Not applicable
Not applicable
A discharge spout is provided for a bulk bag. The spout is rolled into a closed position and retained by one or more couplers and/or covers releasably coupled across the rolled spout, e.g., by adhesion or heat sealing or fusing. The couplers for retaining the rolled spout may be knot-free. A cover extending from one body side, across a bottom and rolled spout, to an opposing body side, can provide additional support and strength to the bag and provide a flatter bottom surface for the bag.
Many industries exist in which large quantities of materials or products must be contained and transported. Such materials or products can be free-flowing, making it necessary to fully support the entire volume of the materials or products. Industries that deal with storing and transporting such dry, flowable products, e.g., sand, fertilizer, granules of plastic, powdered chemicals, carbon black, grains and food products use what are known as flexible intermediate bulk containers, also known as bulk bags, industrial bags, or big bags. The bags are generally made from flexible fabric, typically woven polypropylene or polyethylene. The bags can be assembled from multiple pieces of flexible fabric, and sewn together at stitched joints. Some bags use heat fusion to created joints instead of stitched seams, and reference is made to the following published patent applications of the same inventors, each of which is incorporated herein by reference, for further detail: WO2014/197728, published on Dec. 11, 2014; US2014/0363106, published on Dec. 11, 2014; WO2014/197727, published on Dec. 11, 2014; and US2014/0360669, published on Dec. 11, 2014.
Prior art methods of preventing discharge of material through a discharge spout typically include ropes or other tie straps, or cords to close off discharge spouts. When it comes time to release material contained in the bag, such discharge spouts are opened via untying the rope tie, strap, or cord, or by cutting the tie or rope or strap or cord, for example.
At some point during use of the bulk bag, the contained material must be discharged from the bag.
Knots in any ties, straps or ropes closing off a discharge spout must be untied while under pressure from the materials contained in the bag and such pressure, generally makes knots difficult to untie; the knots often tangle or do not slip open properly. If the knots do not untie properly, the operator must reach under the bag, typically with both hands to untie the knots. Due to the weight of the materials above the knots, the operator is quite often unable to untie the knots. Further, such an effort requires the operator to expose the operator's head, shoulders, and arms underneath the large volume of materials within the bag. The downward forces being applied by the operator to untie the knots increase the risk of unpredictable discharge, or the bag dropping. If the operator cuts the knots to release the materials, then loose pieces of tie can fall into and mix with the materials, causing expensive contamination of the materials or damage to the conveying equipment.
Additionally, although prior art methods of tying off a discharge tube can prevent discharge of all the materials in the bulk bag, some of the materials often leak or sift out the point of closure with the tie.
Prior art discharge tubes also typically are bunched up or folded to one side, during filling of a bulk bag with materials, resulting in a bottom surface of a bulk bag that is not flat and can cause leaning of a bulk bag during transport.
There is thus a need in the art for a discharge assembly that effectively closes off or seals a discharge tube or spout on a bulk bag while it is containing materials, but which enables quick and effective discharge of the materials without risk of contaminating the materials, damaging the equipment, or injuring an operator.
There is also a need in the art for a discharge assembly that helps provide a flatter surface for a bulk bag to rest upon during transport.
One or more embodiments of the apparatus and method of the present invention(s) comprises a discharge assembly for use with a flexible bag, e.g., a bulk bag, comprising a discharge spout coupled to a bottom panel of the bag, wherein the discharge spout is configured to be rolled. A releasable flexible fabric tape or tie preferably secures the discharge spout in rolled configuration to the bottom panel to define a closed configuration for the discharge spout. In the closed configuration, material contents of the bag are contained within the bag. When contents of the bag are ready to be discharged, releasing the tape or tie causes the discharge spout to unroll and materials contained in the bag will flow therethrough. A discharge tube cover can also be provided that extends across the bottom panel and discharge tube. The discharge tube cover helps provide a flatter surface for the bag to rest upon, provides another level of closure to help prevent material contents of the bag from leaking, and can provide additional support and strength to the bag.
In various embodiments a discharge assembly includes a tied off discharge spout and a discharge tube cover.
One or more embodiments include a flexible bag comprising: a body including a bottom panel, and a discharge assembly comprising: a discharge spout coupled to the bottom panel; and a releasable discharge spout coupler coupled to the bottom panel; wherein the discharge spout is configured to be rolled, and the releasable discharge spout coupler is configured to be releasably coupled across and to the discharge spout to maintain a rolled position against the bottom panel.
