EP1675789A1

EP1675789A1 - Bag having an elastic band, and method for the production thereof

Info

Publication number: EP1675789A1
Application number: EP04787362A
Authority: EP
Inventors: John Persenda
Original assignee: Sphere SA
Current assignee: Sphere SA
Priority date: 2003-09-24
Filing date: 2004-09-13
Publication date: 2006-07-05
Anticipated expiration: 2024-09-13
Also published as: ES2281019T3; FR2859982A1; US8556508B2; FR2859982B1; DE602004004173D1; US20070036472A1; ATE350309T1; EP1675789B1; CA2540267A1; WO2005030612A1

Abstract

The bag (1) has an elastic band (16) extending on the entire width of the bag and joined at two sides (1a, 1b) of the bag along lateral ends (2, 3). The band is connected to the side (1a) by connection zones (17, 2a), where the connection zone (17) forms an intermediate connection zone situated at a distance from the lateral ends. The sides are joined with each other along the lateral ends. An independent claim is also included for a method of continuous manufacture of chain of bags.

Description

BAG ELASTIC BAND AND MANUFACTURING METHOD The present invention relates to a bag, in particular plastic, in particular a refuse storage bag, of the type called "elastic band", bordering 1 ^* opening of the bag to help retain resiliently the bag on a bin, and a method of manufacturing such a bag. In general, in industrialized countries, waste and garbage, in particular household garbage, is stored in plastic bags. These plastic bags generally have two plastic faces connected to each other on their periphery, leaving an opening area. These bags most often have a rectangular shape, although other shapes are possible: for example, the bottom of the bag can have a rounded shape. In the following description, for convenience, reference will be made to bags of rectangular shape, but it is understood that the bags according to the present invention are not limited to this shape. The bags can be prepared from two rectangular sheets of plastic, by welding three sides of the rectangle and leaving the fourth side open. They can also be prepared from a single sheet of plastic material which is folded, either to form the bottom of the bag, or to form a lateral side of the bag, two of the other sides being heat-sealed. In known manner, in the bags, the faces can be connected together by a bellows at the bottom and / or at a lateral side, preferably on the two lateral sides. It is also known to manufacture so-called sliding link bags in which the opening of the bag, whatever it is, is bordered by a sheath in which a link is capable of sliding. The link can consist of a single strand, the two ends of the link being fixed between them. It can also consist of two strands, each strand being fixed by each of its ends to the sheath. The link is preferably a plastic tape capable of being heat-welded. The sheath is generally prepared by folding the plastic sheet parallel to the opening and by heat sealing it. parallel to the edge of the film. The sheath can be continuous or formed from two separate parts. This is in particular the case when the bags are formed by heat welding on the lateral sides and that the sheath is formed by folding back the plastic sheet before heat welding on the lateral sides. Such bags with a sliding link in plastic material, which is substantially non-elastic, are described in patents EP-953 511 and EP-1 232 954 belonging to the applicant esse. It has also been proposed in the state of the art, for example in patent US-5, 133,607, in the German utility model DE-201 10 350-U1 and in international application WO 03/035500, a bag of the sliding link type, in which the sliding link is made of elastic or extensible material. This elastic link in closed loop is characterized in that the length of its periphery is less than that of the opening of the bag, so that the user must elastically extend the sliding link to come and fix it around the periphery of a receptacle, for example a trash can. Thus, this sliding link makes it possible to elastically retain the bag on the trash can, in a wide range of trash sizes, while limiting the risk that the bag slides inside the trash, for example under the effect of the weight of the waste inside the bag. However, the aforementioned elastic sliding link bags have a double drawback, due to the presence of relatively deep lateral cutouts which are formed on the longitudinal edge of the opening of the bag. The presence of these relatively large recesses has on the one hand the disadvantage of not allowing the complete closure of the bag, when the sliding links are knotted, after filling the bag. Indeed, during the transport or storage of bags filled with waste, waste could escape through these recesses. On the other hand, the presence of these relatively large recesses reduces the length of sheath in contact with the link, and therefore weakens the bag when the latter is transported full by using the elastic sliding link as a handle. In addition, all these bags with elastic sliding link have the common drawback that the elastic link may not have sufficient tensile strength to support a weight. significant amount of waste in the