CA1288679C - Guide mechanism for bag film having fastener elements and a form, fill and seal packaging apparatus - Google Patents

Abstract

ABSTRACT
An guide mechanism is disclosed for providing uninterrupted guidance of a reclosable bag through a filling station in a form, fill and seal apparatus.
The apparatus includes the guide mechanism which is positioned inside of and between a pair of plies of the bag film for providing uninterrupted guidance of the bag film through the filling station. The guide mechanism includes a first guide for engaging the bottom of the bag film and a second guide for engaging interlocked fastener elements on the opposing plies of the bag film. A separating device is positioned along the path traveled by the bag film for separating the interlocked fastener elements as the bag film is advanced.

Description

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A GUIDE MECHANISM FO~ BAG FILM HAVING FASTENER ELEMENTS
AND A FORM, FILL AND SEAL PACKAGING APPARATUS

This invention relates to a mechanism for guiding a continuous film web of a plastic material having reclosable fastener element~ on respective opposing plies of the film web, and more particularly to a mechanism for guiding and separating the interlocked fastener elements extending along the edges of the film web. The invention also relates to a f`orm, fill and seal packaging apparatus employing the guide mechanism.
Bags of various types have been used for packaging a wide variety of products such as, for example, cereals, cookies~ potato chips and the like.
These bags can serve as the external package for the products, or can be lnserted into boxes a~ a liner for the boxes. When packaging perishable products such as cereal, cookies and potato chips, the bags should be sealed to preserve the product contained therein by preventing the co~mingling of outside air and moisture with the product in the bags.

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Conventional sealed bags (such as most cereal bags and potato chip bags) have se21s which are formed by gluing together or heat sealing together a pair of opposed edges of the bags. One problem with such conventional sealed bags is that they cannot be resealed a~ter being opened. Thus 9 once the bag is opened, the user cannot prevent the unwanted intrusion of outside air and moisture into the bag.
Usually, reclosable bags include a pair of fastener elements (such as a pair of rib and groove profiles), which the user fastens together after opening to thereby effectively seal the contents of the bag from the intrusion of unwanted air and moisture.
One example of such a reclosable or "zippered" bag is the ZIPLOC~ brand food storage bag manufactured by The Dow Chemical Company.
Both conventional and reclosable bags share a common feature in that they are usually formed from a continuous roll of a film web. This film web iq folded over to form a pair of opposing plies forming a generally tubular structure which can be filled with a product. The tubular web is then subdivided transversely into a plurality of individual bags.
Machines for forming and filling such ba~s from a continuous film web are known.
U.S. Patent No. 3,815,317 (Toss) relates to a form, fill and seal apparatus for use with zippered bags. A continuous web of film is fed to the ayparatus. The continuous web has interlocked fastener profiles. The profiles are disengaged, and the film spread apart to remove wrinkles. A pin unlocks the profiles, while a guide device holds the profiles apart. The profiles are rejoined as they are pinched by closlng rolls. The interlocked film is then cross-sealed and filled through the remaining open side. The final seam i~ then sealed and severed to provide the final structure. It should be noted that the mechanisms in the Toss structure which unlock and reclose the profiles do so for the purpose of removing wrinkles or folds from the film. The filling of the bag itself is accomplished through an open side of the bag. During the filling of the bag, the profiles are closed.
U.S. Patent Nos. 4,024,010 and 4,094,729 (Boccia) relate to an apparatus wherein two opposing film layers with interlocking rib and groove profiles on opposing faces are separated so that a heat sealing of the side seams can be accomplished only in those areas where the profiles remain interlocked. A
separating finger opens the interlocked fastener elements. Grooves on the top and bottom of the separating finger are provided for maintaining the profiles elements in alignment.

One difficulty encountered in bag forming, filling and sealing operations resides in maintaining the film web from which the bags are cut in a proper lateral alignment as the film web travels through the machine. This problem is especially acute in the forming, filling and sealing of reclosable bags having fastener elements. The term "bag film" herein denotes a film web having fastener elements positioned along their edges.
Typically, a bag film is wound on a roll in a helical pattern, such that the fastener elements of ~24~ 79 adjacent layers on the roll are offset laterally from each other. The bag film is usually wound on a roll in this manner in order to form a roll havin~ a more constant diameter throughout its width If the bag film were not wound in this helical manner, the extra thickness provided by the fastener elements would cause the ~ag film roll to be much thicker in that area wherein the fastener elements are placed. The helical winding of the bag film makes it difficult, however, to draw the bag film from the roll in a proper lateral alignment for entry into the forming, filling and sealing machine. As the bag film should be properly laterally aligned before the bag film is fed into the machine, means should be provided for laterally aligning the bag film prior to the bag film being fed into the forming, filling and sealing portions of the machine.