In various embodiments, the discharge assembly further comprises a cover releasably attachable to the bottom panel across the rolled discharge spout and the releasable discharge spout coupler.
In various embodiments, the releasable discharge spout coupler is knot-free.
In various embodiments, the releasable discharge spout coupler includes an adhesive which releasably secures the discharge spout in a rolled position against the bottom panel.
In various embodiments, the releasable discharge spout coupler coupled to the bottom of the bag and rolled layers prevents release of bulk material from the bag.
Additional embodiments include a flexible bag comprising, a body including a bottom panel; and a discharge portion on the bottom panel, the discharge portion having a closed configuration and an open configuration; the closed configuration of the discharge portion having a plurality of rolled layers releasably secured against the bottom panel of the bag, wherein the plurality of rolled layers secured against the bottom panel prevents discharge of any material in the flexible bag through the discharge portion.
In various embodiments, the plurality of rolled layers are releasably secured against the bottom panel with a releasable coupler positioned on the bottom panel and extending to the plurality of rolled layers in the closed configuration.
In various embodiments, the releasable coupler is positioned on the bottom panel so that it is accessible for removing from the bottom panel without standing under the bottom panel.
In various embodiments, the releasable coupler is releasable from the bottom panel by pulling.
In various embodiments, the releasable coupler is releasable from the bottom panel without untying.
In various embodiments, the discharge portion in an open configuration is not rolled.
In various embodiments, the body has an interior and wherein the discharge portion is in communication with the interior of the body.
In various embodiments, changing the state of the closed configuration to the open configuration is effected by releasing the discharge coupler so that the rolled layers unroll.
In various embodiments, a discharge spout cover is releasably attachable to the bag, said discharge spout cover extending across the rolled discharge portion.
In various embodiments, the discharge spout cover extends from a first body side, across the bottom of the bag and over the rolled discharge portion to a second body side, the cover having a first fold location at which the cover extends across a first bottom edge to the first body side and a second fold location at which the cover extends across a second bottom edge to the second body side, and wherein a distance between the first and second fold locations of the discharge spout cover is shorter than a length of the bottom between the first and second bottom edges.
In various embodiments, the distance between the first and second fold locations is one to two inches shorter than the length of the bottom between the first and second bottom edges.
In various embodiments, the cover coupled to the bag across the discharge portion provides a substantially flat bottom surface for the bag, wherein attachment of the cover causes the rolled discharge portion to push up against the bottom of the bag and raise a portion of the bottom of the bag.
In various embodiments, the cover increases the strength of the bag over 50%.
In various embodiments, the discharge assembly in the closed configuration is configured to prevent discharge of 1 to 2 tons of bulk material, or over 200 pounds of bulk material contained in the bag.
In various embodiments, the releasable coupler prevents discharge of 1 to 2 tons of bulk material.
One or more embodiments of the method invention include a method of containing and/or discharging material from a flexible bag comprising:
Various embodiments of the method further comprise providing a discharge spout cover releasably attachable to the bag, which extends across the rolled discharge portion and bottom of the bag.
In various embodiments of the method, the cover is positioned on the bag so that it extends from a first body side of the bag across the bottom of the bag and over the rolled discharge portion to a second body side of the bag, wherein the cover has a first fold location at which the first cover extends across a first bottom edge to the first body side and a second fold location at which the cover extends across a second bottom edge to the second body side, wherein a distance between the first and second fold locations is shorter than a length of the bottom between the first and second bottom edges.
In various embodiments of the method, the cover is positioned on the bag so that the distance between the first and second fold locations is one to two inches shorter than the length of the bottom between the first and second bottom edges.
One or more embodiments of flexible bag with a discharge assembly include: a body including a bottom panel; a discharge portion; and a discharge cover extending across the discharge portion and bottom panel, the discharge portion configured to increase the strength of the bag by at least 50%.
One or more embodiments of flexible bag with a discharge assembly include: a body including a bottom panel; a discharge portion; and a discharge cover extending across the discharge portion and bottom panel, the discharge portion configured to increase the strength of the bag up to over 50%.
