vent having an inner intemzpted heat seal having a vetzted seal gap 24 offset to one side of the seal and an outer interrupted heat seal with two exterior vents 2~ both offset to the opposite side o.f th~ po'y bad as the inner seal jap. f'TG. -lr_:
shows a rrzaze vent r~~ith aii inner interrupted )aeat seal l~avzng a ented seal gap 24 ~oc~l.c' substantially in the center of the itaner heat seal and an outer interrupted seal with the exterior vents 28 located at opposite ends of the outer heat seal.
[oo~a3 Additionally, the present disclosure is directed towards a method for manufacturing such a poly bag with a maze vent. The method for zaanufacturing a bag having a maze vent as described herein requires modificatxo~. of a Windmi5eller &
Hdlscher (W&Fi) Rotaliner, a machine kn.vwn in the art. A W&H Rotaliner has a sealing drum housing five sealing stations. Each sealing station has a sealing bar with a first sealing surface and a second sealing surface spaced apart and substantially parallel to each other. Each sealing station makes one set of seals across the bottom of the polyethylene tube per bag. The rotating seal bar makes a series of five bags before a bar has rotated back to its original position. A notch is machined in the second sealing surface corresponding to the inner heat seal 22 creasing the varted seal gap 24.
[Q051] Polyethylene or other suitable material film is extruded into tubes and compressed flat fozxr~,i,x~g a front wall and a rear wall. The flattened tube is then fed into the modified W&H Rotaliixez wherein the first bottom heat seal 20 and the second inner heat seal 22 are made across the bottom end of the poly tube, and the exterior vent 2$ is formed by making perforation holes between the seals. Perforation holes may be formed by any suitable means known in the art inc lading mechanical or needle perforation, electrical disch~~rge ar laser. Additionally, although the perforations generally described herein as penetrating both the front and rear walls of the vent channel 25, it is also envisioned that perfaratians of only one wall, such as by controlled laser machining, also fall within the scope of this discl4sure.
X0052] The maze blocks iU are formed by making at least one maze black surface oz~ the seal>Iig oar. '1-lus is doztc byweldint at least one bead ofmetal, in ~.ozzzrA~uzaicatic~n with and substantially perpendicular to either the first heat sealing surface or the second heat sealing surface. The weld bead or beads are then mach~uoud to proper dimensions. In one embodiment, the first maze block surface is in cvmznuzzicatxon with and substantially perpendicular to the second heat sealing surface. The second maze block surface in communication with and substantially pexpexxdicular tv the frst heat sealing surfacE.
Additional maze block surfaces xnay he added, alternating in communication with the second heat sealing surface ao.d the first heat sealing surface.
[0053 ~n oae embodiment, the heat seals 20, 22 and the maze blocks 30 each are typically II16 inch wide. The solid bottom seal 20 is typically located 5/8 inch above the bottom edge 16 of the #lattened poly tube. The inner seal 22 is typically located 1-1/8 inch above the bottom seal 20. The vented seal gap 24 in the inner seal 22 is typically located :~ inches from one of the side folds 12 or 14 in the poly tube and is typically 118 inch to 114 inch wide.
The perforation holes forming the exterior vent 28 are typically located to be centered 2 inches from the fold in the poly tube opposite the side where the vented seal gap is located.
[0054] In one embodiment having maze bloclCS 30, the first maze block is typically located 2 inches inward from the vented seal gap 24 azxd itt communication with the interrupted heat seal 22. Additional maze blocks may be located typically in succession at 4 inch intervals, alternating in communication with the first heat seal 20 and the second heat seal 22. The maze blocks typically are 3I4 inch long and 1/16 inch wide. however, in alternate embodiments, such as those shown in FIGS. 4c and 4d, zxxaze blacks 30 may be pasiiianed at the end of heat seal 22 directly adjacent to the vented seal gap 24.
[Op55] In the disclosed embodiments, the microperfoxation holes forming the exterioz vent 28 are typically l, mzn in diameter and located to 1~~ centered 2 inches from.
the sid~:: fold opposite to the veztted seal dap 24 a.~d at least l; 4 inch abo sw the solid bottom seal ~0. It is envisiozted that from 2 to about 10 perforations provide an optimal range for a variety of bag contents to be vented although any number of perforations may be used and sti 11 fall within the scope of the present disclosure.
(0056] After material is introduced into the poly bag 10, any trapped air is al lowed to pass through the veztted seal gap 24, into the vent channel 26, and is exhausted to the exterior of the bag ih~rough the exte~zor vent 28. Amy material that passes through the vented seal gap 24 into the vent channel 26 is trapped within. In an exinbodiment having multiple maze blocks 30, chambers 32 are formed between adjacent maze blocks, which retain material that has entered the vent channel 26, inhibiting it firm reaching the exterior vent 28.
(0057 In addition, the poly bag of the preseztt disclosure may be incorporated as part of a mufti-component flexible package. For exazztple, mufti-ply paper bags have long been known in the art. Such bags are generally formed froxxx two or mare layers of paper bonded together and folded to farm a bag. One type of such bag is a "satchel bottom"
type bag.
.A, satchel bottom bag forrxted from multiple paper plies is folded at the bottom and secured by adhesive. When the bag is opened, the bottom is flat, allowing the bag to stand while being ~lled_ ,A satchel bottom bag may be farmed with or without side gerssets. Satchel bottom bags znay have a plastic liner for contaxz~xng granulated or powdered product therein.
[005$] The poly liner having a maze vetxt as described herein, may be incorporated into a satchel bottom mufti-ply paper bag as a bag~within-a-bag for packaging bulls granulated or powdered material. FIG. 5 shows such a satchel bottom bag 50, with a poly liner 10 disposed within a rztultiple ply outer tube 52. The multiple ply outer tube 52 is fotzned from a plurality of c.ontisuous laterally ofFset plies 54, 56, and 58. The plies 54, 56, arid 58 axe made of a non-heat sealable material, preferably paper, such as used in ~h~ell. '~ ~~wm industrial packaging bags sold by Semis Company, Ins. under its trademark AIRS-TITS.