bag during transport. In addition, even if the tear resistance is sufficient, if the weight of the waste in the bag is high, the sliding link, which is generally used as a handle by the user during transport of the bag, risks being subjected to elastic elongation, which can cause the bag to drag on the ground, or lower it enough so that it abuts against obstacles, which constitutes a significant inconvenience for the user. Also known from document EP-A-1 013 567 is a bag of the type with a sliding link made of plastic, and comprising an elastic ribbon, the ends of which are fixed by a hot-melt adhesive to one of the external faces of the bag, in the vicinity but at a distance from the sheath containing the sliding plastic link. This elastic tape is grippable from the outside by the user, after the edge of the bag has been folded around the neck of a bin, and the user can elastically extend it so that the tape forms a loop closed that can enclose the periphery of the container, allowing the bag to be held resiliently on the trash can. Although the elastic ribbon, preferably rubber, can be chosen so as to have a maximum elongation of 800%, this elastic ribbon preferably has an elastic elongation of less than 500%. In a first example, the elastic tape has a length at rest of the order of a quarter of the length of the periphery of the container. In a first variant, the elastic ribbon is elongated so as to surround only three sides of the container, which corresponds to an elastic elongation of the order of 200%, that is to say a tripling of its length. In another variant, the elastic ribbon is elongated so as to form a closed loop which encloses the entire periphery of the container, which corresponds to an elastic elongation of the order of 400%, that is to say a multiplication by five of its length at rest. In another example, the elastic ribbon has a length slightly less than the half-periphery of the container, so that it is necessary to form a closed loop with the elastic ribbon to ensure the elastic retention of the bag on the container, which corresponds to an elastic elongation at least equal to 200%, that is to say at least a tripling of its length. Advantageously, this elastic tape is used only for the elastic retention of the bag. on the container, while the plastic sliding link is used for knotting, in order to close the bag. Similarly, document EP-A-1 266 837 describes a bag of the sliding link type made of plastic material, further comprising an elastic band which is fixed at its ends to the side edges of the bag and is, in a variant, housed in the same sheath as the plastic sliding link, or else disposed on the outer face of said sheath. As in document EP-A-1 013 567, to ensure the elastic retention of the bag on a trash can, it is necessary to form a closed loop with the elastic tape and it is provided for this purpose that the elastic extension of the tape must be greater than 200%, for example 250% and preferably 300% or more. However, these two documents EP-A-1 013 567 and EP-A-1 266 837, which relate to the same type of bag with a sliding plastic link provided with an elastic tape for holding the bag on a container, use elastic tapes having a high degree of elastic elongation, greater than 200%, which therefore requires the use of particular elastic materials, which can be difficult to weld or to connect to the bag, and which are, moreover, difficult to implement in a continuous manufacturing process of a chain of bags, because the high degree of elasticity of the tape risks disturbing the multiple welding, folding and cutting operations which are necessary to manufacture, for example, a continuous roll of a chain of bags. Indeed, during such a continuous manufacturing process, the plastic sheets constituting the faces of the bag as well as the various links and ribbons are driven on multiple rollers or drive rollers, in order to ensure tensioning of all of these elements. However, a highly elastic ribbon subjected to such a tensioning could undergo elastic deformations during the process of manufacturing the chain of bags, detrimental to the quality of the heat-welds, or even causing a puckering of the bag, if these thermos welds are not properly performed. It is for this reason that in document EP-A-1 013 567 the elastic ribbons are glued individually and separately on each bag of the bag chain, either transversely the direction of advancement of the bag chain, or parallel to said direction. The invention therefore aims to provide a bag of the elastic band type for resiliently fixing the periphery of the bag on a receptacle and which avoids the aforementioned drawbacks. Another object of the invention is to avoid the risk of the waste falling out of the bag, after it has been closed. The invention also aims to limit the risk of rupture or tearing of the elastic band or the risks of deformation of the elastic band during transport of the bag filled in particular with waste. To this end, the invention relates to a bag consisting of two faces connected together over their entire periphery, with the exception of a longitudinal edge, the bag having an opening opening