One or more embodiments of flexible bag with a discharge assembly include: a body including a bottom panel; a discharge portion; and a discharge cover extending across the discharge portion and bottom panel, the discharge portion configured to increase the strength of the bag from 1% to over 50%.
One or more embodiments of flexible bag with a discharge assembly include: a body including a first body side and a second body side; a bottom including a first bottom edge and a second bottom edge; a discharge portion; and a discharge cover extending from the first body side, across the bottom of the bag and over the discharge portion to the second body side, the discharge cover having a first fold location at which the cover extends across the first bottom edge to the first body side and a second fold location at which the cover extends across the second bottom edge to the second body side, and wherein a distance between the first and second fold locations of the cover is shorter than a length of the bottom between the first and second bottom edges.
In various embodiments, the distance between the first and second fold locations is one to two inches shorter than the length of the bottom between the first and second bottom edges.
In various embodiments, the cover coupled to the bag across the discharge portion provides a substantially flat bottom surface for a filled bag, wherein when the bag is in a position to be filled the cover is under the discharge portion and the cover provides a surface for making contact with another surface, the cover causing the discharge portion to push up against the bottom of the bag and raising a portion of the bottom of the bag.
In various embodiments, the discharge portion includes a closed configuration wherein the discharge portion is closed off via a tie or strap that is wrapped around, or tied around the discharge portion.
In various embodiments, the discharge portion includes a closed configuration wherein the discharge portion is rolled towards a bottom of the bag to provide a plurality of rolled layers and wherein the rolled layers are coupled to the bottom of the bag with a releasable coupler.
In various embodiments, the discharge portion includes a closed configuration wherein the discharge portion is closed off via a tie or strap that is wrapped around, or tied around the discharge portion, and wherein the cover pushes the discharge portion up against the bottom of the bag while the discharge portion is in the closed configuration.
In various embodiments, the discharge portion includes a closed configuration wherein the discharge portion is rolled towards a bottom of the bag to provide a plurality of rolled layers, wherein the rolled layers are coupled to the bottom of the bag with a releasable coupler, and wherein the cover pushes the discharge portion up against the bottom of the bag while the discharge portion is in the closed configuration.
In one or more embodiments, a discharge assembly of the present invention comprises a discharge tube configured to be rolled, the discharge tube coupled to a bottom of a bag and in communication with an interior of the bag, the discharge tube having a closed configuration and an open configuration, wherein in the closed configuration the discharge tube is rolled towards the bottom of the bag, and wherein a releasable coupler couples the discharge tube to the bag bottom, and wherein in the open configuration, the discharge tube is not rolled.
In various embodiments to effect change from a closed configuration to an open configuration the releasable coupler is removed to release the rolled discharge tube from the bottom of the bag.
In various embodiments to effect change from an open configuration to a closed configuration, the discharge tube is rolled up towards the bottom of the bag.
In various embodiments to effect change from an open configuration to a closed configuration, the discharge tube is rolled up towards the bottom of the bag and coupled the bag with a releasable coupler.
In various embodiments the releasable coupler couples the rolled discharge tube to the bag bottom via an adhesive.
In various embodiments the releasable coupler couples the rolled discharge tube to the bag bottom via heat fusion.
In various embodiments, a cover is provided extending from one bag body or intermediate panel side, across the bag bottom and rolled discharge tube, to an opposing bag body or intermediate side.
One or more embodiments of a discharge assembly include a discharge tube that can be rolled, or tied to effect a closed configuration, and a cover extending from one bag body or intermediate panel side, across the bag bottom and closed discharge tube, to an opposing bag body or intermediate side.
For a further understanding of the nature, objects, and advantages of the present invention, reference should be had to the following detailed description, read in conjunction with the following drawings, wherein like reference numerals denote like elements and wherein:
In the drawings and description that follow, like parts are typically marked throughout the specification and drawings with the same reference numerals. The drawing figures are not necessarily to scale. Certain features of the disclosed embodiments may be shown exaggerated in scale or in somewhat schematic form and some details of conventional elements may not be shown in the interest of clarity and conciseness. The present disclosure is susceptible to embodiments of different forms. Specific embodiments are described in detail and are shown in the drawings, with the understanding that the present disclosure is to be considered an exemplification of the principles of the disclosure, and is not intended to limit the disclosure to that illustrated and described herein.
