The present invention relates to the packaging of compressible insulation products, in particular with a view to the transport thereof or the storage thereof. More specifically, the invention relates to a pack comprising compressible insulation products that are, in unit form, in the form of rolls or of substantially parallel batches of boards. The invention also relates to a process for manufacturing such a pack, and to a palletized assembly comprising such packs.
Fibrous insulation products, such as felts made of glass wool or other mineral wool, are low-density products that occupy a large volume. In order to facilitate the transport thereof and the storage thereof, it is desirable to limit the bulkiness of these products and to produce palletizable loads. For this purpose, the insulation products in unit form are conventionally packaged in a compressed state, by being covered with a protective wrapper generally made of kraft paper or plastic, the insulation products then being assembled in the form of rows and then positioned on pallets.
One constraint for the packaging is that the deformations generated during a compression of the insulation product must not degrade its ability to recover its thickness upon being unwrapped, the insulating qualities of the product being dependent on this thickness recovery. Another constraint is the need to protect the insulation product with respect to the external environment, in particular when it comprises a binder that is sensitive to the effects of moisture. However, the protective wrapper that makes it possible to keep the product in the form of a roll, or to assemble a series of boards as one batch, does not generally cover the whole of the outer surface of the product and is therefore not sufficient to ensure complete protection against moisture.
EP 0 220 980 A1 describes a package in which a module is formed by juxtaposing several insulation products in a row, and encircling the row using a film sealed upon itself. Several modules are then superimposed on a pallet and everything is assembled by stretch-wrapping. One drawback of this type of package is that, even though the rolls or the batches of boards are protected by the stretch-wrapping film, they are however no longer protected, in particular at their ends, once the palletized assembly has been opened or damaged. There is then a risk of infiltration of water into the insulation product, which may lead to a degradation of its insulating properties.
It is these drawbacks that the invention intends, more particularly, to solve by proposing a pack of compressible insulation products that makes it possible to preserve the quality of the insulation products, in particular in terms of thickness recovery.
For this purpose, one subject of the invention is a pack of compressible insulation products, each insulation product having a longitudinal axis, a peripheral surface and first and second ends, the pack comprising a stack of at least two superimposed modules, where each module comprises:
a row of insulation products positioned next to one another, successively along a first direction perpendicular to the longitudinal axes of the insulation products, the insulation products of the row having their longitudinal axes parallel to one another,
a first film which wraps each insulation product of the row in a compressed state of the insulation product, by covering the peripheral surface of the insulation product,
a second film which wraps the row of insulation products, by covering some of the peripheral surface of the insulation products of the row,
the modules of the stack being superimposed along a second direction perpendicular to the longitudinal axes of the insulation products and to the first direction of each module, the stack comprising two end faces formed by the ends of the insulation products and main faces and transverse faces that are perpendicular to the end faces,
characterized in that the pack comprises a cover which wraps the stack of superimposed modules, by covering five faces of the stack including the two end faces and at least the periphery of the sixth face of the stack.
According to one feature, each module of a pack according to the invention comprises a single row of insulation products positioned next to one another, successively along the first direction perpendicular to the longitudinal axes of the insulation products, the insulation products of the single row having their longitudinal axes parallel to one another. The second film then wraps the single row of insulation products by covering some of the peripheral surface of the insulation products of the row.
Throughout this patent application, the term “cover”, when it is used alone, should by default be understood as denoting a cover that wraps a stack of modules. When reference is made to a cover of a palletized assembly, which is different from a cover that wraps a stack of modules, it is systematically specified that it is an “outer cover”.
Within the context of the invention, the insulation products may be rolls. As a variant, the insulation products may be batches of several boards that have been preassembled, for example by means of a heat-shrinkable film, these batches having a substantially parallelepipedal shape and having a similar bulkiness to that of the rolls. In what follows, reference is often made to rolls, it being understood that the invention is not limited to this particular case.
Within the context of the invention, the stack of modules, which corresponds to one tier of modules in a palletized assembly, is completely covered by the combination of the second film and the cover. Thus, by means of the invention, packs of insulation products, intended to form all or part of a tier in a palletized assembly, are obtained that are watertight. The stack of modules is enclosed within a package, formed by the combination of the second film and the cover, which covers all of the faces of the stack of modules.