onto said longitudinal edge, the two sides of the bag being welded to each other along two opposite lateral edges, at least one face being provided, in the vicinity of said opening, with at least one elastic band connected to said face by two connecting zones so that the useful length at rest of said elastic band between the two connection zones corresponds to the spacing between the two connection zones on the bag and is less than the length of the longitudinal edge of said face of the bag, a bag of this type being described in document EP-A-1 013 567. The bag according to the invention is characterized in that the elastic band extends over the entire width of the bag, from one side border to the other, said elastic band being welded to both faces of the bag along said lateral edges, at least one of the two aforementioned connecting zones forming a so-called intermediate connecting zone located at a distance from the two aforementioned lateral edges. Within the meaning of the invention, the useful length at rest of the elastic band can vary slightly, depending on the elasticity of the band and its slight deformation when it is welded to the bag. This elastic band, which is not housed in a sheath, can thus be manufactured continuously in a process for manufacturing a chain of bags, while having a reduced useful length, corresponding to the narrowing of the extensible and grippable part of the outside of said elastic band due to the presence of the intermediate connection zone between the two lateral edges of the bag. On the contrary, in document EP-A-1 013 567, the elastic band has a length at rest markedly less than the width of the bag. Even if a passage, on a purely general basis and without any example of application, indicates that this strip can extend over the entire width of the bag, it is by no means provided that it can be welded to the side edges of the bag. This strip is in practice fixed by a thermo-adhesive glue, which cannot therefore be located at the welds of the side edges of the bag, without affecting the good bonding of the strip to the bag. Each strip is bonded, individually and discontinuously, as visible in FIGS. 7 and 17, which distances the person skilled in the art from the present invention which is suitable for welding a continuous elastic strip over the length of a chain of bags. Advantageously, each side of the bag has a sheath bordering said opening and in which a non-elastic sliding link is disposed, each non-elastic sliding link being graspable from the outside by at least one recess provided through said sheaths, so that this non-elastic sliding link is essentially used for knotting to close the bag, while the elastic band is mainly used for elastic maintenance of the bag on a container. In this case, provision may be made for each side of the bag to be folded inwards, along the longitudinal edge of the bag, so that part of the fold forms the aforementioned sheath and is extended beyond by a skirt, said elastic band being connected to the corresponding face of the bag by at least partially overlapping said skirt. Thus, the intermediate connection zone can be produced at least partially on a double thickness of plastic sheets formed by one face of the bag and the aforementioned skirt. Preferably, this intermediate connection zone does not extend in the part of the fold forming the sheath, in order to allow the non-elastic link to slide freely in the sheath. The fact of welding the elastic band at its intermediate connection zone on a double thickness of sheets makes it possible to reinforce this intermediate weld which is subjected to high tensile stresses. As a variant, each side of the bag associated with the elastic band is folded inwards along the longitudinal edge of the bag, so that the elastic band is connected to said face, at least partially overlapping said fold. Thus, even when the bag does not have a sliding link in a sheath, it is advantageous to provide an internal fold to ensure a double thickness of plastic sheets at the intermediate connection zone of the elastic band on the bag. According to another characteristic, the other of the two aforementioned connection zones forms another intermediate connection zone located at a distance from the two aforementioned lateral edges and from the first intermediate connection zone. As a variant, the other of the two aforementioned connecting zones is formed by the zone for welding the elastic band with the side edge of the bag which is the most distant from the aforementioned intermediate connecting zone. In this case, the two sides of the bag form a double thickness of sheets for the connection of the elastic band at the side edge. Preferably, each elastic band is connected to an internal face of the bag. However, as a variant, each elastic band can be connected to an external face of the bag. In another particular embodiment, each elastic band is cut longitudinally into two vertically adjacent strands, the respective connecting zones of which are in the vertical extension of each other, so that the two strands form with the bag a closed loop, each strand of which is intended to enclose an opposite