It is therefore an object of this invention to provide a guide mechanism for providing uninterrupted guidance of a reclosable bag film having interlocked fastener elements extending along the edges of the film web. The guide mechanism is positioned inside of and between a pair of opposing plies of a folded-over Eilm web for providing uninterrupted guidance of the bag film through a forming station. The guide mechanism comprises a first guide which engages an interior surface of the bag film and a second guide which 3 engages a pair of interlocked fastener elements on the opposing plies of the bag film. A separating means is positioned along the path traveled by the bag film for separating the interlocked fastener elements as the bag film is advanced. A support arm is provided for ~l2~6~7~

supporting the first and second guides and the separating means.
It is a further object of the present invention to provide a form, fill and seal packaging apparatus comprising means for supplying a continuous bag film having reclosable fastener elements on respective opposing plies of the film web, and means for feeding the bag film through a ~illing station for supplying a predetermined amount of a product to the bag film.
Guide means are provided immediately preceding the filling station and positioned inside the bag film for providing uninterrupted guidance of the bag film through the filling station. A separating means precedes the filling station for separating the interlocked fastener elements. The packaging apparatus also includes means for pressing the fastener elements together in an interlocking relationship and means for laterally sealing the bag film to form a bag assembly having first and second side seams. Means are also provided for severing the bag assembly from the filmO
Preferably, the guide means includes a support arm and a bracket member connected to the support arm and disposed between the plies of the film web. A
first guide wheel is rotatably coupled to the bracket member for engaging an interior surface of the bag film, and a second guide wheel is rotatably coupled to the bracket member for engaging the fastener elements.
The separating means can comprise a separating edge which is disposed on the support arm.
Thus, a feature of the present invention is that a guide mechanism is provided which is disposed in the interior of the folded-over plies of the film web between the bottom of the web (i.e~, the bight) and the interlocked fastener elements of the film web. By being plzced inside the film web between the bottom and the interlocked fastener elements. the guide ~echanism can properly laterally align the bag film so that the film is correctly placed for the feeding into the filling portion of the packaging machine.
Another feature of the present invention is that the ~uide mechanism can include a first rotatable guide wheel for engaging the bottom of the film (i.e. 9 the bight) and a second rotatable guide wheel for engaging the fastener elements. The use of guide wheels has the advantage of providing a relatively frictionless engagement (in the direction of the path of travel of the film) between the guide mechanism and the wheel. This relatively frictionless engagement reduces the guide mechanism's drag on the film. This reduction in drag is especially helpful in facilitating high speed packaging processes.
It is also a feature of the present invention that the support arm for supporting the guide mechanism immediately follows the guide wheels, and that the support arm includes the means for separating the interlocked f'astener elements. By positioning the guide wheels so that they precede the separating means, the guide wheels can engage the two opposed, inner surfaces of the bag film. This inner surface engagement of the film has the advantage of providing an effective means for laterally aligning the film.
The placement of the separating means on the support arm serves the dual functions of 1) supporting the guide wheels and 2) disengaging the interlocked ' ' ' ' ' ' ' ' :
' fastener elements to permit the passage of z filling chute between the profiles.
Additional features and advantag~s o~ the present invention will become apparent to Lhose skilled in the art upon consideration of the following detailed description of a preferred embodiment exemplifying the base mode of carrying out the invention as presently perceived.
Figure l is a perspective view of the form, fill and seal packaging apparatus of the present invention;
Figure 2 is a top plan view of the guide mechanism of the present invention;
.i Figure 3 is a side view of the guide mechanism of the present invention; and Figure 4 is an exploded view of the guide mechanism of the present invention.
A form~ fill and seal packaging machine (apparatus) is shown in Figure l. A roll of bag film lo for supplying a continuous web 16 of the film is supported on a spindle 12 which is rotatably journaled on a rack 14 for maintainlng the roll 10 above the ground. The continuous web 16 of film is unwound from the roll 10 and is fed into the packaging apparatus 8.
The web 16 is helica:lly wound onto the roll 10, and as drawn from the roll 10 has a pair of opposed film plies 18, 19. The opposed film plies 18, 19 are continuou.s with each other at the bottom edge 20 (of the finished bag 21) and are interlocked near the top ~L2~ 7 ed~e 22 (o~ the finished bag 21) by fastener elements comprising a ~emale profile 24 which is formed as a part of ply 18 and a male profile 25 which is formed as a part of ply 19. The fastener elements 24, 26 can be 5 similar to the fastener elements found on ZIPLOC~ brand food storage bags manu~actured by The Dow Chemical Company. The fastener elements 24, 26 permit the finished bag 21 to be reclosed after opening.
From the roll 10, the web 16 is drawn upwardly over a roller 28 by a feed mechanism (not shown) which is disposed downstream in the path of travel of the web 16. Although roller 28 is shown as a single roller, it preferably comprises a "dancer roll" system. The web 16 is then drawn through a guide mechanism 30 which includes means for laterally aligning the web 16 and a splitting edge 32 for disengaging the interlocked fastener elements 24, Z6.
An idler roller 36 is disposed direckly downstream of the path of travel of the web 16 from the guide mechanism 30. The idler roller 36 is positioned at about the same vertical height as the guide mechanism 30 and is rotatably journaled on a spindle 38. After the fastener elements 24, 26 have been disengaged by the splitting edge 32, both plies 18, 19 of the web 16 pass over the idler roller 36. Once the web has passed over the idler roller 36, the web 16 travels generally vertically downwardly as indicated by arrow A. Due to the action of the splitting edge 32, the fastener elements 24, 26 are disengaged as the web 16 passes over idler roller 36 and begins its downward travel.