[0059] The inner poly liner 10 comprises a searstless heat sealed tube, as described herein, that is fed to a bag-making device, which forms a bag blank. The inner tubular ply 10 is narrower in width than one-half the perinr~etex of the paper ply 58. This results in a lateral space, or gap, between the poly liner 10 and inner most papex ply 58. The tubular blank is generally designated as 60, as shown in h'IG. 6, which blank may be produced on a cvz~ventional stepped end tuber device. The overlapping edges ofthe multiple paper plies 54, 56, 5$ are adhesively bonded to form the seams along the overlaps, preferably by applying a hot melt adhesive. As the blank 60 is formed, the poly liner 10 is circumfere~ntially bonded at 62 adjacent floe top edge of the paper ply 5$, which ply is the innerxztost contiguous paper ply. The bonds 62 are a series of dots of adhesive around the outer circumference of the poly liner 10 generally near the open end. However, below the bands 62, the poly liner 10 is freely and non-attachably retained within the paper tube 52, except for temporary adhesive at the back side and near the bottom of the tube blank 60, which momerita~ily aid in the bottom folding process to form the bag_ ,~4lter completion of the bag, they serve no fuc~Gtivn, dissipate, and do not impede the loose folding of the bag, or its ability to be retained in a fully detachable manner within the paper plies. The paper plies 54, 56, 58 are bonded together by dots of adhesive extending circumFerentially Page I4 around and near the top open end of the blank 60, as shown at reference numerals G4, b6_ The dots of adhesive 64 are provided to adhere ply 54 to ply 56 and dots of adhesive 66 are provided to attach ply 56 to ply 58. The li;ae of dots of adhesive 64, 65 are also longitudinally offset front to back due to the stepping of thv paper plies 54, 56, 58.
Ioaso~ The em'oodimezit of the op~:n top iii FIG- ~ has a stepped arrangez~.~.ez~t of the plus 54, 56, 58; however, a flush cut top, wherein tile plies 5~, 56, 58 arc cut straight across ~:~rtl the top of the poly liner 10 to provide a common upper periphery, is also acceptahle_ Typically, a bag having flush-cut plies would be closed by sewing; however, the p<71y liner would still be heat sealable and severable.
rQ061 ~ The closure of the open top of FIG. 5 is accomplished by reactivation of a Itot melt adhesive strip 6$ located oxt ply 56 and a hot melt adhesive strip 70 located on ply 58. The hot melt adhesive strips on the stepped front and hack sides are longitudinally offset due to the Stepping, so that the upper end may be passed through a folding machixle, and 6y means ofpressure rollers, the stepped plies 54, 56, 58 are overlapped and adhesively joined in a standard way as explained iz~ Z3_S. Patent No. 5,2$1,027.
[0062] Also, in regard to closing the top end, the upper end of the poly liner 10 would be heat sealed to closure and then, in preferred form, severed by pressure rollers applied to the exterior of the paper ply 5$, whereby the poly liner 10 will detach below the line of adhesive dots 62 to result in the freely detachable arrangement of the pouch X
0 as a bag-in-a-bag.
I0063~ rt should be understood that other types of closures are alternately envisioned for the open end of the present bag 60, including a pinch-type closure, adhesive closures other than reactivatable hot melts, or mechanical closures, such as staples, clasps, zipper assemblies, etc. The preferred forrz~. of the invention, regardless of how the paper plies are closed, envisions the heat sealing and severance of the top of the poly liner 10 so that the bag is detached thereat.
[p064] In connectiozt with any of these typos of open end closures, the formation of the satchel bottom ofthe bag will aaow be described as shown, in FIGS. 6 through 10.
[0065] As previously rlotc:d, the bag blank. 60 is the first s tep of Fom~ina the satchel bottom.
FIG. 6 is the "back" sidr: of the bag 50 for proposes of exc~lan_~tio~~Slits are first i:ut through the front and back sides of exterior ply 54 whereby two parallel slits S4 are made in the front side, and twa parallel slits $4 are made in the back silo of ply 54. Next, two parallel slits 86 are cut through both the fe-ont and back plies 56 as shown in dashed lines in FIG. 6. In the disclosed embodiment, the slits 84 are about 3 inches long, made about 4 to 4-112 inches inwardly of the lateral edges of the hag. The slits 86 are approximately 2.-1.12 inches long and inwazdly parallel to slits 84 at about 3/4 to 1 inch. The width of the bag 50 measured across the blank fi0 at the outer ply 54 is standard size in the range of about 19-I/2 to 20 inches. Each pair of slits is cut through the bottom edge of the respective ply.
These dimensions are useful for understanding the preferred embodiment, but are not to be understood as limitations to flee in~rentxon. While the greferred embodiment has a non-slit innermost ply 58 and two overlying slit plies 54, 56, the invention erxvisions a bag 60 with from 2 to G paper plies overlying the ply 58; the inner ply 5$ being xxon-slit and the others being slit wherein each ply is slit inwardly at about a 1/2 to 1 inch, distance parallel to the slits of the preceding adjacent overlying ply_ The slits ate sequentially shorter by 1 /4 to 314 inch less than the preceding overlying ply. The goal is to optimize the lateral distance between the slits on sequential plies so that later exposed geometric zones of adhesion surfaces are maximized for effective bonding.
(0066] A gap laterally offsets the poly liner 10 from fine plies 52 by 1/4 inch in the exemplary ernbodiment. As part of the blank forming process, the poly liner 10 i s heat sealed closed along its lower edge as previously described herein, the bottom edge of the poly liner 10 being closely adjacent and parallel to the lower edge of the innermost ply 58_ [0067] As sha~~~n in FIGS. 6 and 7, a main score or crease line ?? zs x.xade it-ansversely across the outer tube 52 arid thereby across all paper plus 5 ~. ~~_ ~~'. Also v; ith refcrenr,_ to FIG. G, in the disclosed embodiment, th,e main score line 72 is made about 8 inches upward from the bottom edge of the front side outer ply 54.
(0068] In FiG. 7 the satchel bottom of the bag takes on a more clearly definable form and is generally denoted by reference numeral 70. A score line 72 will become the transverse center axis of the bottom of the satchel bottom as will be understood hereinafter. FIies 54, 56, 5$ are folded back with the poly liner 10 only folded to one side of the main score line 72. Thus, the poly liner 10 is retained at one side of the main score line and is tucked in triangular folds 10a, 10b resulting from the diagonal fold lines 74,76 of the outer tube 60.
Tlae back of plies 54, 56, 5$ are similarly arranged to create diagottal fold lines 78, 80. It will be apparent that tl~e non-slit innermost paperply 5$ mai»tains a continuous lower edge generally denoted at 82. The paper plies 54, 56, 58, in addition to the poly liner 10, leave the diagonal bend lines 74, 76, 78, and 80, in common, whi ch, by vixtue of the stepped arrangement of the outer tube 52 and the slits $4, $6, create various symmetric geometric exposed zones for adhesion as shown. These zones will be subsequently functional as areas of very effective adhesive zzxating for completing the satchel bottom 70. The blank 64 for forming the satchel bottom 70 is not symmetrical about the main score line 72 but is symmetrical about the longitudinal central axis L of the blank 60.
(OOG9~ Secondary score lines 88, 90, which are equidistaxxt from and parallel to the main score line 72, are shown in FIG. 8. In the disclosed embodiment, these secondary score lines 88, 90 era spaced about 3 inches to either side of the main score line 72. Since the stepping of the plies 54, 56, 5$ Longitudinally offsets the front and hack plies (FIGS- 7 to 9), the relative upward folding of the back plies causes the folds above score line 72 to fore: si:ortex daps tha~~ front side ply i?a; s bo:low score l:nc ?2. h.1 the disalas~:d embodiment, the offset of tl~e front side to back side plies caused by the stepping ufthe plies 52 is about 1 inch. Thereby, when the secondary scone Jxnes 88, 90 are forrrted, the portion of the front side plies below score lane 90 has a greater length than the back side plies above score line 88, as would be understood with reference to FIG. 7.