The invention makes it possible to produce palletized assemblies of rolls or of boards very simply, by superimposing several packs in accordance with the invention each corresponding to one tier of the palletized load, while guaranteeing that the insulation products in each pack are protected from moisture or other external contaminants even in the event of opening or damaging the outer protection of the palletized assembly, which may be a stretch-wrapping film or a stretchable or shrinkable cover. This is particularly advantageous when the insulation products comprise a binder that is sensitive to moisture, such as a bio-based binder, in particular based on saccharides, sugars and/or sugar alcohols. Such palletized assemblies may be stored outside, without further precautions, without risk of deterioration of the quality of the insulation products and in particular without any thickness recovery problems. Advantageously, it is possible to subdivide the palletized loads obtained according to the invention into a series of watertight packs, which is practical, in particular during unpacking operations.
According to one feature of the invention, the second film forms, around the row of insulation products, a sleeve having an axis parallel to the longitudinal axes of the insulation products. More specifically, the row of insulation products comprises two main faces and two transverse faces perpendicular to the ends of the insulation products, and the second film wraps the row of insulation products by extending over the main faces and the transverse faces of the row.
According to one advantageous feature, the second film wraps the row of insulation products in a compressed state of the insulation products against one another along the first direction. This compression along the first direction, which is in addition to the compression of each insulation product provided by the first film, helps to limit the bulkiness of the packs of insulation products in accordance with the invention.
According to one advantageous aspect, the first film and the second film are plastic films that have relatively weak extension properties. In particular, each of the first film and the second film preferably has a strength at 10% elongation of greater than 15 MPa, preferably of greater than 17 MPa or 20 MPa, in the extrusion direction and in the direction transverse to the extrusion direction. The strength may be measured according to the standard ISO 527/3, on standardized film test specimens. According to this standard, the elongation of the film is measured for an increasing tensile force applied to the film (measured in MPa) and a standardized speed. The compression of each insulation product and the compression of each row of insulation products may thus be obtained and maintained, respectively, by a single first film and by a single second film. Preferably, the first film and the second film are made of high-density polyethylene (HDPE).
According to one feature of the invention, the cover has a main axis of deployment that is perpendicular to the longitudinal axes of the insulation products.
Preferably, the cover wraps the stack of superimposed modules by covering five faces of the stack, including the two end faces, and by covering only a peripheral portion of the sixth face of the stack. In other words, the cover then has an opening on the sixth face of the stack.
In one advantageous embodiment, the cover comprises an opening on a main face of the stack perpendicular to the second direction. This is the preferred arrangement when the cover comprises an opening, since the edge of the cover delimiting the opening is then located on the periphery of a face of the stack where the second film of one of the end modules of the stack creates a flat and continuous surface, which guarantees a continuous overlap between the cover and the second film. Preferably, in this embodiment, the edge of the cover and the second film which are present on this main face of the stack are not joined together, which makes the process for manufacturing the pack in accordance with the invention particularly simple, rapid and economical, while having high protection in particular against infiltration of water inside the pack owing to the continuous overlap of the cover and the second film. According to one variant, the edge of the cover and the second film present on this main face of the stack may be joined together, for example by adhesive bonding or by welding.
In one less preferred embodiment, when the cover comprises an opening, the opening of the cover may be located on a transverse face of the stack perpendicular to the first direction. This is the only other option possible when the cover comprises an opening, since within the context of the invention the cover necessarily covers the two end faces of the stack. This arrangement is less advantageous than the previous one, since the edge of the cover delimiting the opening is then located on the periphery of a face of the stack which is formed by curved peripheral sides of the various modules of the stack which are covered by several different second films, which does not guarantee a continuous overlap between the cover and the second films. It is then more difficult to make the pack watertight.
In another embodiment, the cover has no opening and covers the six faces of the stack. In this embodiment, the cover may be installed on the stack of modules in a covering device that makes it possible, after the cover has been deployed around the stack, to seal the material of the cover to itself, in particular by welding, opposite the sixth face of the stack.
Preferably, the cover is a stretchable cover, formed from a sheath of stretchable plastic film, for example made of low-density polyethylene (LDPE). The use of a stretchable film sheath makes it possible to ensure a good stability and a good watertightness of the pack of insulation products. Advantageously, unlike a film, the insulation of a stretchable sheath does not require a heat source, since it is sufficient to mechanically prestretch the material of the plastic film in the transverse direction before wrapping the stack of modules. After the stretched cover has been placed over the stack of modules, the tightening of the material of the stretchable film takes place naturally by elasticity, which firmly holds the cover around the stack of modules.