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A slde arm filling station comprising a feed chute 40 is provided for directing a product, such as cereal flakes or pellets 42, into the interior of the bag web 16. The feed chute 40 includes a generally vartically extendin~ upper portion 44, an an~led median portion 46 and a generally vertically extending lower portion 50. The angled portion 46 passes between the diqengaged fastener elements 24, 26 and into the interior of the web 15. The lower portion 50 is disposed ~etween the plies 18, 19 of the web 16.
A steering, joining and closing mechanism 54 for pressing together and reinterlocking the fastener elements 24, 26 of the opposed plies 18, 19 is disposed in the path of travel of the web 16 and is positioned directly downstream of the angled portion 46. More particularly, the mechanism 54 is disposed downstream of that portion of the angled portion 46 of filling chute 40 which passes between the fastener elements 24, 26. Although the mechanism 54 is disposed downstream of the angled portion 46, it is also disposed at the same general point in the direction of travel of the web 16 as a portion of the lower portion 50 of the feed chute 40.
A reciprocally moving 7 generally vertically extending seal forming bar 56 is disposed downstream of the mechanism 54. The bar 56 is provided for forming a temporary "peel seal" 58. In the finished bag 21, the peel seal 58 is formed interiorly of and generally parallel to the fastener elements 24, 26. The peel seal 58 can be unsealed by the user without destroying the integrity of the fini~hed bag 21. The peel seal 58 helps to make the finished bag 21 more tamper resistant. Preferably, the length of the bar 56 is .- , : , ' ' .

approximately equal to the width o~ the fin.ished bag 21.
A reciprocally moving, generally horizontally disposed seal forming means 60 having sealing bars 60a and 6Cb is disposed below the open lower end 62 of the feed chute 40. Preferably, seal ~ormin~ means 60 is disposed at a distance ~rom the open lower end 62 of the fe~d chute 40 which is approximately equal to the width of one ~inished bag 21. Sealing bars 60a and 60b are provided for laterally sealing to~ether the first and second plies 18, 19 to form the side seals of the finished bag 21.
A severing means 66 is disposed between sealing bars 60a and 60b and is provided for severing the intermittently sealed continuous web 16 into individual finished bags 21.
The guide mechanism 30 of the present invent.ion is more clearly shown in Figures 2 to 4. Thé mechanism 30 includes a support arm 74 for supporting the various components of the guide mechanism 30. The support arm 74 can be connected to a portion (not shown) of the form, fill and seal packaging apparatus 8, can be supported by an independent stand tnot shown) or can be formed to include an integral stand (not shown).
The support arm 74 includes a portion 76 disposed exteriorly of the film web, a portion 78 disposed interiorly of the film web 16 and an intermediate portion 80. The intermediate portion 80 is disposed in the path of travel of the fastener elements 24, 26 and passes between the fastener elernents of the film web 16 as the web is advanced.

