The present invention generally relates to a bag for the transport and storage of bulk goods.
One example of a known bag is shown in
Another known bag 10′ is shown in
Another known bag 10″ is shown in
A variant of the bag 10″ shown in
International (PCT) Publication No. WO 2018/142196 A1, which publication is likewise incorporated herein by reference in its entirety, discloses yet another bag for the transport and storage of bulk goods.
Another bag of the type comprising two pairs of lifting straps connected by sleeves is disclosed in International (PCT) Publication No. WO 2019/155330 A1.
A problem with the known bags however resides in that the aforementioned sleeves are relatively costly to produce and integrate on the bag. The sleeves are furthermore subjected to relatively important stresses upon lifting the bag and may furthermore cause undesired deformation of the sides of the bag of which they form an integral part.
International (PCT) Publication No. WO 2014/192993 A1 discloses a bag according to the preamble of claim 1. More specifically, WO 2014/192993 A1 discloses a bulk bag having self-standing ring structures acting as lifting straps, which ring structures are filled with air to maintain the ring structures in a standing state to facilitate lifting and handling operations by means of a forklift. In accordance with embodiments described with reference to FIGS. 10-18 of WO 2014/192993 A1, each ring structure is designed as an inflatable tube that is wound on itself to form a closed loop, after which it is inflated by filling it with air. More specifically, one end of the tube is inserted through a slit provided at another end of the tube to form the closed loop, after which it can be inflated. Each closed loop can be attached, for instance by means of a zipper, to a corresponding end of a sleeve to form a pair of tubings or ducts extending longitudinally along a top surface of the bag to allow lifting of the bag by means of a forklift (see especially FIGS. 11, 17 and 18 of WO 2014/192993 A1). As a result, each of the two sleeves is connected to the main body of the bag exclusively via the associated pair of ring structures and is not otherwise attached longitudinally to the main body of the bag. This being said, the particular configuration of the ring structures of this embodiment implies that each ring structure, once formed in a closed loop, can only be secured by one end section to the main body of the bag, which is not an entirely adequate solution from the point of view of load distribution and safety in the event of a rupture of one or multiple ring structures. Furthermore, the ring structures are in effect quite complex to produce and must be designed to be fully airtight to ensure that they remain in the inflated state. Robustness is therefore an issue in practice as the ring structures can be damaged relatively easily in use and thereby deflate.
There is therefore a need for an improved solution.
A general aim of the invention is to provide a bag for the transport and storage of bulk goods that obviates the problems and limitations of known bags.
More specifically, an aim of the invention is to provide such a bag that is capable of being lifted by means of a forklift and facilitates lifting and handling operations.
A further aim of the invention is to provide such a bag that is of simpler construction and is less expensive to manufacture than the known bags, without in any way compromising bag robustness.
These aims are achieved thanks to the solutions defined in the claims.
In accordance with the invention, there is provided a bag for the transport and storage of bulk goods the features of which are recited in claim 1, namely such a bag comprising a main body including at least a bottom part and four sides connected in pairs along adjacent edges to form vertical ridges at four corners of the bag. The bag further comprises four lifting straps, each comprising first and second end sections and an intermediate section rising above a top surface of the bag. The lifting straps are interconnected in pairs by two sleeves to form tubings or ducts extending longitudinally along a top surface of the bag to allow lifting of the bag by means of a forklift. The sleeves are connected to the main body of the bag via the lifting straps and are not attached longitudinally to the main body of the bag. According to the invention, and in contrast to the solution disclosed in WO 2014/192993 A1, the first and second end sections of each lifting strap are secured to corresponding sides of the bag, which ensures appropriate load distribution and increased safety. Moreover, the bag of the invention is beneficial in that the sleeves remain substantially parallel to one another independently of any bulging of the main body of the bag, thus allowing optimal cooperation of the fork arms of the forklift with the sleeves.
According to a particularly advantageous embodiment of the invention, the first and second end sections of each lifting strap are non-overlapping vertical end sections that are sewn on different portions of the corresponding sides of the bag, and the intermediate section of each lifting strap is a U-shaped intermediate section rising above the top surface of the bag. In that context, the first and second end sections preferably extend and are sewn vertically along substantially all of the relevant portions of the corresponding sides of the bag (i.e. along at least 80% of the height of each side). In particular, the first and second sections may be sewn on different portions of a front or rear side of the bag.
According to a further advantageous embodiment of the invention, the intermediate section of each lifting strap is reinforced to force the intermediate section into an essentially upright configuration rising above the top surface of the bag when no load is applied onto a top portion of the bag. In particular, the intermediate section may be reinforced by means of a flexible reinforcement tube surrounding the intermediate section. The flexible reinforcement tubes may especially be made of a flexible polymer or biopolymer material, such as polyvinyl chloride (PVC), polyethylene (PE), bio-polyethylene (bio-PE), polypropylene (PP), bio-polypropylene (bio-PP) or silicone.