According to one variant, in one less preferred embodiment, the cover may be a shrinkable cover, formed from a sheath of heat-shrinkable plastic film, for example made of heat-shrinkable polyethylene.
According to one aspect of the invention, the second film is a plastic film having a higher tensile strength than that of the constituent plastic film of the cover. By way of example, the second film may be made of high-density polyethylene (HDPE), whilst the constituent plastic film of the cover is made of low-density polyethylene (LDPE).
Within the context of the invention, each row advantageously comprises a number of insulation products of between 2 and 10.
Another subject of the invention is a palletized assembly comprising a pallet, at least two packs of compressible insulation products as described above that are superimposed on one another and on the pallet with the longitudinal axes of the insulation products perpendicular to the pallet, and means for holding packs on the pallet.
In one embodiment, the means for holding packs on the pallet comprise an outer cover. According to one preferred variant, the outer cover is a stretchable cover, formed by stretching, at the periphery of the packs, a sheath of stretchable plastic film, for example a sheath made of low-density polyethylene (LDPE). According to one less preferred variant, the outer cover is a shrinkable cover, formed by shrinking, at the periphery of the packs, a sheath of heat-shrinkable plastic film, for example a sheath made of heat-shrinkable polyethylene.
In another embodiment, the means for holding packs on the pallet comprise a stretch-wrapped film at the periphery of the packs, for example a polyethylene film with a thickness of 20 to 30 microns having a mechanical stretchability of greater than 200%, in particular of the order of 250%. Conventionally, a top sheet is also provided on the top of the load formed by the packs, for example made of a relatively thick polyethylene film, having a thickness of at least 75 microns.
Another subject of the invention is a process for manufacturing a pack comprising compressible insulation products, each insulation product having a longitudinal axis, a peripheral surface and first and second ends, the process comprising steps wherein:
each insulation product is wrapped using a first film that covers the peripheral surface of the insulation product and which maintains the insulation product in a compressed state;
a row of insulation products is formed by positioning several insulation products provided with the first film next to one another, successively along a first direction perpendicular to the longitudinal axes of the insulation products, the insulation products of the row having their longitudinal axes parallel to one another;
a module is formed by wrapping the row of insulation products using a second film, which covers some of the peripheral surface of the insulation products of the row and which holds the insulation products of the row next to one another along the first direction;
a stack of modules is formed by superimposing at least two modules along a direction perpendicular to the longitudinal axes of the insulation products and to the first direction of each module;
the pack is formed by wrapping the stack of modules using a cover which covers at least five faces of the stack including the two end faces of the stack formed by the ends of the insulation products.
Another subject of the invention is a process for manufacturing a palletized assembly comprising compressible insulation products, each insulation product having a longitudinal axis, a peripheral surface and first and second ends, the process comprising steps wherein:
each insulation product is wrapped using a first film that covers the peripheral surface of the insulation product and which maintains the insulation product in a compressed state;
a row of insulation products is formed by positioning several insulation products provided with the first film next to one another, successively along a first direction perpendicular to the longitudinal axes of the insulation products, the insulation products of the row having their longitudinal axes parallel to one another;
a module is formed by wrapping the row of insulation products using a second film, which covers some of the peripheral surface of the insulation products of the row and which holds the insulation products of the row next to one another along the first direction;
a stack of modules is formed by superimposing at least two modules along a direction perpendicular to the longitudinal axes of the insulation products and to the first direction of each module;
a pack is formed by wrapping the stack of modules using a cover which covers at least five faces of the stack including the two end faces of the stack formed by the ends of the insulation products;
at least two packs are superimposed on one another and on a pallet with the longitudinal axes of the insulation products perpendicular to the pallet;
the packs and the pallet are assembled using means for holding the packs on the pallet.
Within the context of a process according to the invention, the row of insulation products may be formed in a stacker. Furthermore, the wrapping of the row of insulation products using the second film may be carried out by encircling so as to form a sleeve having an axis parallel to the longitudinal axes of the insulation products, the second film being deployed around the row along the first direction. For encircling the row of insulation products using the second film, the encircling device advantageously comprises means for the relative displacement of a band of film around the row of insulation products.