The score lines 72, $ 8, 90 are all shown iti FTG. 7 far purposes of explanation. It should be understood that tlxe poly liner 10 will receive a crease along the scare line 88, as well as the paper plies that envelop it.
(0070 Per other embodiments, the satchel bottom is dinoiemsioned as shown in FIG. 8.
L?iznension "A" represents the slit length corresponding to slits 84.
Dimension "A" is dependent on the satchel bottom depth drown as dimension "C" as given by the equation A ~ (C + 118 inch) - (C x 13116), which reduces to A = 5/16 C. Dimension "B"
is the distance from the bag edge to the edgy of the izrnermost paper ply. Dimensian "B" is 1/8 inch greater than the satchel bottom depth "C." The patch length is represented by dimension "D." Dimension "D" is given by the equation D = (W - C) + 1 inch., wherein "W" is the width of the bag from one edge to the other. Dimension "D" includes X inch for a cuff, shown as dimension "F." Dimension "E" is the distance from the apex to the slit as shown in FIG. 8 and is equal to dimension "A."
Page 1$
[pa71 ] The next stage in the formation of the satchel bottom 70 is illustrated in FIG. 9. An application of adhesive 92 is shown with stippling in the geometric zones of adhesion on the papers plies 54, 56, 58 created by the slitting 84, 85 and the folding of the plies about the main score line 72. As stated, this folding creates the diagonal folds 74, 76, 7S, 80 whereby a cerr effective series of ~eometz-ically expnsed opposable surface areas are GrL2ted, u110';~~~Ti~ ~OX StCGT:~ C~IIt~iGt fOz7d112b ~fit~lr ld1:e51Ye Q~-j0U72J This farrx~ation or pattern alsa allows for the free non-adhesive retez~tioz~ ofthc folded poly liner 10, as shown at the brob,ett-away triangular shaped folded pottioxts of the paper plies (F1G_ 7) that cover parts l0a and lob of the poly liner. It will be seen that the poly liner 10 above score line 72 assumes a generally tzapezoidal shape bounded by the score line 72, diagonal folds 74, 76, and a portion of the innermost paper ply 58, generally along the edge 94 extending between the diagonal folds 74, 76_ [0073) The adhesive 92 preferably comprises a hot melt glue and is applied in four zones as shown in FIG_ 9, so as not to contact the poly liner 10. The cones are located outwardly a~the secondary fold lines 88, 90 and extend to the diagonal fold lines 74, 76, 78, 80. Flaps 116, 118 formed by slitting paper plies 54 along $4 have adhesive at both flap ends, t5ut no adhesive is applied along the length of the flap.
[00T4J For bags having an easy opening feature, an opener strip 120 is placed against the diagonally folded plies 52 of the satchel bottom before the flaps 116,118 are folded i nward_ This is so that the opener strip 120 lies within the folded flaps 116, 118 of the satchel bottonr~ 70.
~007~] The back side plies above score line 72, as shown iii )FIGS. 8 and 9, arc rotated or folded abort secondary scare line 88. This step folds the back side paper plies 54, 56, 5$
generally onto themselves which also rotates and secures the poly liner along the fold line 1?age 19 8$ theretu0.der. At this stage, the inner poly liner 10 is folded along diagonal bends 74, 76 and at the cxease formed along secondary fold line 58.
[QOlfi] The ply flaps of the front side of the paper plies S4, 56, 58 about the secondary fold line 90, thereby rotates the adhesive 92 to overlie the paper plies >4, 5b, 58 of the back side of ti~~ bag 60. T7.~is step also Lolds the respectiv:, purt:ons of the front side flaps ~~n,o themselves. Each of tlae surfaces wale r~ferenee nu.~:~z~i ~~= indicwte t~~e exposed bottolr surfaces of the satchel bottom which are con~.prised of the outez~ paper ply 54.
[QQ77] 'fv fuzther reinforce tlz.e satchel bottom, a patch 122 may be adhesively fixed to the outside of the bottom of the bag as shown in FIG. 10. The patch zztay be a single ply of kraft paper adhesively fixed to the exterior of the satchel bottom, or may be of other suitably strong material to reinforce the satchel bottom 70 . Reinforcement may be desirable because of foreseeable rough handling or to compensate for the lack of adhesive on the flaps when combined with an easy opening feature. The patch 122 is placed on the outside of the folded. flaps to reinforce the satchel bottom. The patch is secured by adhesive 124 placed ixr zones along the long edges of the patch. The embodiment shown in FIC'r. 10 has the adhesive 124 oriented in strips located on either side of the patch's long axis.
[007$] It may be desirable to have an easy-opening feature on the bag. In this embodiment, the patch has a cuff 126 located at one of its lateral side edges. The cuff 1Z6 is defined by a pair of slits 128, 130 in the patch approximately 1 inch long. The opener strip 120 placed laterally under the flaps 116, 118 of the satchel bottom extends to cooperate with the cuff 12~ area of the patch 122. The cuff area 126 is designed to allow a user to lift the cuff away from the satchel bottom 70 and grasp the opener strip 120 to pull and tear open the bottom of the bag. The opetxer strip 120 may be made of string, plastic or other suitable material.
The opener strip 120 operates to tear the flaps 116, 118 of the satchel bottom and the patch 122 when pulled by a user to open the bag.
[0079] Upon the drying of the adhesive 92, the satchel bottom 70 is completed.
The steps for forming the tube blank GO are thereby also completccl. The znulti-ply plastic lined bag with satchel bottom 50 is now in a flat blank stackable f~nz~. ready for shipment to the mant:fac4tu-er, packer, or tlx~ like, for f ping witb a p_ro~iuct.