It is to be fully recognized that the different teachings of the embodiments discussed below may be employed separately or in any suitable combination to produce desired results.
Unless otherwise specified, in the following discussion and in the claims, the terms “including” and “comprising” are used in an open-ended fashion, and thus should be interpreted to mean “including, but not limited to . . . ”.
Any use of any form of the terms “connect”, “engage”, “couple”, “attach”, or any other term describing an interaction between elements is not meant to limit the interaction to direct interaction between the elements and may also include indirect interaction between the elements described. The various characteristics mentioned above, as well as other features and characteristics described in more detail below, will be readily apparent to those skilled in the art upon reading the following detailed description of the embodiments, and by referring to the accompanying drawings.
The bag 10 can be filled with materials by gravity, for example, fed through a top spout 36. The top spout 36 can be coupled to an upper portion 37 at a seam or joint 41, which may be sewn, heat fused or heat sealed, or connected by other means. The upper portion 37 can be coupled to an intermediate portion 38 at another joint or seam 41. (Unless otherwise noted, all joints or seams 41 can be sewn, heat fused, or connected by other means as discussed above). At a lower end of the intermediate portion 38, a lower portion 39 can be coupled at another joint or seam 41. Finally, at a lower end of the lower portion 39, a bottom or discharge spout 40 can be coupled at another joint or seam 41. Various inner and outer surfaces of the bulk bag 10 and its components as described above may include a coating or lamination 19. The coating or lamination can be a standard polypropylene fabric coating (e.g., a coatings comprising a majority percentage of polypropylene and a small percentage of polyethylene) or a standard polyethylene fabric coating (e.g., a coating comprising polyethylene, or a mixture of polyethylene and other additives).
In bags including heat fused joints or seams, some surfaces of a bulk bag 10 as described herein and its components preferably include a fusion coating which may be used in bonding, while other surfaces include a standard polypropylene fabric coating or standard polyethylene fabric coating (depending on whether the bag fabric is polyethylene or polypropylene). A fabric piece with a heat fusion coating facing another fabric piece with a heat fusion coating can be joined to form a joint 41 by adding heat and pressure. A fabric piece with a heat fusion coating facing a fabric piece with a standard polypropylene fabric coating for example, can also be joined to form a joint 41 by applying heat and pressure. Reference is made to patent publication numbers WO2014/197728, US2014/0363106, WO2014/197727, and US2014/0360669, incorporated herein by reference.
A fusion coating preferably comprises propylene based elastomers, propylene based plastomers or a combination thereof. More preferably, the coating comprises about 50% to 90% of propylene-based plastomers, propylene-based elastomers, or mixtures thereof and about 10% to 50% polyethylene resins and additives, having a melting point that is preferably at least about 5 degrees lower than the melting point of the fabrics to be joined together. Most preferably the coating comprises about 50% to 90% of VERSIFY™ 3000 and about 10% to 50% polyethylene resins, having a melting point that is preferably at least about 5 degrees lower than the melting point of the polypropylene fabrics to be joined together. Suitable propylene based elastomers or plastomers can be purchased for example under the trademark VERSIFY™ 3000, and EXXON™.
Portions 37, 38, and 39 may sometimes together be referred to herein as a containment area or body of the bag 10. Intermediate portion 38 may also be referred to as a body panel or body portion of the bag 10.
The bulk bag 10 can be emptied by gravity, or via other suitable discharge means, through a discharge spout 40. Before discharge, the spout 40 is preferably closed in such a manner that the contained materials are prevented from discharging until the bag 10 is properly positioned over a receiving hopper or other desired receptacle.
Referring now to
Referring now to
In some embodiments the discharge assembly 160 also includes a cover 154. Discharge spout 40 can be gathered or rolled toward the bottom of the bag 10. When rolled, the discharge spout 40 has a plurality of rolled layers 148 and forms a rolled discharge spout 140. To maintain a rolled position adjacent the bottom of the bag 100, a releasable discharge spout coupler 152 can be applied. In some embodiments, the discharge spout coupler 152 is an adhesive material, such as adhesive fabric tape, that can adhere to both rolled spout 140 and the bottom of the bag 10 to capture the rolled spout 140. Preferably the adhesive fabric tape is a polypropylene fabric with an adhesive that is not solvent based, and remains active. Other fabric tapes with an adhesive may also be used. The rolled spout 140 coupled to the bottom 39 provides a closed configuration of discharge tube 140, which prevents discharge of materials from the bag. The rolled layers can also help prevent unwanted sifting of materials from the bag.