side of a container. In this case, one of the strands will remain along the face of the bag which carries it, while the other strand will be elastically elongated so as to grip the opposite side of the container. The intermediate connection zone of the elastically elongated strand, which is subjected to the highest stresses, is thus locally reinforced by the intermediate connection zone of the adjacent strand. According to yet another characteristic of the invention, the elastic band has a degree of elongation less than 150%, and preferably of the order of 100%. For example, this elastic band is based on ethylene vinyl acetate (EVA). The present invention also relates to a process for the continuous production of a chain of bags, said process comprising the steps consisting in: a) placing, inside a folded sheet, at least one elastic ribbon, along one longitudinal edges of the sheet; b) performing, at regular intervals corresponding to the width of a bag, at least one transverse heat seal limited to the height of the elastic tape only, to form an intermediate connection zone of the elastic tape on the corresponding internal face of the leaf ; c) to carry out, at regular intervals, corresponding to the width of a bag, a plurality of pairs of adjacent transverse heat seals corresponding to the side edges of the bags, so as to heat seal with the side edges of the bags the elastic tape mentioned above, said pairs of transverse thermowelds being carried out at a distance from the aforementioned limited transverse thermowelds; d) pre-cutting, at regular intervals, the sheet between the transverse heat seals of each pair, to form a chain of pre-cut bags. This manufacturing method has the advantage of allowing the continuous production of a chain of bags with an elastic band, the useful length of which at rest is less than the width of one side of the bag, without risking gathering the body of the bag. . Advantageously, the method comprises the additional step consisting: e) before step a) or b), of folding inwards each longitudinal edge of the sheet to form an internal fold, the aforementioned elastic ribbon being placed on a fold , with an at least partial overlap, so that the elastic tape is welded in step b) to at least a double thickness of material at its intermediate connection zone. According to yet another characteristic of the invention, the method comprises the additional steps consisting before step a): f) of cutting portions of film in the vicinity of the two longitudinal edges of the folded sheet, at regular intervals corresponding at least to the width of a bag, for example one or two bag widths; g) placing inside said folded sheet two ribbons of non-elastic material, in line with said cut portions on each side of the sheet so that each non-elastic strip is housed inside a fold; h) thermally welding the folds parallel to the longitudinal direction, to form a sheath in which is housed each non-elastic tape, the elastic tape at least partially overlapping the remaining portion forming the skirt of the fold. The invention will be better understood, and other objects, details, characteristics and advantages thereof will appear more clearly during the following description of several particular embodiments of the invention, given solely for illustrative purposes and not limiting. , with reference to the accompanying drawings in which: - Figure 1 is an elevational and perspective view of a first embodiment of a bag according to the invention, with elastic band and non-elastic sliding link; - Figure 2 is a sectional view along line II-II of Figure 1, in the open position of the bag; - Figure 3 is a partially cutaway and perspective view of a second embodiment of the bag according to the invention mounted on the neck of a container, before the tensioning of the elastic band; - Figure 4 is a view similar to Figure 3, but showing the elastic band during elongation; - Figure 5 is a view similar to Figure 4, but showing the elastic band in the final elastic holding position on the opposite edge of the container; - Figure 6 is an elevational view of a third embodiment of the bag according to the invention, comprising an external elastic band; - Figure 7 is a view similar to Figure 6, but showing a fourth embodiment of the bag according to the invention, in which the elastic band is cut into two strands; - Figure 8 is a schematic view showing the bag of Figure 1 in a closed position of the bag, the plastic sliding link ready to be tied; - Figure 9 is a partially cutaway and perspective view of a step in the method of manufacturing a chain of bags according to the first embodiment of the invention; and - Figure 10 is a view similar to Figure 1, but showing a fifth embodiment of the bag according to the invention, without plastic sliding link. In the first embodiment illustrated in FIGS. 1 and 2, it can be seen that the bag 1 according to the invention consists of two substantially parallel faces la, lb rectangular, the faces la, lb being formed by the same sheet of plastic material which is folded to form the bottom of the bag, this bottom being rounded when the bag is in the carrying