An upper bracket member 84 and a lower bracket member 86 are attached by screws 87 to the respective upper surface 88 and lower surface 90 ol the interior portion 78 of the support arm 74. The bracket members 84, 86 are disposed in a plane ~enerally parallel to the pli-es 18, 19 of the film web and extend generally upstream in the direction of travel of the web 16 Prom the support arm 74.
The bracket members 84. B6 each include a beveled peripheral lip 92 which extends along the forward and side edges of the bracket members 84~ 86.
The beveled lips 92 facilitate the passage of the plies 18, 19 over the bracket members 84, 86, and reduce the likelihood of the plies 18, 19 becoming snagged on the respective bracket members 84, 86.
Each of the bracket members 84, 86 also include a first rounded forward corner 98 and a second rounded forward corner 100. The rounded corners 98, 100 and the beveled lip 92 combine to form the guide mechanism 30 which is tapered about all web contacting edge peripheries. This dual tapering helps to prevent the plies 18, 19 from becoming snagged on the guide mechanism 30.
A first guide wheel 102 is rotatably journaled on an axle 104 to both the upper and lower bracket members 84, 86 and is di~posed therebetween. The axis about which the first guide wheel 102 rotates is generally perpendicular to the plane of the plies 18, 19 oP the film web 16. The first guide wheel 102 is sized and positioned so that its film engaging surface :

106 engages the bottom 109 of the interior surface o~
the ~ilm web 16.
A second guide wheel 109 is rotatably journaled on an axle 110 to both the upper and lower bracket members 84, 86 and is disposed therebetween. The axis about which the second guide wheel 109 rotates is parallel to the axis about which the first guide wheel 102 rotates~ with both being perpendicular to the plane of the plies 18, 19 of the film web 16. The second guide wheel 109 is sized and positioned so that its film engaging surface 112 engages the interior surface 114 of the fastener elements 24, 26 while they are interlocked. The second guide wheel 109 preferably exerts a sufficient ~orce against the interior surface 114 of the fastener elements Z4, 26 to align the film web 16 properly, without putting enough force on the interior surface 114 of the fastener elements 24, 26 to cause the fastener elements to become disengaged.
The film engaging surfaces 106, 112 of the guide wheels 102, 109 are best shown in Figures 2 and 4 as being beveled ~urfaces each of which include a 2~ relatively larger beveled surface 116 and a relatively smaller right cylindrical surface 116. Although rounded or squared off film engaging surfaces can be used, beveled film engaging sur.faces 106, 112 enhance the performance of the first and second guide wheels 102, 109 and especially enhance the performance of the second guide wheel 109. It has been found that the beveled film engaging surface 112 can exert a relatively greater force against the interior surface 114 of the fastener elements 24, 25 without ~ -12-7~

disengaging the fastener elements than a rounded or squared off ~ilm engaging surface.
The applicants have also found that the best results are obtained by placing the larger surface 115 against the fastener element (female profile) 24. In one testing session, the applicants found that b~
placing the fastener element 24 against the larger be~eled surface 115, the fastener elements 24, 26 could withstand an average of 18.8 pounds of force (84 N) without becoming disengaged. When the fastener element (male profile) 26 was placed against the larger beveled surface 115, the fastener elements could withstand an average of 9~3 pounds of force (41.4 N~ without ~ecoming disengaged. When a rounded film engaging surface (i.e., without guide wheels) (not shown) was employed, the applicants found that the fastener elements 24, 26 could withstand an average of 9.8 pounds of force (43.6 N) without becoming disengaged.
This ability of a beveled film engaging surface to exert increased force helps the guide mechanism 30 to perform its function of laterally aligning the film web 16 without disengaging the fastener elements 24, 26. Although a beveled film engaging surface 106 can be used with the first guide wheel 102, the configuration of the film engaging surface 106 of the first guide wheel 102 is not as important to the performance of the guide mechanism 30 as the configuration of the film engaging surface 112 of the second guide wheel 109. Preferably, the guide wheels 102, 109 are constructed of a material such as stainless steel.