In some embodiments a cover 154 is included as part of discharge assembly 160 and preferably is disposed across the rolled spout 140 that is coupled to the bottom 39 of the bag via tie or tape 152. Cover 154 can be attached to the bag 100 at couplings 162, 164. Couplings 162, 164 can attach the cover 154 at two sides of body, e.g. at two opposing sides. Preferably cover 154 is releasably attached to the bag 100. In some embodiments, the couplings 162, 164 include adhesives, while in other embodiments the couplings 162, 164 include heat fusion. In some embodiments, the pressure from the cover 154 helps maintain the rolled and tied spout 140 in position.
For discharge, if a cover 154 is part of discharge assembly 160, the cover 154 is first released from the bag. In some embodiments cover 154 can be released by peeling or detaching one or both couplings 162, 164. The rolled spout 140 can then be released by peeling or detaching the tie or tape 152 coupled across the spout 140. In this manner, an operator's hand is away from any material flow. An operator preferably can access both the cover 154 and the tie or tape 152 while positioned beside the bag and not standing under the bag. As the tie 152 is peeled or detached, the rolled layers 148 of rolled spout 140 automatically unrolls wherein materials flow easily from the bag 10. Preferably peeling or detaching tie 152 causes the rolled layers 148 to unroll and changes the closed configuration of the discharge tube to an open configuration. Preferably no knots are used in the discharge assembly 160, thus no knots need to be untied. Consequently, the discharge assembly 160 of the bag 10 can also be called knot-free.
Referring now to
In other embodiments, as shown in
In various embodiments of a rolled spout 144, the multiple, stacked or rolled layers (for example, see layers 148 of
Referring next to
In some embodiments, a coupling 166 of the adhesive tape 152 does not wrap completely around spiral rolled spout 140, from one location on the bottom 39 to another location on bottom panel 39. For example, a coupling 166 of the adhesive tape 152 to the spiral rolled spout 140 can be applied approximately two-thirds of the way around the rolled spout 140 as shown in
In some embodiments, the end of the adhesive tape 152 is folded back on itself to form a release tab 170. When the bag 100 is ready to be discharged, the tab 170 is pulled, peeling back the adhesive tape 152 until it clears the spiral rolled spout 140 and releases the contained materials. Referring now to
In some embodiments, the cover 154 is shorter in length, e.g., about 2 inches shorter, than the length required to cross the bottom panel 39 of the bag 100 and has a sealable area. For example, the distance between a fold line 201 and 202, on cover 154 can be shorter than the distance between edge 211 and edge 212 on bottom 39, wherein the cover 154 is coupled to the bag at or near its fold line 201 and bottom edge 211, and cover 154 is also coupled to the bag at or near its fold line 202 and bottom edge 212. Thus cover 154 can extend from a first body 38 side, across bottom 39 of bag 10 and over rolled discharge tube 140 to a second body 38 side, the cover having a first fold location 201 at which the cover can extend across a first bottom edge 211 to the first body 38 side and a second fold location 202 at which the cover can extend across a second bottom 39 edge 212 to a second body 38 side.
When cover 154 is coupled to bag 10 as described above, the shorter distance between the fold locations 201, 202 as compared to the distance between edges 211 and 212 in effect cinches the bag bottom. In such a configuration the cover provides support for the spiral rolled spout 140. Such support can help the spout 140 to pass the required five to one lifting safety margins in bags having material contents of about 1,000 pounds to 5,000 pounds for example, in a bag with heat fused joints. Such cover also provides additional support for the bag 10 bottom 39.
Referring now to
Thus, as described above, a bulk bag 10 preferably includes a discharge spout 40 to be spiral rolled into position up against, adjacent or near the bottom panel 39 of the bag 10 to form a rolled spout 140. To retain the spiral rolled spout 140 in closed position, e.g., against the bottom panel, a first releasable coupler 152 is coupled to the bottom panel 39, across the spout 140, and coupled to the spout 140. The first releasable coupler 152 is preferably attached or coupled with adhesive or heat sealing, thus it is knot-free. A second releasable coupler, or cover, 154 may also be releasably coupled over the spiral rolled and retained spout 140 with adhesive or heat.