[0080] When the bag 10 is ready for fillizag, the satchel bottom 70 is unfolded to form a flat rectangular bottom shape as illustrated it1 FICr. 5, whereby the open mouth top is positioned for the introduction of a product, typically a dry granulated powder, such as milk grattules, or the like. The short sides of the rectangular bottom are the overlapped edges of the paper plies, generally dEnoted at 102, 104 in FIG. 5. The longer edges of the rectangular bottom are denoted at 106, 108, which are the fold lines of the paper plies along secondary score liztes 88, 90, respectively. At each turner of the bag, adjacent the short edges 102, 104, a triangle is formed with the diagonal fold lines, as at 110, 112, noted in F'IG. 5. The lateral edge of the bag 50 will taper to meet the intersection of the diagonal bend lines 110, 1 I2, shown. at one side of the bag ibr illustration, at reference numeral 114 in FIG. 5. The mirror image of course is formed on the opposite side of the bag, not shown,
Claims (33)
1. A flexible polymeric package comprising:
a seamless tubular body having a first end, a second end, an inner surface and an outer surface;
a plurality of heat seals located proximate to said second end permanently sealing said seamless tubular body to itself creating a front panel and a rear panel;
a heat sealable open mouth at said first end, wherein a receptacle is defined by said inner surface of said tubular body and said plurality of heat seals, said receptacle being configured to receive a product introduced through said open mouth and enclosing said product within said tubular body, with said open mouth being heat sealable after introduction of said product into said receptacle;
said plurality of heat seals comprising at least two spaced apart, heat seals oriented transversely across said seamless tubular body proximate to said second end;
said at least two spaced apart heat seals comprising an inboard heat seal positioned adjacent to said receptacle and an outboard heat seal spaced apart from said inboard heat seal and nearer said second end, wherein a channel is defined by said inboard and outboard heat seals and said front and rear panels of the seamless tubular body, and said inboard heat seal having a discontinuity, wherein said front panel and said rear panel are unattached to each other at the discontinuity allowing communication between said receptacle and said channel through the discontinuity.
a seamless tubular body having a first end, a second end, an inner surface and an outer surface;
a plurality of heat seals located proximate to said second end permanently sealing said seamless tubular body to itself creating a front panel and a rear panel;
a heat sealable open mouth at said first end, wherein a receptacle is defined by said inner surface of said tubular body and said plurality of heat seals, said receptacle being configured to receive a product introduced through said open mouth and enclosing said product within said tubular body, with said open mouth being heat sealable after introduction of said product into said receptacle;
said plurality of heat seals comprising at least two spaced apart, heat seals oriented transversely across said seamless tubular body proximate to said second end;
said at least two spaced apart heat seals comprising an inboard heat seal positioned adjacent to said receptacle and an outboard heat seal spaced apart from said inboard heat seal and nearer said second end, wherein a channel is defined by said inboard and outboard heat seals and said front and rear panels of the seamless tubular body, and said inboard heat seal having a discontinuity, wherein said front panel and said rear panel are unattached to each other at the discontinuity allowing communication between said receptacle and said channel through the discontinuity.
2. The flexible polymeric package of claim 1 further comprising a vent in said channel, wherein said vent allows communication between said channel and an environment outside of the package.
3. The flexible polymeric package of claim 2 wherein said vent comprises one or more perforations in the tubular body within the channel.
4. The flexible polymeric package of claim 2 wherein said vent comprises a plurality of perforations in the tubular body within the channel.
5. The flexible polymeric package of claim 2 wherein said vent comprises a plurality of perforations in at least one of said front panel and said rear panel of the tubular body within said channel.
6. The flexible polymeric package of claim 5 wherein both of said front panel and said rear panel contain perforations within the channel.
7. The flexible polymeric package of claim 2 wherein said vent comprises a discontinuity in said outboard heat seal; said discontinuity allowing communication between said channel and said environment by way of a space between said front and said rear panel to said second end.
8. The flexible polymeric package of claim 2 wherein said discontinuity in said inboard heat seal is located proximate to one end of said channel and said vent is located proximate to a second opposite end of said channel, whereby communication between the receptacle of said package and said environment takes place by way of the substantial length of the channel.
9. The flexible polymeric package of claim 2 further comprising an intermediate heat seal located between said inboard and said outboard heat seal, wherein said intermediate heat seal contains one or more discontinuities and creating a tortuous path between said receptacle and said environment.
10. The flexible polymeric package of claim 2 further comprising one or more maze blocks within said channel, wherein a maze block comprises a heat seal substantially perpendicular to one of said inboard and outboard heat seals.
11. The flexible polymeric package of claim 10 further comprising a plurality of maze blocks perpendicular and connecting to said inboard and said outboard heat seals.
12. The flexible polymeric package of claim 11 wherein said connection of the maze blocks to said inboard heat seal and said outboard heat seal alternates between the inboard and outboard heat seal creating a tortuous path between said receptacle and said environment.
13. The flexible polymeric package of claim 1 comprising:
an inboard heat seal positioned adjacent to said receptacle and having a discontinuity proximate to one end;
an outboard heat seal spaced apart from said inboard heat seal nearer said second end, said inboard and outboard heat seals being substantially parallel to each other and oriented transversely across said seamless tubular body proximate to said second end;
a channel defined by said inboard and outboard heat seals and said front and rear panels of the tubular body; and a vent in said channel located opposite of said discontinuity in said inboard heat seal, wherein a flow path is defined from said receptacle, through said discontinuity, through said channel, and out of said vent to an environment outside said package, said flow path being designed to allow passage of gaseous material out of said package and preventing passage of product out of said package while preventing ingress of moisture and other contaminants.
an inboard heat seal positioned adjacent to said receptacle and having a discontinuity proximate to one end;
an outboard heat seal spaced apart from said inboard heat seal nearer said second end, said inboard and outboard heat seals being substantially parallel to each other and oriented transversely across said seamless tubular body proximate to said second end;
a channel defined by said inboard and outboard heat seals and said front and rear panels of the tubular body; and a vent in said channel located opposite of said discontinuity in said inboard heat seal, wherein a flow path is defined from said receptacle, through said discontinuity, through said channel, and out of said vent to an environment outside said package, said flow path being designed to allow passage of gaseous material out of said package and preventing passage of product out of said package while preventing ingress of moisture and other contaminants.
14. The flexible polymeric package of claim 13 wherein said vent comprises a plurality of substantially aligned perforations in said front panel and said rear panel within the channel.
10. The flexible polymeric package of claim 2 further comprising one or more maze blocks within said channel, wherein a maze block comprises a heat seal substantially perpendicular to one of said inboard and outboard heat seals.
11. The flexible polymeric package of claim 10 further comprising a plurality of maze blocks perpendicular and connecting to said inboard and said outboard heat seals.
12. The flexible polymeric package of claim 11 wherein said connection of the maze blocks to said inboard heat seal and said outboard heat seal alternates between the inboard and outboard heat seal creating a tortuous path between said receptacle and said environment.
13. The flexible polymeric package of claim 1 comprising:
an inboard heat seal positioned adjacent to said receptacle and having a discontinuity proximate to one end;
an outboard heat seal spaced apart from said inboard heat seal nearer said second end, said inboard and outboard heat seals being substantially parallel to each other and oriented transversely across said seamless tubular body proximate to said second end;
a channel defined by said inboard and outboard heat seals and said front and rear panels of the tubular body; and a vent in said channel located opposite of said discontinuity in said inboard heat seal, wherein a flow path is defined from said receptacle, through said discontinuity, through said channel, and out of said vent to an environment outside said package, said flow path being designed to allow passage of gaseous material out of said package and preventing passage of product out of said package while preventing ingress of moisture and other contaminants.