8~ ~'7 In an alternate embodiment ~not shown) the guide wheels 102, 109 can be eliminated and the bracket members 84, 86 can be sized and positioned to serve as a stationary edge means for aligning the film web. In such an embodiment. the first forward corners and sides of the bracket members would engage the bottom 106 of the interior surface of the film, and the second forward corners and sides o~ the bracket ~embers would engage the interior surface 114 of the fastener elements. Similar to bracket members 8~, 86, the bracket members of this alternate embodiment should have a corner and edge configuration which provides the guide mechanism with a forward portion tapered about an axis both parallel and perpendicular to the plane of the plies 18, 19 of the film web 16.
The splitting édge 32 is formed as a part of the intermediate portion 80 of the support arm 74, and comprises the forward edge 118 of the support arm 74 being beveled on its upper and lower surfaces.
Alternatively, the splitting edge 32 can comprise a separable beveled member (not shown) which is mounted to the intermediate portion 80 of the support arm 74.
In operation, the engagement of the first guide wheel 102 with the bottom ~urface 108 of the film web 16 and the engagement oP the film engaging surface 112 of the second guide wheel 109 with the interior surface 114 of the fastener elements 24, 26 cooperate to place the bag film 16 in its proper lateral alignment. The rotatability of the guide wheels 102, 109 performs this lateral alignment with a relatively small amount oP
frictional engagement~ thus reducing the drag of the guide mechanism 30 on the film web 16. After the second guide wheel 109 engages the interlocked fastener ,' ' ,, :
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,-ele~ents 24, 26 to laterally align the film web 16? thefastener elemen~s 24, 2h are advanced to engage the splitting edge 32, whereby they are disengaged.
In thi3 manner, it i5 possible to utilize the interlocked fastener elements 24, 26 to laterally align the film web 16 and to separate the fastener elements after film web 16 has been aligned~ It has been found by applicants that the system described above provides an efficient guiding and splitting mechanism for a forming, filling and sealing apparatus for 7ippered bags.
Having described the invention in detail, and by reference to the preferred embodiments thereof, it will be apparent that modi~ications and variations are possible without departing from the scope of the invention defined in the appended claims.

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Claims (11)

1. A guide mechanism for providing uninterrupted guidance of a reclosable bag having interlocked fastener elements, said guide mechanism being positioned inside of and between a pair of opposing plies of a folded-over web of a bag film for providing uninterrupted guidance of said bag film through 2 forming station, said guide mechanism comprising:
a first guide engaging an interior surface of said bag film and a second guide engaging a pair of interlocked fastener elements on said opposing plies of said bag film, separating means positioned along the path traveled by said bag film for separating said interlocked fastener elements as said bag film is advanced, and a support arm for supporting said first and second guides and said separating means.

2. The mechanism of Claim 1, including a bracket member connected to said support arm, and wherein said first guide and a second guide comprise first and second guide wheels rotatably mounted on said bracket member.

3. The mechanism of Claim 2, wherein said first guide wheel engages an interior surface of said bag film and said second guide wheel has a beveled surface for engaging the interlocked fastener elements on opposing plies of said bag film. said first and second guide wheels having an axis of rotation generally perpendicular to the faces of said bag film.

4. A form, fill and seal packaging apparatus comprising:
means for supplying a continuous plastic bag film in a tubular configuration having interlocked reclosable fastener elements on respective opposing plies of said film;
means for feeding said film through a filling station for supplying a predetermined amount of product to said bag film;
a guide mechanism immediately preceding said filling station and positioned inside said bag film for providing uninterrupted guidance of said film through said filling station, said guide mechanism comprising:
a separating means for separating said fastener elements, a support arm for supporting said guide mechanism and said separating means;
means downstream of said filling station for pressing said fastener elements together in an interlocking relationship;
means for laterally sealing said bag film to form a bag assembly having first and second side seams;
and means for severing said bag assembly from said bag film.

5. The invention of Claim 4, wherein said guide mechanism includes a first edge means for engaging an interior surface of said bag film opposite said fastener elements and a second edge means for engaging said fastener elements.

6. The apparatus of Claim 5, wherein said first and second edge means comprise first and second stationary edge means, each having a tapered forward portion.

7. The apparatus of Claim 5, wherein said first edge means comprises a first guide wheel having an axis generally perpendicular to the plane of the bag film, and said second edge means comprises a second guide wheel having an axis generally perpendicular to the plane of said film.

8. The apparatus of Claim 6, wherein said first guide wheel engages an interior surface of said bag film and a second guide wheel engages said fastener elements, said second guide wheel having a beveled fastener element engaging surface.

9. The apparatus of Claim 8, wherein said support arm immediately follows said guide wheels and includes said separating means extending between the fastener elements and a bracket member connected to said support arm for rotatably supporting said guide wheels.

10. The apparatus of Claim 7, wherein said first and second guide wheels each include a beveled surface having an axis generally perpendicular to the plane of the bag film.

11. The apparatus of Claim 1, wherein said separating means comprises a separating edge disposed on said support arm and wherein the first and second guide wheels are positioned to immediately precede said separating edge, and wherein said separating means is disposed on said support arm.