Consequently, the spiral rolled spout 140 is maintained in rolled position, and can easily be released by pulling, peeling, or otherwise releasing the couplers in a knot-free manner. The spiral rolled spout 140 can easily and safely be released by pulling, peeling, or otherwise releasing the couplers in a knot-free manner while under pressure from the material contents of the bag.
Referring now to
As shown in
A bag 10 with a discharge assembly 190 is shown in an exploded view in
The bulk bag 10 can then be filled and shipped to an end use location. The bag 10 is ultimately lifted over a receiving hopper or other receptacle and prepared for discharging. For lifting, the bag 10 may be provided with lift loops 50.
A tie 52 can be a rope or a woven fabric tie. In some embodiments, a slip knot is hand tied into the rope or woven fabric to complete the discharge spout tie 52.
In the embodiment of a discharge assembly 190 as described above, to change from a closed configuration to an open configuration during discharge, tab 180 of cover 154 can be pulled to effect release of the cover, which preferably can be done from the side of the bag without requiring an operator, or an operator's hand(s) or arm(s) to go under the bag. The tie or cord 52 will then still need to be untied or otherwise removed while under pressure from the materials contained in the bag 10. This embodiment is an improvement over the prior art embodiment as shown in
A cover 154 as described with regard to embodiments 160, 190 of a discharge assembly is an improvement over prior art covers because it extends across an entire width of the bottom of a bag, makes a bag bottom surface flatter for transport, makes a bag bottom surface cleaner and helps prevent any unwanted leakage from the bag, and provides more support for the bag. A cover 154 as described with regard to embodiments 160, 190 of a discharge assembly is also an improvement over prior art covers because it provides additional support for a bag.
A cover 154 as show can include tab portions 180 and comprise the shape as shown. A cover 154 can also comprise more of a spherical shape, e.g., oval or circular, or can be substantially rectangular, for example. A cover may also be square, but preferably less material is used for a cover, as a cover does not need to completely cover the bottom of the bag in order to provide the advantages described herein.
As indicated herein, a discharge assembly 160, 190, can be used with a bag that has sewn seams and/or has heat fused seams, or which has seams or joints otherwise connected. In embodiments where there are sewn or heat fused seams, the distance between fold locations 201, 202 of a cover 154 can be about equal to a width of the bag bottom, e.g., about equal to a width between edges 211 and 212. The distance between folds 201 and 202 can also be shorter than the distance between edges 211 and 212. For example the distance between folds 201 and 202 can be any distance that is less than equal to the distance between bottom edges 211 and 212, e.g., a distance shorter than equal to about 4 inches shorter than the distance between bottom edges 211, 212.
When a bag 10 has heat fused joints, or at least a heat fused joint connecting a discharge tube 40 and bottom 39, preferably the distance between folds 201 and 202 is two inches shorter than the distance between bottom edges 211, 212. When the distance between folds 201 and 202 is any distance shorter than equal to the distance between edges 211, and 212 the bottom cover provides additional support and strength to the discharge assembly and bag. By having a shorter distance between the folds, it causes an uplift to the bottom of the bag. When a cover 154 is in place as shown in the figures, pressure applied to joints of a bag at the bottom and discharge tube locations, from material contents within the bag must overcome and stretch the cover in order to cause a failure of said joints. As the distance gets closer to 4 inches shorter or more than 4 inches shorter that the distance between edges 211 and 212, the bottom surface of the bag gets more and more pinched and lifted up, and becomes more uneven. The joints of the bag also start to become stressed.
Regarding discharge assemblies 160 and 190, when a bag has a bottom and discharge tube that are connected with a heat fused joint a cover 154 provides additional strength allowing the bag to pass the required 5 to 1 safety requirements in the industry.
A rolled discharge tube assembly 160 with a cover 154 having a distance between cover 154 folds 201 and 202 that is about equal to the distance between edges 211 and 212 has passed the required 5 to 1 safety tests. A discharge assembly 190 with a cover 154 having a distance between cover 154 folds 201 and 202 that is equal to the distance between bottom edges 211 and 212, however, has only passed the require 5 to 1 safety tests 50% of the time. As the distance between a cover 154 folds 201 and 202 becomes shorter than equal, a heat fused bag 10 with a discharge assembly 190 was able to pass the safety 5 to 1 safety lifting requirements.
