This invention relates generally to flexible packages and more particularly to flexible packages including a one way degassing or pressure equalizing valve, which due to the construction of the package is resistant to clogging and methods of making such packages.
This invention relates generally to flexible packages, and more particularly to flexible packages for holding products in a hermetically sealed condition, e.g., isolated from the ambient atmosphere, while allowing air and other gases to escape from the package, thereby de-pressuring and reducing internal volume.
As is well known the major advantages of flexible packaging, as compared to relatively rigid packaging, e.g., cartons, are that until the flexible package is filled it takes up very little volume, and after it is emptied of its contents it readily collapses, thereby reducing its volume to approximately that of the unfilled package. The former characteristic is a significant advantage insofar as storage is concerned, while the latter characteristic is a significant advantage from the standpoint of disposability. One common type of flexible package for holding goods under vacuum until the package is opened is the so-called “gusseted” package or bag. Typically, such a package is formed from a web of flexible stock material, e.g., polyethylene, polyester, polypropylene, metal foil, and combinations thereof in single or multiple plies, into a tubular body, having a face panel, a back panel, and a pair of gusseted sides. Each gusseted side is formed by a pair of gusset sections and a central fold edge interposed between a pair of outer fold edges. The lower end of the bag is commonly permanently sealed, e.g., heat sealed, along a line extending transversely across the width of the bag close to its bottom edge. The top of the bag is commonly sealed transversely across the entire width of the bag in a number of ways to maintain the contents under hermetic seal until the bag is opened.
Various types of flexible packages for holding dry goods, powders or other particulate materials under hermetic conditions have been disclosed in the patent literature and are commercially available today. Examples of such packages are found in the following U.S. Pat. Nos. 4,359,467 4,310,118, 4,576,285, and 4,913,561. During the bag filling process, air is typically entrapped within the sealed bag, making the incorporation of a one-way degassing valve into an area of a wall of the bag advantageous. Air trapped within a sealed flexible package can produce breakage when bags are palletized or dropped in the absence of a degassing or pressure relief valve. Furthermore, some packaged products off-gas (degas), requiring a pressure relief valve to allow the gasses produced over time after the packaging process to escape. The one-way valve enables those gases to escape while preventing environmental air ingress. Thus, it is a common practice to incorporate one-way degassing valves in hermetically sealed, flexible packages to enable any gasses trapped during the sealing process or produced by the particulate material within the package to exit from the package, while preventing air from entering into the package through the valve. Examples of such one-way degassing valves are shown in U.S. Pat. Nos. 3,595,467, 3,799,427 4,420,015, and 4,444,219.
A long known problem with the use of one-way degassing valves for packaged dry goods is the potential for clogging the valve with fines, powders or dust (particulates) of the product enclosed in the package. The particulates can travel with the air moving toward and through the valve, thereby fouling the valve seal mechanism by either clogging the path of entrained gas escaping, or by holding the path open to allow environmental air to reenter the package. Several means of preventing this clogging have been disclosed in the prior art. They most commonly use filter media or valve construction details to separate air from particulate, but can be expensive, unreliable or allow clogging to continue with extremely small particulate size materials. Further improvements to prevent fine powders, particulates and other packaged goods from clogging one-way degassing valves are disclosed in U.S. Pat. Nos. 4,890,637, 5,547,694, 5,927,336, 6,070,728, and 7,972,064.
While the aforementioned packages may be generally suitable for their intended purposes, they suffer from one or more drawbacks, e.g., effectiveness, simplicity and ease of construction, cost. The subject invention addresses the needs of the prior art.
One aspect of this invention is a flexible package for holding a particulate material therein. The package basically comprises a one-way degassing or pressure equalizing valve and a bag. The bag has a top portion, a bottom portion, a first side, an oppositely disposed second side, and a longitudinally extending axis. The bag is formed of a flexible sheet material comprising a front panel, a rear panel, a top transverse seal line, a bottom transverse seal line, and an intermediate seal line. The top transverse seal line is located in the top portion of the bag. The bottom transverse seal line is located in the bottom portion of the bag. The intermediate seal line is located between the top transverse seal line and the bottom transverse seal line. The panels of the bag between the bottom transverse seal line and the intermediate seal line form a compartment configured for receipt of the particulate material therein. The panels of the bag between the intermediate seal line and the top transverse seal line form a vent space in which the valve is located. The valve is in communication with the vent space and the ambient atmosphere outside of the bag. The intermediate seal line comprises a central section, a first end section and a second end section. The central section has a length extending transversely with respect to the longitudinal axis and has a first end. The first end section has a first length. The first end section forms an extension of the central section from the first end of the central section. The second end section has a second length. The second end section forms an extension of the central section from the first end of the central section and extends at an acute angle to the longitudinal axis. The central section secures the panels together along the length of the central section. The first end section secures the panels together along the first length except for a short gap in the first end section at which the panels are unsecured to each other. The second end section secures the panels together along the second length except for a short gap in the second end section at which the panels are unsecured to each other. The gaps form a tortuous path configured to enable gas to flow therethrough from the compartment to the vent space while reducing the chances of the particulate material gaining access to the valve.