14. The flexible polymeric package of claim 13 wherein said vent comprises a plurality of substantially aligned perforations in said front panel and said rear panel within the channel.
10. The flexible polymeric package of claim 2 further comprising one or more maze blocks within said channel, wherein a maze block comprises a heat seal substantially perpendicular to one of said inboard and outboard heat seals.
11. The flexible polymeric package of claim 10 further comprising a plurality of maze blocks perpendicular and connecting to said inboard and said outboard heat seals.
12. The flexible polymeric package of claim 11 wherein said connection of the maze blocks to said inboard heat seal and said outboard heat seal alternates between the inboard and outboard heat seal creating a tortuous path between said receptacle and said environment.
13. The flexible polymeric package of claim 1 comprising:
an inboard heat seal positioned adjacent to said receptacle and having a discontinuity proximate to one end;
an outboard heat seal spaced apart from said inboard heat seal nearer said second end, said inboard and outboard heat seals being substantially parallel to each other and oriented transversely across said seamless tubular body proximate to said second end;
a channel defined by said inboard and outboard heat seals and said front and rear panels of the tubular body; and a vent in said channel located opposite of said discontinuity in said inboard heat seal, wherein a flow path is defined from said receptacle, through said discontinuity, through said channel, and out of said vent to an environment outside said package, said flow path being designed to allow passage of gaseous material out of said package and preventing passage of product out of said package while preventing ingress of moisture and other contaminants.
14. The flexible polymeric package of claim 13 wherein said vent comprises a plurality of substantially aligned perforations in said front panel and said rear panel within the channel.
15. A multiple ply paper bag with a polymeric liner comprising:
at least two paper plies being laterally offset, each being adhesively bonded along a seam thereof forming a tube, and at least two of said paper plies being stepped relative to each other in a direction longitudinal of the bag, said tube having an open end and a closed end;
a seamless inner plastic liner being attached to an innermost of said paper plies at said open end of the bag and having a width less than one half the perimeter of the innermost paper ply, said plastic liner having a plurality of heat seals at the closed end of said bag for sealing said plastic liner to itself and thereby form a plastic pouch having an interior and an exterior defined by a front panel and a rear panel, and said plastic liner further comprising a heat sealable mouth at said open end of the bag;
said plurality of heat seals comprising at least two spaced apart heat seals oriented transverse to the long axis of the bag, said heat seals having an inboard heat seal positioned adjacent to the interior of the pouch and an outboard hear seal positioned proximate to the bottom of the pouch, said inboard and outboard heat seals defining a channel between said front panel and said rear panel;
said inboard heat seal containing a discontinuity, wherein said front panel and said rear panel are unattached to each other at the discontinuity allowing communication between the interior of the pouch and the channel; and said closed end of said bag having a satchel bottom capable of forming a rectangular bottom of the bag when filled, said satchel bottom being formed by folds of said paper plies being folded about three fold lines, one fold line being a generally central transverse main fold along the bottom of the bag and the other two being parallel secondary fold lines equidistant from the main fold line, said innermost paper plies being non-slitted and at least one other paper ply being slitted, said folded paper ply having means to form geometric zones of adhesion, an adhesive on said zones for securing said folded paper plies together, said inner plastic liner being detachably and non-adhesively retained at said satchel bottom, and the plastic pouch being folded about said main fold line and one of said two secondary fold lines.
at least two paper plies being laterally offset, each being adhesively bonded along a seam thereof forming a tube, and at least two of said paper plies being stepped relative to each other in a direction longitudinal of the bag, said tube having an open end and a closed end;
a seamless inner plastic liner being attached to an innermost of said paper plies at said open end of the bag and having a width less than one half the perimeter of the innermost paper ply, said plastic liner having a plurality of heat seals at the closed end of said bag for sealing said plastic liner to itself and thereby form a plastic pouch having an interior and an exterior defined by a front panel and a rear panel, and said plastic liner further comprising a heat sealable mouth at said open end of the bag;
said plurality of heat seals comprising at least two spaced apart heat seals oriented transverse to the long axis of the bag, said heat seals having an inboard heat seal positioned adjacent to the interior of the pouch and an outboard hear seal positioned proximate to the bottom of the pouch, said inboard and outboard heat seals defining a channel between said front panel and said rear panel;
said inboard heat seal containing a discontinuity, wherein said front panel and said rear panel are unattached to each other at the discontinuity allowing communication between the interior of the pouch and the channel; and said closed end of said bag having a satchel bottom capable of forming a rectangular bottom of the bag when filled, said satchel bottom being formed by folds of said paper plies being folded about three fold lines, one fold line being a generally central transverse main fold along the bottom of the bag and the other two being parallel secondary fold lines equidistant from the main fold line, said innermost paper plies being non-slitted and at least one other paper ply being slitted, said folded paper ply having means to form geometric zones of adhesion, an adhesive on said zones for securing said folded paper plies together, said inner plastic liner being detachably and non-adhesively retained at said satchel bottom, and the plastic pouch being folded about said main fold line and one of said two secondary fold lines.
16. The bag of claim 15 wherein said pouch contains a vent within said channel creating a flow path from the pouch interior through the discontinuity in the inboard heat seal, through the channel, and through the vent to the exterior of the pouch.
17. The bag of claim 16 wherein said discontinuity in said inboard heat seal is located proximate to one of the lateral sides of the pouch and said vent is located proximate to an opposite lateral side of the pouch.
18. The bag of claim 16 wherein said vent comprises one or more perforations in at least one of said front panel and said rear panel within the channel.
19. The bag of claim 17 wherein said vent composes a plurality of perforations in said front panel and said rear panel within the channel.
20. The bag of claim 18 wherein said vent is comprised of 2 to 10 perforations.
21. The bag of claim 18 further comprising one or more maze blocks within said channel, wherein a maze block comprises a heat seal substantially perpendicular to one of said inboard and outboard heat seals.
22. The bag of claim 21 further comprising a plurality of maze blocks perpendicular and connecting to said inboard and said outboard heat seals.
23. The bag of claim 22 wherein said connection of the maze blocks to said inboard heat seal and said outboard heat seal alternates between the inboard and outboard heat seal creating a tortuous path between said interior and exterior of the pouch.
24. The bag of claim 17 further comprising a reinforcing patch affixed to the outside of said satchel bottom over the folds of the outer paper ply.
25. The bag of claim 24 wherein said reinforcing patch comprises at least one ply of kraft paper adhesively affixed to the outside of the satchel bottom.
26. The bag of claim 24 further comprising an easy-open apparatus, said easy-open apparatus comprising an opener strip located within the folds of the satchel bottom extending transversely outward from the folds of the satchel bottom to cooperate with said reinforcing patch, said reinforcing patch having a cuff defined by a pair of spaced apart substantially parallel slits at one edge of the patch, said opener strip attached to said cuff allowing a user to pull said cuff and opener strip thereby tearing said patch and paper plies of said underlying satchel bottom folds allowing the user to open the satchel bottom to access the plastic liner.