In the FIBC/bulk bag industry, based on the 5 to 1 safety requirements, a bag that will be carrying 2,000 pounds of material for example, must pass testing with 10,000 pounds of pressure applied, before the bag breaks. To test the bag, the bag is hung from its lift loops and hydraulic pressure is applied from a top of the bag to measure the force needed to break the bag.
In testing, a bag designed to hold 2,000 pounds of bulk material and having a heat fused discharge tube and bottom, and a rolled discharge tube or pinched tube in a closed configuration failed when applying 7,000 pounds of pressure to the bag. When a cover 154 was added to form a discharge assembly 160 or 190, the bag designed to hold 2,000 pounds of bulk material with a heat fused joint connecting a discharge tube and bottom was able to withstand 13,000 pounds of pressure applied to the bag during testing. A cover 154 can thus increase the strength of the bag by over 50%.
In embodiments where a bag comprises sewn seams, a cover 154 is not needed in order for the bag to pass the 5 to 1 safety requirements. A cover 154 is advantageous for a bag with sewn seams to provide additional support and strength to the bag, provide a cleaner bottom surface, and to provide a flatter bottom surface for the bag.
In
Alternatively the tie or strap 52 can be removed or not provided on a discharge tube 40 and the tube can be rolled up towards the bottom 39 and coupled thereto in accordance with forming a rolled tube 140 and a closed configuration of a discharge tube assembly 160 as described above. In some embodiments the discharge tube 40 can also be rolled with a strap or tie 52 still positioned on the tube, although preferably the tie or strap 52 is not present in the embodiment of assembly 160.
In a preferred embodiment a cover 154, whether used with a rolled discharge spout 140 or tied off spout 40, is preferably adhered to opposing sidewalls of body or intermediate portion 38 via heat fusion to form a bond, e.g., to establish couplings 162, 164. Preferably the cover is attached to the body 38 so that all forces of the material contained within the bag 10 only stresses the cover 154 couplings 162, 164 in a shear position. A tab 180, however, preferably can easily be pulled in a peel position to release the cover 154. Additionally preferably the tie or tape 152 attaching rolled spout 140 after it is rolled up to the bottom 139, is preferably secured/adhered bag bottom 139 so that it is only stressed by material contents in the bag in a shear position and does not release until a tab is pulled in the peel direction, even when subject to the pressure and weight from the material contents in the bag pressing down on it.
The release tab 170 of the tape 152 on spout 140 can also easily be pulled in a peel direction to cause the open configuration of the discharge tube 140 and release the material contents of the bag. With the configuration of the cover 154 and rolled discharge tube 140 as described herein, the couplings or bonds that must support the material contents of the bag have great shear strength, and can withstand the pressure upon them when a bag is filled with 1,000 to 5,000 pounds of material, for example, yet the bonds or couplings 162, 164 or 166 can easily be released by pulling a tab 180 or 170 in the peel direction.
The above discussion is meant to be illustrative of the principles and various embodiments of the present disclosure. While certain embodiments have been shown and described, modifications thereof can be made by one skilled in the art without departing from the spirit and teachings of the disclosure. The embodiments described herein are exemplary only, and are not limiting. Accordingly, the scope of protection is not limited by the description set out above, but is only limited by the claims which follow, that scope including all equivalents of the subject matter of the claims.
The following is a list of parts and materials suitable for use in the present invention:
All measurements disclosed herein are at standard temperature and pressure, at sea level on Earth, unless indicated otherwise. All materials used or intended to be used in a human being are biocompatible, unless indicated otherwise.
The foregoing embodiments are presented by way of example only; the scope of the present invention is to be limited only by the following claims.
This application claims the benefit of and/or priority to U.S. Provisional Patent Application Ser. No. 62/252,270, filed on Nov. 6, 2015, which is hereby incorporated herein by reference. This application is related to and also claims the benefit of and/or priority to U.S. Provisional Patent Application Ser. No. 62/269,087, filed on Dec. 17, 2015, which is hereby incorporated herein by reference.
Number | Date | Country | |
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62252270 | Nov 2015 | US | |
62269087 | Dec 2015 | US |