In accordance with one aspect of the package of this invention the first end section is collinear with the central section.
In accordance with another aspect of the package of this invention the second end section extends at an acute angle to the longitudinal axis.
In accordance with another aspect of the package of this invention the intermediate seal line additionally comprises a third end section. The third end section has a third length and forms an extension of the central section from the first end of the central section. The third end section extends at an acute angle to the longitudinal axis. The bag is a gusseted bag having a first gusseted side panel secured between the front panel and the rear panel at the first side by a pair of outer fold edges. The first gusseted side panel comprises a front gusset section and a rear gusset section connected to each other by an inner fold edge located between the outer fold edges, wherein the first end section secures the front panel to the front gusset section along the first length of the first end section except for the short gap at which the front panel is unsecured to the front gusset section. The first end section also secures the rear panel to the rear gusset section along the first length of the first end section except for a short gap at which the rear panel is unsecured to the rear gusset section. The second end section secures the front panel to the front gusset section along the second length of the second end section except for the short gap at which the front panel is unsecured to the front gusset section. The second end section also secures the rear panel to the rear gusset section along the second length of the second end section except for a short gap at which the rear panel is unsecured to the rear gusset section.
In accordance with another aspect of the package of this invention the panels include respective inner surfaces which are heat sealed to each other along the intermediate seal line except where the gaps are located.
In accordance with another aspect of the package of this invention the front panel, the rear panel and the first gusseted side panel each include respective inner surfaces which are heat sealed to each other along the intermediate seal line.
In accordance with another aspect of the package of this invention the panels each include respective inner surfaces and wherein the intermediate seal line includes peelable coating areas on the inner surfaces at the location of the gaps, whereupon internal pressure generated within the bag causes the peelable coating areas to break to thereby create the gaps.
In accordance with another aspect of the package of this invention the front panel, the rear panel and the first gusseted side panel each include respective inner surfaces and wherein the intermediate seal line includes peelable coating areas on the inner surfaces at the location of the gaps, whereupon internal pressure generated within the bag causes the peelable coating areas to break to thereby create the gaps.
In accordance with another aspect of the package of this invention the package additionally comprises a second gusseted side panel secured between the front panel and the rear panel at the second side by a second pair of outer fold edges. The second gusseted side panel is constructed similarly to the first gusseted side panel.
In accordance with another aspect of the package of this invention the package additionally comprises a filter located within the vent space and configured to prevent any particulate material which enters the vent space from gaining ingress into the valve.
Another aspect of this invention entails a method of making a flexible package for holding a particulate material therein. The method comprises providing a bag having a top portion, a bottom portion, a first side and an oppositely disposed second side. The bag is formed of a flexible sheet material comprising a front panel, a rear panel. A one-way degassing or pressure equalizing valve is applied to one of the front and a rear panels. A top transverse seal line is formed across the bag at the top portion thereof. A bottom transverse seal line is formed across the bag at the bottom portion thereon. An intermediate seal line is formed between the top transverse seal line and the bottom transverse seal line, The panels of the bag between the bottom transverse seal line and the intermediate seal line form a compartment configured for receipt of the particulate material therein, The panels of the bag between the intermediate seal line and the top transverse seal line form a vent space. The valve is in communication with the vent space, the intermediate seal line comprises a central section, a first end section and a second end section. The central section has a length extending transversely with respect to the longitudinal axis and has a first end. The first end section has a first length. The first end section forms an extension of the central section from the first end of the central section. The second end section has a second length. The second end section forms an extension of the central section from the first end of the central section and extends at an acute angle to the longitudinal axis. The central section secures the panels together along the length of the central section. The first end section secures the panels together along the first length except for a short gap in the first end section at which the panels are unsecured to each other. The second end section secures the panels together along the second length except for a short gap in the second end section at which the panels are unsecured to each other. The compartment is filled with the particulate material. The gaps form a tortuous path configured to enable gas to flow therethrough from the particulate material in the compartment to the vent space while reducing the chances of the particulate material gaining access to the valve.