position, as shown in FIG. 2. In the storage position, the faces 1a and 1b are brought back one against the other and are connected at the bottom with a flat fold, as shown in Figure 1. On their side edges 2 and 3, the faces la and lb are connected together by corresponding welds 2a and 3a. These welds 2a and 3a extend substantially over the entire height of the bag 1 and form a vertical line, but these welds may not be linear but extend over the entire lateral marginal zone of the bag. On the side opposite the bottom 1c, the periphery of the bag has an opening area ld defined along the longitudinal edge of each face 1a and 1b, the longitudinal edge of each face 1a and 1b extending at the level of the area of opening ld, by an internal fold 4, one end of which is welded to the corresponding face of the bag by a longitudinal weld 4a. This fold 4 is extended beyond the longitudinal weld 4a by a skirt 4b, which can be free or else itself welded to the corresponding face of the bag. The longitudinal weld 4a is preferably continuous over the entire width of the bag. It can also be non-continuous, broken line or dotted line. In the embodiment shown in Figures 1 and 2, we see that the internal fold 4 forms a sheath 8 in which is disposed a non-elastic sliding link 6. On the skirt 4b of the face 1a of the bag, a strip of elastic material 16 is arranged, which is connected to the lateral edges 2 and 3 by the transverse weld lines 2a and 3a. As best seen in FIG. 2, the elastic band 16 completely overlaps the skirt 4b, without however interfering with the sheath 8, so that the non-elastic sliding link, for example made of plastic, can freely slide between its ends which are also welded with transverse welds 2a and 3a. The lower edge of the elastic band 16 may exceed or correspond exactly to the lower edge of the skirt 4b. The elastic band 16 has a so-called intermediate connection zone 17 with the face 1a of the bag, which is constituted by a vertical line of welding or bonding or the like, this line 17 being limited to the height of the band 16. Advantageously, the band elastic 16 overlaps the longitudinal weld 4a, without however interfering with the sliding link 6, so that the tensile forces exerted at the level of the line 17 are taken up by the weld 4a, thus reinforcing the resistance of the line 17 to the tear. Of course, as a variant, each face of the bag could include an elastic band. In Figures 1 and 2, there is shown a recess 12, substantially in the middle part of each sheath 8, along the longitudinal edge of the opening of the bag, the recess 12 passing through the faces 1a and 1b of the bag, each side of it. This recess is shown here in a substantially semi-circular shape, but it could have any shape, for example oval or square, or other, and it is not necessary that the sliding link 6 is visible over its entire height through the 'recess 12. This recess 12 may be provided laterally, in a manner substantially similar to the recess 112 which will be described later with reference to the embodiments of Figures 6 and 7. The main function of the elastic band 16 is to allow '' Elastically adjust the periphery of the bag to the edge of a receptacle, while the non-elastic link 6 will be used mainly to carry the bag when filled with waste and / or to tie the links 6 for closing of the bag (see Figure 8). Given the arrangement of the link 6 and the strip 16, it is understood that when closing the bag will be completely closed, avoiding or limiting the risk of waste falling out of the bag during transport or storage. When transporting the full bag, it is the other plastic link 6 which is used to prevent the elastic band from being deformed. In Figure 2, we indicated by the reference numeral I the interior of the bag, in the open position. The elastic band 16 is arranged over the entire width of the bag, from a side edge 2 to the other 3, in a stretched state but not elastically elongated when the bag is flat, to avoid any puckering of the bag. The limited weld line 17 is made in the vicinity of a side border 3 of the bag, so that the grippable portion from the outside and elastically deformable of the strip 16 is that between the line 17 and the opposite side border 2 the more distant. Thus, the spacing L2 between the two welds 2a and 17 on the elastic band 16 is substantially less than the length L1 between the welds of the two lateral edges 2 and 3 of the bag, which makes it possible to produce an elastic band having a useful length at rest less than that of the opening of the bag. By way of nonlimiting example, it can be provided for a bag having a capacity of capacity of 30 liters and a length L1 equal to about 50 cm (half-perimeter) that the connecting zone 17 is arranged so as to obtain a spacing L2 of the order of 34 cm. Thus, to maintain the bag on a bin with a perimeter of the order of 1 meter, it is necessary to lengthen the elastic band from 34 cm to 66 cm, by turning the band on the side of the bin opposite to that where the strip is initially placed, which corresponds to a degree of elastic elongation of the order of 94%. In practice, it is desirable that the material is chosen with a