27. The bag of claim 26 wherein said opener strip is made of plastic.
28. A multiple ply paper bag with a polymeric liner comprising:
at least two paper plies being laterally offset, each being adhesively bonded along a seam thereof forming a tube, and at least two of said paper plies being stepped relative to each other in a direction longitudinal of the bag, said tube having an open end and a closed end;
a seamless inner plastic liner being attached to an innermost of said paper plies at said open end of the bag and having a width less than one half the perimeter of the innermost paper ply, said plastic liner further comprising a plurality of heat seals at the closed end of said bag for sealing said plastic liner to itself and thereby form a plastic pouch having an interior and an exterior defined by a front panel and a rear panel, and said plastic liner further comprising a heat sealable mouth at said open end of the bag;
said plurality of heat seals further comprising an inboard heat seal located adjacent to the interior of said pouch having a discontinuity in said inboard heat seal proximate to a first lateral side edge of the pouch, and an outboard heat seal spaced apart and substantially parallel to the inboard seal;
a channel located between said inboard and outboard heat seals and defined by said front and rear panels;
a vent in said channel comprising a plurality of perforations in at least one of said front panel and rear panel within the channel, said vent located proximate to a second lateral side edge opposite that of said first lateral side edge, wherein gaseous contents of said pouch interior is allowed to flow through the discontinuity of the inboard heat seal, through the channel, and out the vent to the exterior of the pouch while restricting flow of product out of the pouch and restricting flow of moisture and other contaminants into the pouch;
said closed end of said bag having a satchel bottom capable of forming a rectangular bottom of the bag when filled, said satchel bottom being formed by folds of said paper plies being folded about three fold lines, one fold line being a generally central transverse main fold along the bottom of the bag and the other two being parallel secondary fold lines equidistant from the main fold line, said innermost paper plies being non-slitted and at least one other paper ply being slitted, said folded paper ply having means to form geometric zones of adhesion, an adhesive on said zones for securing said folded paper plies together, said inner plastic liner being detachably and non-adhesively retained at said satchel bottom, and the plastic pouch being folded about said main fold line and one of said two secondary fold lines a reinforcing patch adhesively affixed to the outer paper ply wherein said reinforcing patch comprises at least one ply of kraft paper.
at least two paper plies being laterally offset, each being adhesively bonded along a seam thereof forming a tube, and at least two of said paper plies being stepped relative to each other in a direction longitudinal of the bag, said tube having an open end and a closed end;
a seamless inner plastic liner being attached to an innermost of said paper plies at said open end of the bag and having a width less than one half the perimeter of the innermost paper ply, said plastic liner further comprising a plurality of heat seals at the closed end of said bag for sealing said plastic liner to itself and thereby form a plastic pouch having an interior and an exterior defined by a front panel and a rear panel, and said plastic liner further comprising a heat sealable mouth at said open end of the bag;
said plurality of heat seals further comprising an inboard heat seal located adjacent to the interior of said pouch having a discontinuity in said inboard heat seal proximate to a first lateral side edge of the pouch, and an outboard heat seal spaced apart and substantially parallel to the inboard seal;
a channel located between said inboard and outboard heat seals and defined by said front and rear panels;
a vent in said channel comprising a plurality of perforations in at least one of said front panel and rear panel within the channel, said vent located proximate to a second lateral side edge opposite that of said first lateral side edge, wherein gaseous contents of said pouch interior is allowed to flow through the discontinuity of the inboard heat seal, through the channel, and out the vent to the exterior of the pouch while restricting flow of product out of the pouch and restricting flow of moisture and other contaminants into the pouch;
said closed end of said bag having a satchel bottom capable of forming a rectangular bottom of the bag when filled, said satchel bottom being formed by folds of said paper plies being folded about three fold lines, one fold line being a generally central transverse main fold along the bottom of the bag and the other two being parallel secondary fold lines equidistant from the main fold line, said innermost paper plies being non-slitted and at least one other paper ply being slitted, said folded paper ply having means to form geometric zones of adhesion, an adhesive on said zones for securing said folded paper plies together, said inner plastic liner being detachably and non-adhesively retained at said satchel bottom, and the plastic pouch being folded about said main fold line and one of said two secondary fold lines a reinforcing patch adhesively affixed to the outer paper ply wherein said reinforcing patch comprises at least one ply of kraft paper.
29. The bag of claim 28 further comprising an easy-open apparatus, said easy-open apparatus comprising an opener strip located within the folds of the satchel bottom extending transversely outward from the folds of the satchel bottom to cooperate with said reinforcing patch, said reinforcing patch having a cuff defined by a pair of spaced apart substantially parallel slits at one edge of the patch, said opener strip attached to said cuff allowing a user to pull said cuff and opener strip thereby tearing said patch and paper plies of said underlying satchel bottom folds allowing the user to open the satchel bottom to access the plastic liner.
30. A method of forming a multiple ply paper bag with a polymeric liner comprising the steps of:
extruding a seamless polymeric tube;
cutting said polymeric tube to a desired length and thereby defining a longitudinal axis, said polymeric tube having an interior surface, an exterior surface, a first end and a second end;
sealing the second end of said polymeric tube with a plurality of heat seals oriented transverse to said longitudinal axis, said plurality of heat seals and said interior surface thereby defining a receptacle configured to receive a product, said plurality of heat seals having at least an inboard heat seal located adjacent said receptacle and an outboard heat seal spaced apart from said inboard seal, wherein a channel is defined between said inboard heat seal and said outboard heat seal and a front panel and a rear panel, and wherein said inboard heat seal contains a discontinuity such that said receptacle is in communication with said channel through the discontinuity;
providing a plurality of offset paper plies, said paper plies comprising at least an outermost paper ply and an innermost paper ply, said paper plies being folded such that each of said plies is bonded to itself forming a multi-ply paper tube with a seam for each ply, said seams being laterally offset thereby spacing seams for each layer about the bag, said tube having a first end and a second end;
bonding said first end of said polymeric tube to said first end of the innermost ply of said multi-ply paper tube;
folding opposing corners at said second end of said multiply paper tube inward creating a pair of diagonal fold lines, each diagonal fold line extending front a lateral side edge of said multi-ply paper tube and defining a front flap and a rear flap, whereby said polymeric tube is folded within said rear flap folds and is freely and non-attachably retained;
applying adhesive to said front and rear flaps and folding said front and rear to close said second end of said multi-ply paper tube thereby forming a satchel bottom.