In accordance with one aspect of the method of this invention the first end section is collinear with the central section.
In accordance with another aspect of the method of this invention the second end section extends at an acute angle to the longitudinal axis.
In accordance with another aspect of the method of this invention the intermediate seal line additionally comprises a third end section. The third end section has a third length and forms an extension of the central section from the first end of the central section. The third end section extends at an acute angle to the longitudinal axis. The bag is a gusseted bag having a first gusseted side panel secured between the front panel and the rear panel at the first side by a pair of outer fold edges. The first gusseted side panel comprises a front gusset section and a rear gusset section connected to each other by an inner fold edge located between the outer fold edges. The first end section secures the front panel to the front gusset section along the first length of the first end section except for the short gap at which the front panel is unsecured to the front gusset section. The first end section also secures the rear panel to the rear gusset section along the first length of the first end section except for a short gap at which the rear panel is unsecured to the rear gusset section. The second end section secures the front panel to the front gusset section along the second length of the second end section except for the short gap at which the front panel is unsecured to the front gusset section. The second end section also secures the rear panel to the rear gusset section along the second length of the second end section except for a short gap at which the rear panel is unsecured to the rear gusset section.
In accordance with another aspect of the method of this invention the front panel, and the rear panel each include respective inner surfaces which are heat sealed to each other along the intermediate seal line by a heated sealing bar.
In accordance with another aspect of the method of this invention the sealing bar has a width that extends beyond the outer fold edges of the bag to form the gaps inward of the outer fold edges and with each of the gaps being of a predetermined width.
In accordance with another aspect of the method of this invention the front panel and the rear panel each include respective inner surfaces and wherein the intermediate seal line includes peelable coating areas on the inner surfaces at the location of the gaps, whereupon internal pressure generated within the bag causes the peelable coating areas to break to thereby create the gaps.
In accordance with another aspect of the method of this invention a filter is provided in the vent space and over the valve to prevent any particulate material which enters the vent space from gaining ingress into the valve.
The invention will be described in conjunction with the following drawings in which like reference numerals designate like elements and wherein:
Referring now to the various figures of the drawing wherein like reference characters refer to like parts, there is shown in
As will be described in detail later the preferred embodiment of the invention the bag includes a least one intermediately located transverse seal which produces a tortuous path between the compartment 26 and the valve 22. That transverse seal incorporates discontinuities or gaps resulting in a tortuous path separating gas from particulate within the package. The intermediately located transverse seal with its gaps is especially effective and easily accomplished in gusseted bag construction, but can be accomplished in other types of bags. In any case, by placing small discontinuities or gaps in the seal lines made in constructing the bag from film or laminate, a tortuous path can be established, within which gasses flow to the valve 22 to escape the interior 26 of the package, while particulates rebound within the tortuous path and separate or precipitate out from the gas flow before reaching the valve. Those discontinuities or gaps can be located in a plurality of different areas and can be of different dimensions and shapes to establish the tortuous path. Consequently, the heat seal bars or other means used to make the heat seal lines establishing the tortuous path may also use a plurality of different sizes, shapes and dimensions to establish the tortuous path.
Turning now to
The first gusseted side panel 40 is located between and connected to the front panel 36 and the rear panel 38 at the first side 32 by a front outer fold edge 46 and a rear outer fold edge 48. The first gusseted side panel 40 comprises a front gusset section 50 and a rear gusset section 52 connected to each other by an inner fold edge 54 located centrally between the outer fold edges 46 and 48. The second gusseted side panel 42 is located between and connected to the front panel 36 and the rear panel 38 at the second side 34 by a front outer fold edge 56 and a rear outer fold edge 58. The second gusseted side panel comprises a front gusset section 60 and a rear gusset section 62 connected to each other by an inner fold edge 64 located centrally between the outer fold edges 56 and 58.
A top transversely extending seal line 66 is located within the top portion 28 of the bag, e.g., it extends across the top edge of the bag. The seal line 66 serves to seal the front, rear and gusseted side panels to each other to thereby close off the top of the bag. The seal line 66 can be created by various means, e.g., use of a heated sealing bar. If desired, a layer of a hot melt adhesive (not shown), or some other adhesive securement means, can be interposed between the outer surface of the front gusset section 50 and the rear gusset section 52 of the first gusseted side panel 40 at the top transversely extending seal line 66 to hold those gusset sections in engagement with each other. In a similar manner a layer of a hot melt adhesive (not shown), or some other adhesive securement means, can be interposed between the outer surface of the front gusset section 60 and the rear gusset section 62 of the second gusseted side panel 42 at the top transversely extending seal line 66 to hold those gusset sections in engagement with each other.