slightly higher degree of elastic elongation to facilitate the positioning of the strip on the opposite side of the container. Generally, the degree of elastic elongation required remains less than 150% and is preferably of the order of 100%. Thus, the length L2 can advantageously be chosen on the order of 2/3 of L1. Advantageously, the link 6 and the strip 16 are of a different color from the color of the sheet constituting the faces 1a and 1b and the link and the strip can themselves be distinguished by different colors. By way of example, the strip 16 made of elastic material, for example ethylene vinyl acetate (EVA) is chosen so as to allow a degree of elastic elongation of less than 150%. The other non-elastic link 6 is, for example, made of plastic material, for example high density polyethylene. FIG. 2 shows the elastic band 16 in a slightly relaxed state inside the bag in the open position I, that is to say in a position in which the elastic band 16 is no longer necessarily in contact, in particular in its middle part, with the internal wall facing the bag. Thus, the user can easily, from the outside, grasp the elastic band 16 by introducing his hand through the opening ld. In the embodiments illustrated in FIGS. 3 and following, the same reference numbers will designate identical or analogous elements. In the second embodiment illustrated in FIGS. 3 to 5, the bag differs from that illustrated in FIGS. 1 and 2 essentially by the fact that the elastic band 16 is connected to the skirt 4b by two intermediate connecting zones 17 and 17 ', which are symmetrical to each other with respect to a plane passing through the median recesses 12. Of course, the two intermediate connecting zones 17 and 17' could be arranged at different distances from the respective lateral edges 3a and 2a, without departing from the scope of the invention. The spacing L2 is therefore here defined between the zones 17 and 17 '. For example, for a 30 liter bag having a length L1 equal to 500 mm, zones 17 and 17 'can be provided so as to obtain a spacing L2 equal to 34 cm, each zone 17, 17' being spaced of its corresponding lateral border 3 and 2 of approximately 8 cm respectively. In this second embodiment, the elastic band 16 is entirely disposed on the skirt 4b, while in the first embodiment, the elastic band protruded on either side of the skirt. When the bag is positioned on a container R, of rectangular, square, circular or other section, the rim of the bag at its opening is folded down on the peripheral edge of the container, as visible in FIG. 3, which advantageously makes it appear the elastic band 16 which is now oriented towards the outside of the external wall of the container. When the elastic band is placed on the outer wall of the bag, as described below with reference to FIGS. 6 and 7, the elastic band is then hidden between the outer wall of the container and the folded rim of the bag, but the user can easily grab the elastic band by sliding his hand between the folded edge of the bag and the outer wall of the container to pull it down and fold it down on the other side of the container. In Figure 4, the elastic band is shown during its elongation by the user, before he folds it on the side opposite to the container, as shown in Figure 5. In Figure 3, the elastic band is at rest, while in FIG. 5 the elastic band is in its elastically elongated state, which generates a sufficient elastic force to hold the bag on container R. It is not necessary for this elastic band to be elongated until it forms a closed loop to enclose the entire periphery of the container. In the third embodiment illustrated in FIG. 6, the bag 101 is essentially distinguished from the aforementioned bag 1 by the fact that the median recess 12 is optional, at least one lateral recess 112 being provided to give access to the outside the non-elastic sliding link 106. This non-elastic sliding link 106 is welded at one end with the side edge 2 of the bag, along the weld line 2a, while the opposite ends of the non-elastic link 106 are welded together along a weld 107 which is formed through the recess 112, so that this end of the non-elastic link 106 is not linked to the side edge 3 of the bag. This variant of non-elastic sliding link is known per se. Of course, the bag 101 could have two lateral recesses for gripping the plastic link 106, without departing from the scope of the present invention. Each lateral recess 112 may have any shape, in particular a quarter of a circle, a quarter of an ellipse or a rectangular. The bag 101 also differs in the fact that the elastic band 116 is fixed to the external wall of the face 1a of the bag, its upper edge being situated slightly above the aforementioned line 4a, while its lower edge is situated above above the lower edge of the skirt 4b. Thus, the elastic band 116 partially overlaps the skirt 4b and the portion of the fold 4 forming the sheath for the sliding link 106, without the link 106 and the strip 116 being able to be superimposed. The use of the bag 101 is substantially similar to that of the bag 1, as described with reference to Figures 3 to 5. In the fourth embodiment illustrated in the figure