extruding a seamless polymeric tube;
cutting said polymeric tube to a desired length and thereby defining a longitudinal axis, said polymeric tube having an interior surface, an exterior surface, a first end and a second end;
sealing the second end of said polymeric tube with a plurality of heat seals oriented transverse to said longitudinal axis, said plurality of heat seals and said interior surface thereby defining a receptacle configured to receive a product, said plurality of heat seals having at least an inboard heat seal located adjacent said receptacle and an outboard heat seal spaced apart from said inboard seal, wherein a channel is defined between said inboard heat seal and said outboard heat seal and a front panel and a rear panel, and wherein said inboard heat seal contains a discontinuity such that said receptacle is in communication with said channel through the discontinuity;
providing a plurality of offset paper plies, said paper plies comprising at least an outermost paper ply and an innermost paper ply, said paper plies being folded such that each of said plies is bonded to itself forming a multi-ply paper tube with a seam for each ply, said seams being laterally offset thereby spacing seams for each layer about the bag, said tube having a first end and a second end;
bonding said first end of said polymeric tube to said first end of the innermost ply of said multi-ply paper tube;
folding opposing corners at said second end of said multiply paper tube inward creating a pair of diagonal fold lines, each diagonal fold line extending front a lateral side edge of said multi-ply paper tube and defining a front flap and a rear flap, whereby said polymeric tube is folded within said rear flap folds and is freely and non-attachably retained;
applying adhesive to said front and rear flaps and folding said front and rear to close said second end of said multi-ply paper tube thereby forming a satchel bottom.
31. The method of forming a multiple ply paper bag with a polymeric liner of claim 30 further comprising the step of:
providing a vent in said channel thereby creating a flow path whereby gaseous material may pass from said receptacle through said discontinuity in said inboard heat seal, pass through said channel through said vent to an environment outside said polymeric liner.
providing a vent in said channel thereby creating a flow path whereby gaseous material may pass from said receptacle through said discontinuity in said inboard heat seal, pass through said channel through said vent to an environment outside said polymeric liner.
32. The method of forming a multiple ply paper bag with a polymeric liner of claim 31 further comprising the step of:
perforating at least one of said front panel and said rear panel of said channel thereby forming a vent.
perforating at least one of said front panel and said rear panel of said channel thereby forming a vent.
33. The method of forming a multiple ply paper bag with a polymeric liner of claim 31 further comprising the step of:
perforating both said front panel and said rear panel of said channel thereby forming a vent.
perforating both said front panel and said rear panel of said channel thereby forming a vent.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US60194404P | 2004-08-16 | 2004-08-16 | |
| US60/601,944 | 2004-08-16 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA2515934A1 true CA2515934A1 (en) | 2006-02-16 |
Family
ID=35852098
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA002515934A Abandoned CA2515934A1 (en) | 2004-08-16 | 2005-08-15 | Transversely sealed container |
Country Status (2)
| Country | Link |
|---|---|
| US (1) | US20060045392A1 (en) |
| CA (1) | CA2515934A1 (en) |
Families Citing this family (30)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2007004273A1 (en) * | 2005-07-01 | 2007-01-11 | Mikio Tanaka | Structure of airflow channel of sealing bag, sealing bag, and method of producing sealing bag |
| JP4101274B2 (en) * | 2006-11-08 | 2008-06-18 | 株式会社マルタカ | Packaging bag material and packaging with handbag using the same |
| US7967509B2 (en) | 2007-06-15 | 2011-06-28 | S.C. Johnson & Son, Inc. | Pouch with a valve |
| US7874731B2 (en) | 2007-06-15 | 2011-01-25 | S.C. Johnson Home Storage, Inc. | Valve for a recloseable container |
| US20090226573A1 (en) * | 2008-03-07 | 2009-09-10 | Alejandro Gonzalez Leon | Package for granular compositions |
| US20090257685A1 (en) * | 2008-04-14 | 2009-10-15 | Illinois Tool Works Inc. | Flexible storage bag with vent between two zipper |
| DE202009003080U1 (en) * | 2009-03-04 | 2009-04-30 | Dy-Pack Verpackungen Gustav Dyckerhoff Gmbh | paper bags |
| US20100243181A1 (en) * | 2009-03-31 | 2010-09-30 | O'connor Patrick J | Vented shower curtain |
| CA2697780A1 (en) * | 2009-12-31 | 2011-06-30 | Emballage Rouville Inc. | Deflatable bag with laterally perforated liner and non-adjacent humidity barrier |
| KR101192691B1 (en) * | 2010-05-25 | 2012-10-19 | 주식회사 뉴랩 | Packing bag |
| US9969529B2 (en) | 2012-02-13 | 2018-05-15 | Polytex Fibers Corporation | Easy open plastic bags |
| US10562689B2 (en) | 2012-02-13 | 2020-02-18 | Polytex Fibers Corporation | Woven plastic bags with features that reduce leakage, breakage and infestations |
| US9669983B2 (en) | 2014-04-04 | 2017-06-06 | Polytex Fibers Corporation | Woven plastic bags with features that reduce leakage, breakage and infestations |
| US9669981B2 (en) | 2012-02-13 | 2017-06-06 | Polytex Fibers Corporation | Easy open plastic bags |
| US10661963B2 (en) | 2014-04-04 | 2020-05-26 | Polytex Fibers Corporation | Peelable easy open plastic bags |
| US9845184B2 (en) | 2012-02-13 | 2017-12-19 | Polytex Fibers Corporation | Easy open plastic bags |
| US11459157B2 (en) | 2012-02-13 | 2022-10-04 | Polytex Fibers Llc | Woven plastic bags with features that reduce leakage, breakage and infestations |
| MY182275A (en) * | 2012-07-13 | 2021-01-18 | Basf Agro B V Arnhem Nl Zurich Branch | Evacuable packaging for insecticide-impregnated nets |
| MX2015004654A (en) | 2012-10-12 | 2016-02-03 | Polytex Fibers Corp | Polymeric bag with easy access features attached to the bag without adhesives. |
| MX2015006383A (en) | 2012-11-20 | 2015-12-03 | Polytex Fibers Corp | Method of sealing a plastic bag and plastic bag made by said method. |