A bottom transversely extending seal line 68 (
An intermediate seal line 70 extends across the bag 24 between the top transverse seal line 68 and the bottom transverse seal line 68, but located closer to the top transverse seal line. The panels 36, 38, 40, and 42 of the bag between the bottom transverse seal line 68 and the intermediate seal line 70 form the interior or compartment 26 of the package, which as mentioned above is configured for receipt of the particulate material 10 therein. The panels 36, 38, 40, and 42 of the bag between the intermediate seal line 70 and the top transverse seal line 66 form a vent space 72 in which the valve 22 is located, e.g., the valve is mounted centered in the front panel 36 in the vent space so that the inlet port of the valve is in fluid communication with the vent space 72. The outlet of the valve is in fluid communication with plural apertures 22A in the panel 36 and hence in fluid communication with the ambient atmosphere outside of the package.
As best seen in
Turning now to
As should be appreciated by those skilled in the art the intermediate seal line 70 with the gaps therein form a tortuous path between the compartment 26 and the vent space 72. Accordingly, gas can flow through the tortuous path from the compartment 26 to the vent space 72, as shown by the curved broken line arrows in
The formation of the intermediate seal line 70 can be accomplished by any suitable means, e.g., the application of a heated sealing bar to the flexible material making up the bag, whereupon the portions of the inner surfaces of the panels under the heat sealing bar fuse together.
As best seen in
As mentioned earlier previous solutions to prevent clogging of valves in flexible packaging have used filter media covering the valve and small sized passageways within the body of the valve to capture small particulate. These can be difficult or expensive to produce and often provide insufficient protection from small sized or large volumes of particulate contained in the bag. However, the packages of the subject invention by making use of a tortuous path within the seal lines of the package, internal gasses are free to travel to the valve, while particulates are captured in the path with no modifications or extra costs incurred to filter escaping gasses or protect the valve sealing surface. Moreover, by locating the discontinuities or gaps of the seal bar within the registration of the bag width as it travels down the production line, including tolerances for cross-web movement, and extending the seal bars beyond the edges of the bag, a uniform discontinuity (gap) width can be maintained.
In
Turning now to
As should be appreciated by those skilled in the art the various seal lines with the gaps therein of the package 220 form a tortuous path between the compartment 26 and the vent space 72. Accordingly, gas can flow through the tortuous path from the compartment 26 to the vent space 72, as shown by the curved broken line arrows in
As also mentioned earlier, the subject invention could also be used in flat pouches (or non-gusseted bags) where diagonal miter seals that provide strength and bag forming advantages in a gusseted bag, are included solely to create a tortuous path in a flat pouch bag. Thus, while the invention has been described in detail and with reference to specific examples thereof, it will be apparent to one skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope thereof.
This application claims priority from provisional application Ser. No. 62/432,135, filed on Dec. 9, 2016, entitled Flexible Packages With Clog Resistant Degassing Valve And Methods Of Making The Same, which application is assigned to the same assignee as the subject invention and whose disclosure is specifically incorporated by reference herein.
Number | Name | Date | Kind |
---|---|---|---|
3595467 | Goglio | Jul 1971 | A |
3799427 | Goglio | Mar 1974 | A |
4310118 | Kisida et al. | Jan 1982 | A |
4359467 | Vorbruggen et al. | Nov 1982 | A |
4420015 | Blaser | Dec 1983 | A |
4444219 | Hollenstein | Apr 1984 | A |
4576285 | Goglio | Mar 1986 | A |
4890637 | Lamparter | Jan 1990 | A |
4913561 | Beer | Apr 1990 | A |
5060803 | Beer et al. | Oct 1991 | A |
5547694 | Perry et al. | Aug 1996 | A |
5927336 | Tanaka et al. | Jul 1999 | A |
6070728 | Overby et al. | Jun 2000 | A |
7040483 | Inuzuka | May 2006 | B2 |
7972064 | Anderson | Jul 2011 | B2 |
20050031229 | Tang | Feb 2005 | A1 |
20090226573 | Leon et al. | Sep 2009 | A1 |
Number | Date | Country |
---|---|---|
1067058 | Jan 2001 | EP |
1650139 | Apr 2006 | EP |
2014009527 | Jan 2014 | WO |
Entry |
---|
International Search Report for PCT/US2017/064611 dated Apr. 10, 2018. |
Number | Date | Country | |
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20180162623 A1 | Jun 2018 | US |
Number | Date | Country | |
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62432135 | Dec 2016 | US |