Furthermore, within the context of the process according to the invention, the wrapping of the stack of modules using the cover is advantageously carried out by stretching a sheath of stretchable plastic film, for example made of low-density polyethylene (LDPE), the sheath being deployed around the stack along a direction perpendicular to the longitudinal axes of the insulation products. As a variant, in one less preferred embodiment, the wrapping of the stack of modules using the cover may be carried out by shrinking a sheath of heat-shrinkable plastic film.
In one embodiment of the invention, the packs and the pallet are assembled using an outer cover obtained by stretching or shrinking a sheath of plastic film, the sheath being deployed around the packs and the pallet along a direction parallel to the longitudinal axes of the insulation products.
In another embodiment of the invention, the packs and the pallet are assembled by stretch wrapping, using a stretch-wrapping film which is deployed around the packs and the pallet along a stretch-wrapping direction parallel to the longitudinal axes of the insulation products.
The features and advantages of the invention will become apparent in the following description of embodiments of a pack of insulation products and of a palletized assembly in accordance with the invention, given solely by way of example and with reference to the appended drawings, in which:
Schematically illustrated in
As shown in
In order to form a module 5, which has a single row 3 of rolls 1, the row 3 is wrapped with a second film 4, with application of a compression of the rolls 1 of the row against one another along the direction of the arrows C1 in
Preferably, the first film 2 and the second film 4 are each formed of a strip of plastic which is not very extensible, for example a strip of high-density polyethylene (HDPE), so that each film 2 and 4 maintains the rolls 1 of the row in their compressed state.
As shown in
A pack 8 of rolls in accordance with the invention is obtained by wrapping the stack 6 of modules with a cover 7, so that the cover 7 covers five faces of the stack 6 including the two end faces 62, 64 and the cover 7 is folded over the periphery of the sixth face of the stack 6, which in the example from
Preferably, the cover 7 is a stretchable cover, formed from a sheath of stretchable plastic film, for example made of low-density polyethylene (LDPE). The wrapping of the stack 6 with the cover 7 is then carried out, in a known manner, in a stretchable cover packaging device. In
Conventionally, in the packaging device, the sheath of stretchable plastic film is stored around a spool, by being pleated in a bellows or accordion tube shape. The packaging device comprises a welding station configured in order to weld the sheath forming a welded joint. After welding, the sheath is cut transversely in a cutting station in order to produce a cover 7 independent of the spool and sealed in its upper portion.
The pleated cover 7 is then stretched in a horizontal plane parallel to the welding zone of the upper portion of the cover 7, which is the plane perpendicular to the second direction D2, while being positioned above the upper main face 63 of the stack 6. The cover 7 is then opened out, and deposited on and around the main face 63 and faces 62, 64, 66, 68 of the stack 6 following a vertical displacement from top to bottom along the second direction D2.
At the end of the covering operation, the lower end of the cover 7 is folded under the lower main face 61 of the stack 6, for example with the aid of stretching clamps. The tightening of the cover 7 is then carried out by elasticity, which firmly holds the cover 7 around the stack 6 of modules. The edge 72 of the cover 7 positioned opposite the lower main face 61 then covers the periphery of this face 61, while delimiting the opening 71.
A pack 8 is then obtained that comprises twelve rolls, which is watertight since the package, formed by the combination of the cover 7 and the second film 4 of the end module closest to the opening 71, covers the whole of the six faces of the stack 6 of modules. The continuous overlap between the cover 7 and the second film 4 at the periphery of the main face 61 of the stack 6, where the second film 4 of the end module creates a flat and closed surface area, guarantees that there is no entry of water inside the pack 8. By way of example, the pack 8 has a length parallel to the axes X1 of the rolls of the order of 800 to 1250 mm, a length along the first direction D1 of the order of 1100 to 1250 mm, and a length along the second direction D2 of the order of 1200 mm. Thus, it is possible to fit two pallets with dimensions of 1200 to 1250 mm by 1200 to 1250 mm, supporting superimposed packs 8, side-by-side in a truck having a width of the order of 2400 to 2500 mm. Of course, the dimensions of the rolls 1, the number of rolls 1 and the degree of compression C1 may be adapted so that the dimensions of the packs 8 correspond to any conventional dimensions of pallets and of means of transport.