In accordance with a particularly preferred embodiment of the invention, terminal ends of the sleeves are each provided with a hem surrounding part of the intermediate section of the associated lifting strap and thereby provide connection of the sleeves to the main body of the bag. Each hem may especially surround part of the flexible reinforcement tube mentioned above. Each hem may in particular be formed by folding and stitching a terminal portion at each terminal end of the sleeves. In this latter context, the hem is preferably not stitched to the intermediate section of the associated lifting strap. More advantageously, each hem is configured to allow a relative movement of each hem with respect to the intermediate section of the associated lifting strap.
In addition, a bottom portion of each sleeve, at each terminal end of each sleeve, may advantageously be secured to the top surface of the bag, thereby ensuring that each terminal end of each sleeve remains in a generally open configuration to facilitate insertion of the fork arms of a forklift.
Advantageously, the sleeves may be made of a transparent or translucent material, which facilitates handling operations with a forklift.
Also claimed is a method of producing a bag for the transport and storage of bulk goods, the features of which are recited in claim 15, namely such a method comprising the following steps:
Advantageously, the first and second end sections of each lifting strap are secured to the corresponding sides of the bag at step d) by stitching. In particular, the first and second end sections of each lifting strap are non-overlapping vertical end sections that are sewn at step d) on different portions of the corresponding sides of the bag, and the intermediate section of each lifting strap is a U-shaped intermediate section rising above the top surface of the bag. In this latter context, the first and second end sections preferably extend and are sewn vertically along substantially all of the relevant portions of the corresponding sides of the bag (i.e. along at least 80% of the height of each side). The first and second end sections may especially be sewn on different portions of a front or rear side of the bag.
By way of preference, the method further comprises the step of reinforcing the intermediate section of each lifting strap to force the intermediate section into an essentially upright configuration rising above the top surface of the bag when no load is applied onto a top portion of the bag. The intermediate section may especially be reinforced by surrounding the intermediate section of each lifting strap with a flexible reinforcement tube. The flexible reinforcement tubes may in particular be made of a flexible polymer or biopolymer material, such as polyvinyl chloride (PVC), polyethylene (PE), bio-polyethylene (bio-PE), polypropylene (PP), bio-polypropylene (bio-PP) or silicone.
Advantageously, the step c) of connecting each terminal end of each sleeve to the intermediate section of the corresponding lifting strap includes providing each terminal end of the sleeves with a hem and surrounding part of the intermediate section of the associated lifting strap with the hem, thereby providing connection of the sleeves to the main body of the bag. More specifically, in the event the intermediate section is reinforced by means of the aforementioned flexible reinforcement tube, the step c) of connecting each terminal end of each sleeve to the intermediate section of the corresponding lifting strap includes providing each terminal end of the sleeves with a hem and surrounding part of the flexible reinforcement tube, and thus part of the intermediate section of the associated lifting strap, with the hem, thereby providing connection of the sleeves to the main body of the bag.
Each of the aforementioned hems may be formed by folding and stitching a terminal portion at each terminal end of the sleeves. Preferably, the hem is not stitched to the intermediate section of the associated lifting strap. More advantageously, each hem is formed such as to allow a relative movement of each hem with respect to the intermediate section of the associated lifting strap.
The method may further comprise the step of securing a bottom portion of each sleeve, at each terminal end of each sleeve, to the top surface of the bag, thereby ensuring that each terminal end of each sleeve remains in a generally open configuration to facilitate insertion of the fork arms of a forklift.
Furthermore, the sleeves may advantageously be made of a transparent or translucent material to facilitate handling operations with a forklift.
Further advantageous embodiments of the invention form the subject-matter of the dependent claims and are discussed below.
Other features and advantages of the present invention will appear more clearly from reading the following detailed description of embodiments of the invention which are presented solely by way of non-restrictive examples and are illustrated by the appended drawings in which:
The present invention will be described in relation to various illustrative embodiments as shown in particular in the photographic illustrations of
Bag 100 is preferably manufactured from woven fabric using e.g. synthetic fibre materials (such as polypropylene or polyethylene materials), which fabric is cut into pieces that are sewn and/or welded together to form the bag structure. By way of illustration, reference can be made to International (PCT) Publication No. WO 01/18293 A1 in the name of the present Applicant, which publication is incorporated herein by reference in its entirety.