| WO2014116567A1 (en) | 2013-01-22 | 2014-07-31 | Polytex Fibers Corporation | Easy access woven plastic bags |
| US11305927B2 (en) | 2014-04-04 | 2022-04-19 | Polytex Fibers Llc | Easy open plastic bags |
| US11472622B2 (en) | 2014-04-04 | 2022-10-18 | Polytex Fibers Llc | Woven plastic bags with features that reduce leakage, breakage, and infestations |
| US9221584B2 (en) * | 2014-06-02 | 2015-12-29 | Smartland | Cereal bag with crumb collector |
| JP2016055878A (en) * | 2014-09-05 | 2016-04-21 | 東洋自動機株式会社 | Bag with gas channel, and method and device for packaging bag |
| JP2016132481A (en) * | 2015-01-21 | 2016-07-25 | 凸版印刷株式会社 | Rice bag packing material |
| GB2545701A (en) * | 2015-12-22 | 2017-06-28 | Flexipol Packaging Ltd | Sealable bag and method of sealing the same |
| EP3655066A1 (en) * | 2017-07-17 | 2020-05-27 | Baxter International, Inc. | Medical product including pre-filled product bag |
| US20230391529A1 (en) * | 2020-11-05 | 2023-12-07 | Nordson Corporation | Flexible bag dispensing container with vents |
| CA3223444A1 (en) * | 2021-09-27 | 2023-03-30 | Raymond J. Recchia | Multiwall paper packaging structures |
Family Cites Families (32)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US2361344A (en) * | 1941-10-10 | 1944-10-24 | Pneumatic Scale Corp | Vented package |
| US2595708A (en) * | 1948-09-01 | 1952-05-06 | Ivers Lee Co | Vented package |
| US2923456A (en) * | 1956-01-27 | 1960-02-02 | Int Paper Co | Quick-opening pasted multiwall paper bag |
| US2956724A (en) * | 1956-10-25 | 1960-10-18 | Paper Sacks Ltd | Multiply paper bags |
| US2998911A (en) * | 1958-12-01 | 1961-09-05 | Union Bag Camp Paper Corp | Bag opening device |
| US3108881A (en) * | 1959-03-05 | 1963-10-29 | Continental Can Co | Method of packaging food |
| US3149772A (en) * | 1960-12-07 | 1964-09-22 | Technipak Proprietary Ltd | Self sealing sachets or containers |
| US3069066A (en) * | 1960-12-19 | 1962-12-18 | Nat Biscuit Co | Closure means |
| US3133691A (en) * | 1962-10-30 | 1964-05-19 | Nat Distillers Chem Corp | Vent for thermoplastic bag |
| GB1066487A (en) * | 1963-10-07 | 1967-04-26 | Ici Ltd | Vented bags |
| US3302859A (en) * | 1964-12-21 | 1967-02-07 | Bemis Co Inc | Bag |
| US3776451A (en) * | 1965-06-28 | 1973-12-04 | St Regis Paper Co | Gusseted type bags |
| US3309006A (en) * | 1966-02-16 | 1967-03-14 | Bemis Co Inc | Plastic bags |
| DE1935816A1 (en) * | 1968-07-18 | 1970-01-22 | Natro Cellulosa S P A | Valve sack or pouch made of one or more layers or sheets of paper, plastic or synthetic material or another equivalent material |
| FR2512424A1 (en) * | 1981-09-10 | 1983-03-11 | Collet Cafes | VACUUM PACKAGING BAG |
| US4470153A (en) * | 1982-03-08 | 1984-09-04 | St. Regis Paper Company | Multiwall pouch bag with vent strip |
| US4550441A (en) * | 1984-07-18 | 1985-10-29 | St. Regis Paper Company | Vented bag |
| US4834554A (en) * | 1987-11-16 | 1989-05-30 | J. C. Brock Corp. | Plastic bag with integral venting structure |
| GB9121002D0 (en) * | 1991-10-03 | 1991-11-13 | Norsk Hydro As | Improvements in and relating to flexible containers |
| US5393143A (en) * | 1992-08-19 | 1995-02-28 | American Packaging Corporation | Bag and method of making the same |
| US5558441A (en) * | 1994-12-12 | 1996-09-24 | Morrison; Kenneth V. | Receptacle |
| US5553943A (en) * | 1994-12-23 | 1996-09-10 | Bemis Company, Inc. | Multiple ply plastic lined bag with satchel bottom |
| US6126316A (en) * | 1996-09-05 | 2000-10-03 | Bemis Company, Inc. | Automatic self-closing valve closure assembly for valve bags |
| US6491433B2 (en) * | 1997-10-15 | 2002-12-10 | Lyle F. Shabram, Jr. | Bag with venting means |
| US6170985B1 (en) * | 1997-10-15 | 2001-01-09 | Lyle F. Shabram, Jr. | Bag with venting means |
| US6279581B1 (en) * | 1998-06-10 | 2001-08-28 | William D. Knepper | Portable cigar humidor |
| US6265002B1 (en) * | 1998-12-18 | 2001-07-24 | Kustner Industries S.A. | Non-hermetic seal for individually wrapped food items |
| US6074095A (en) * | 1999-02-16 | 2000-06-13 | Bemis Company, Inc. | Four member valve closure assembly for valve bags |
| US6214392B1 (en) * | 1999-03-16 | 2001-04-10 | Cryovac, Inc. | Packaging article with offset vented seal |
| JP2001017379A (en) * | 1999-07-09 | 2001-01-23 | Fuji Photo Film Co Ltd | Fluorescent diagnostic device |
| JP3563024B2 (en) * | 2000-10-12 | 2004-09-08 | 株式会社柏原製袋 | Compression bag |
| ATE308467T1 (en) * | 2001-11-16 | 2005-11-15 | 3M Innovative Properties Co | INFLATABLE PACKAGING SYSTEM |
-
2005
- 2005-08-15 CA CA002515934A patent/CA2515934A1/en not_active Abandoned
- 2005-08-15 US US11/203,703 patent/US20060045392A1/en not_active Abandoned
Also Published As
| Publication number | Publication date |
|---|---|
| US20060045392A1 (en) | 2006-03-02 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CA2515934A1 (en) | Transversely sealed container | |
| US4470153A (en) | Multiwall pouch bag with vent strip | |
| US8142077B2 (en) | Bag structures and methods of assembling the same | |
| US6988828B2 (en) | Closure for containers and reclosable containers including the same | |
| US7731425B2 (en) | Polywoven pinch bottom open mouth bag | |
| US6279297B1 (en) | Process for the production of a hermetic recloseable package of flexible material | |
| US7300207B2 (en) | Closure for containers and reclosable containers including the same | |
| RU2239588C2 (en) | Free-standing vertical bag | |
| US7927015B2 (en) | Plastic bag with overpressure relief | |
| US6883964B2 (en) | Multiwall paper bag | |
| US20100266223A1 (en) | Pinch bottom open mouth bag | |
| RU2065389C1 (en) | Flexible container | |
| US4550441A (en) | Vented bag | |
| US4524460A (en) | Valved sack | |
| US5553943A (en) | Multiple ply plastic lined bag with satchel bottom | |
| US4453270A (en) | Pasted valve stepped end bag | |
| US4685148A (en) | Square ended valve bag | |
| US6623162B2 (en) | Block bottom bag | |
| EP1053184B1 (en) | Close sack with air exhaustion | |
| JP2008155963A (en) | Wound material sheet for pillow-style package with zipper tape | |
| EP0126816A1 (en) | Bags, particularly multiwall bags | |
| AU2001267940B2 (en) | Plastics packaging | |
| AU2001267940A1 (en) | Plastics packaging | |
| JPS61127462A (en) | Vessel made of flexible material | |
| US20140133783A1 (en) | Sift-Resistant Bag |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| FZDE | Discontinued |