Using packs 8 of rolls in accordance with the invention as described above, it is possible to produce palletized assemblies in a simple manner. Two examples of palletized assemblies are illustrated in the first and second embodiments represented in
In the first embodiment represented in
For holding the packs 8 on the pallet 13, the palletized assembly 16 comprises an outer cover 9, which may be considered to be a “vertical” cover in the palletized assembly 16. Preferably, the outer cover 9 is a stretchable cover, formed by stretching a sheath of plastic film at the periphery of the packs 8. The installation of the outer cover 9 around the packs 8 and the pallet 13 is carried out, in a known manner, in a stretchable cover packaging device. In
Advantageously, the device used for the installation of the “vertical” outer cover 9 around the packs 8 and the pallet 13 may be the same device as that used for the installation of the “horizontal” covers 7 on the stacks 6. In this case, the facility for manufacturing palletized assemblies may comprise means for 90° rotation of the packs 8 after the installation of their cover 7 and before the superposition thereof on the pallet 13.
The installation of the outer cover 9 around the packs 8 and the pallet 13 is carried out in a manner similar to that of the cover 7 around the stack 6. Thus, the depleted outer cover 9 is stretched in a horizontal plane parallel to the welding zone of the upper portion of the outer cover, which is the plane perpendicular to the longitudinal axes X1 of the rolls. The outer cover 9 is then opened out, and deposited on and around the packs 8 and pallet 13 following a vertical displacement top to bottom along a direction parallel to the longitudinal axes X1 of the rolls. At the end of the covering operation, the lower end of the outer cover 9 is folded under the pallet 13. The tightening of the outer cover 9 takes place by elasticity, which firmly holds the outer cover 9 around the load. The outer cover 9 protects the palletized assembly 16 from adverse weather conditions.
In the second embodiment of a palletized assembly represented in
The installation of the stretch-wrapping film 10 around the packs 8 and the pallet 13 is carried out, in a known manner, in a stretch-wrapping device. In
The stretch-wrapping operations take place in a manner suitable to protect the palletized assembly 17 from adverse weather conditions. For this purpose, the outermost layer of the stretch-wrapping film 10 is deployed from bottom to top, so that the layer positioned highest is always overlapping from the top, seen from the outside, with an arrangement similar to roof tiles, as represented schematically in
For example, a stretch wrapping cycle is carried out in the following manner: when the assembly comprising the packs 8 positioned on the pallet 13 is in place in the stretch-wrapping device, a stabilizer plate is lowered to lock the load formed by the packs 8, and the stretch wrapping starts from the bottom, with a few turns that trap the pallet 13. Starting from the bottom, the ring is gradually moved up, a stop being made at the junction between the two packs 8 of the load. On approaching the top of the load, the stabilizer plate is withdrawn, which is possible since the load is self-stabilized by the film 10 already in place. A length of top sheet film 11 is then unwound, to the desired length on top of the load, the plate is lowered and the top sheet is cut. The stretch wrapping is then restarted downward over several turns, so that the top sheet 11 is encircled by several turns of the stretch-wrapping film 10, which is finally welded to itself and cut. In order to ensure protection against adverse weather conditions, any overlap between the turns of the film 10 that are stretch-wrapped downward around the top sheet 11 is avoided as much as possible.
The invention is not limited to the examples described and represented. In particular, the values given in the examples above for the dimensions of the rolls and packs are purely illustrative, it being understood that the dimensions of the packs according to the invention may be adapted, in particular in order to be compatible with any dimensions of pallets and of means of transport. Furthermore, the invention was described on the basis of examples using rolls as insulation products. As a variant, as mentioned previously, the invention is also applicable to other insulation products of elongated shape, such as batches of boards that are preassembled, having a substantially parallelepipedal shape. Furthermore, the invention may be implemented with film and cover materials that are different from those described above.
Number | Date | Country | Kind |
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1658048 | Aug 2016 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/FR2017/052297 | 8/29/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2018/042119 | 3/8/2018 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
7311199 | Vantilt | Dec 2007 | B2 |
20060196799 | Vantilt | Sep 2006 | A1 |
20120205272 | Heilman | Aug 2012 | A1 |
20130067861 | Turner | Mar 2013 | A1 |
Number | Date | Country |
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0 050 078 | Apr 1982 | EP |
0 220 980 | May 1987 | EP |
1 777 170 | Apr 2007 | EP |
WO 2004103821 | Dec 2004 | WO |
Entry |
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International Search Report dated Oct. 17, 2017 in PCT/FR2017/052297 filed Aug. 29, 2017. |
Number | Date | Country | |
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20190202614 A1 | Jul 2019 | US |