Bag 100 comprises a main body 11-15 including at least a bottom part 15 and four sides 11 to 14, namely a front side 11, a rear side 13, and two opposite lateral sides 12, 14, connected in pairs along adjacent edges to form vertical ridges at four corners of the bag 100. Bag 100 may optionally be provided with a lid closing the upper part thereof and provided with an aperture or spout to transfer goods inside the storage area of the bag 100, as shown. Bag 100 further comprises four lifting straps 18 that are secured to corresponding ones of the sides 11-14, namely the front and rear sides 11, 13 in the illustrated embodiment. More specifically, each lifting strap 18 includes first and second end sections 18a, 18b that are secured to the sides 11, 13 of the bag 100, and an intermediate section 18c rising above a top surface of the bag 100. The lifting straps 18 are interconnected in pairs by two sleeves 17 to form tubings or ducts extending longitudinally along a top surface of the bag 100, namely along a direction that is substantially parallel to the two opposite lateral sides 12, 14, to allow lifting of the bag 100 by means of a forklift 50, as shown e.g. in
By way of preference, as illustrated, the first and second end section 18a, 18b of each lifting strap 18 are non-overlapping vertical end sections that are sewn on different portions of the corresponding sides 11, 13 of the bag 100. In the illustrated example, the first end section 18a is sewn on the front side 11 or rear side 13, alongside each vertical ridge of the bag 100, whereas the second end section 18b is sewn along a portion of the front side 11 or rear side 13 at a distance from each vertical ridge of the bag 100. The intermediate section 18c of each lifting strap 18 thus exhibits an inverted-U shape rising above the top surface of the bag 100. The end sections 18a, 18b advantageously extend and are sewn vertically along substantially all of the relevant portions of the sides 11, 13, namely along at least 80% of the height of each side 11, 13.
In another embodiment, the first end section 18a of each lifting strap 18 could alternatively be sewn on the lateral side 12 or 14, alongside each vertical ridge of the bag 100, while the second end section 18b remains sewn along a portion of the front side 11 or rear side 13.
According to the invention, and in contrast to the known bags depicted e.g. in
In accordance with a particularly preferred embodiment of the invention, the intermediate section 18c of each lifting trap 18 is reinforced to force the intermediate section 18c into an essentially upright configuration rising above the top surface of the bag 100 when no load is applied onto a top portion of the bag 100. In this way, and as long as no load is applied onto the intermediate section 18c, the intermediate section 18c is urged by default in an essentially upright configuration above the top surface of the bag 100, as shown e.g. in
Reinforcement of each intermediate section 18c can in particular be achieved by means of a flexible reinforcement tube that is provided in such a way as to surround the intermediate section 18c. Such flexible reinforcement tubes are partly visible in the photographic illustrations of
The flexible reinforcement tubes 180 may conveniently be made of a flexible polymer or biopolymer material, such as polyvinyl chloride (PVC), polyethylene (PE), bio-polyethylene (bio-PE), polypropylene (PP), bio-polypropylene (bio-PP) or silicone. Other flexible reinforcement materials may however be contemplated.
By way of preference, each terminal end of the sleeves 17 is provided with a hem 17A (visible especially in
Each hem 17A may conveniently be formed by folding and stitching a terminal portion at each terminal end of the sleeves 17. In practice, a terminal portion of the order of 5 to 10 cm may suffice to form each hem 17A. By way of preference, the hem is not however stitched to the intermediate section 18c of the associated lifting strap 18.
In accordance with a particularly advantageous embodiment, each hem 17A is configured to allow a relative movement of the hem 17A with respect to the intermediate section 18c (and flexible reinforcing tube 180) of the associated lifting strap 18. This in effect allows some movement between the sleeves 17 and the lifting straps 18 upon lifting the bag 100, as shown e.g. in
In effect, according to the present invention, the sleeves 17 are subjected to far lesser stresses upon lifting of the bag 100, the greatest part of the load being supported by the lifting straps 18 and the main body 11-15 of the bag 100. Thanks to the fact that the sleeves 17 are not directly attached to the main body 11-15 of the bag 100, the sleeves 17 are furthermore not anymore subjected to important tensions and deformations as is the case with the known bags. As a result, the bag 100 retains a better and more uniform overall shape upon being lifted.
By way of preference, as shown e.g. in
The sleeves 17 shown in
The bag of the invention also leads to substantial simplification of the steps required to produce the bag. Indeed, referring to the bag 100 illustrated by
The end sections 18a, 18b of each lifting strap 18 could be stitched to the desired portions of the sides 11-14 of the bag 100 by any suitable stitching techniques, including e.g. specific stitching techniques aimed at ensuring improved load resistance.
Various modifications and/or improvements may be made to the above-described embodiments without departing from the scope of the invention as defined by the appended claims. For instance, while the bag is shown as being of generally cubic form, the bag could exhibit a more elongated shape in one direction, for instance be taller or wider, depending on the relevant application.
Number | Date | Country | Kind |
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20212307.1 | Dec 2020 | EP | regional |
International (PCT) Publication No. WO 98/54070 A1, which publication is incorporated herein by reference in its entirety, discloses a bag for the transport and storage of bulk goods. Different embodiments of the bag are disclosed in WO 98/54070 A1 and are reproduced in FIGS. 1A to 1E hereof. Such bags are also commonly referred to in the art as “big bags”.
Filing Document | Filing Date | Country | Kind |
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PCT/IB2021/061423 | 12/7/2021 | WO |