7, the elastic band is cut or split longitudinally into two separate strands 116a and 116b, vertically adjacent and arranged, for example, on the outer wall of the face 1a of the bag. When placing the bag on a container, the strand 116a can remain, for example, on the side la of the bag, without elongation, while the other strand 116b is elongated to grip the other side of the container, analogously to the aforementioned strip 16. In this position, we can consider that the two strands 116a and 116b form with the bag 101 a substantially closed loop around the container. In addition, the intermediate connection zone 117b which is subjected to a strong stress is locally reinforced by the presence of the intermediate weld 117a of the other strand 116a. In FIGS. 6 and 7, there is shown in broken lines the additional median recess 12, thus giving access to the non-elastic link 106. However, such a median recess 12 is not necessary, because the user can already access to the non-elastic link 106 by the lateral swelling 112. We will now refer more particularly to FIG. 9 which represents a step in a continuous manufacturing process for a chain of bags from which the aforementioned bag 1 may originate . As described in more detail in patent EP 1 232 954, to begin with, a continuous sheath of plastic film, for example made of polyethylene, is scrolled on a machine, not shown, which is cut longitudinally in its center to obtain two separate half sheaths. Then, on each half sheath, circular or elliptical portions are cut at regular intervals corresponding to once the width of a bag (or twice the width of a bag if only one lateral recess is provided per bag) , in order to form semi-circular or semi-elliptical recesses 12 after folding the edge longitudinal of the sheet 20 of the half sheath towards the inside, as shown in FIG. 9. Of course, the shape of the cut can be any, for example square, rectangular or other. Then, a plastic tape 6 is introduced inside each fold 4, before closing it with a longitudinal heat seal to form the sheath. Then, an elastic ribbon 16 is introduced into the sheath, along the free edge of the fold 4, overlapping it at least partially. Of course, one could completely reverse the operations, by first arranging the elastic tape 16 and then heat-sealing the fold 4 to form the sheath. The process is the same in both cases; the internal edge of the fold is thermo-welded (along a line 4a) on each face of the sheet 20 to form the sheaths, in the running direction F. Then, at regular intervals corresponding to the width of a bag, pairs heat seals 2a and 3a are made substantially midway between the semi-circular or semi-elliptical cuts. Each pair of heat seals 2a or 3a is such that the individual bags can then be separated by transverse cutting or by precut between the heat seals of each pair. The machine also performs transverse thermal welds 17 limited to the portion corresponding to the elastic tape 16 to form the aforementioned intermediate connecting zones limiting the useful length at rest of the elastic band. Of course, the order of the steps for producing the heat seals 4a, 2a and 3a, and 17 can be modified, without departing from the scope of the invention. We will now describe a fifth embodiment with reference to Figure 10 in which is represented a bag 201 which is essentially distinguished from the previous bags in that it does not have a non-elastic sliding link, the bag 201 simply comprising an elastic band 216 along a side 1b of the bag, inside as shown, or outside. Preferably, this bag 201 also includes an internal fold 4, the lower internal edge 4a of which is not necessarily welded to the rest of the bag, outside the borders side 2 and 3. Thus, the elastic band 216 is disposed in line with this internal fold 4, so that the limited transverse weld 217, located between the side welds 2a and 3a, is reinforced by the double thickness of material at the level of the fold 4. Of course, the other alternative embodiments of the elastic band illustrated with reference to FIGS. 1 to 9 are applicable to the bag 201 devoid of a plastic sliding link. In particular, the elastic band 216 could be cut into two strands as in FIG. 7, or alternatively provided on the outside as in FIG. 6, or else have two intermediate connecting zones as in FIGS. 3 to 5. In such a way similar, the overlap between the fold and the elastic band can be total or partial as illustrated in the other figures. Although the invention has been described in connection with several particular embodiments, it is obvious that it is in no way limited thereto and that it includes all the technical equivalents of the means described as well as their combinations if these fall within the scope of the invention.

Claims

CLAIMS 1. Bag (1, 101, 201) consisting of two faces (la, lb) connected together over their entire periphery, with the exception of a longitudinal edge, the bag having an opening (ld) opening onto said edge longitudinal, the two faces of the bag being welded to one another along two opposite lateral edges (2, 3), at least one face being provided, in the vicinity of said opening, with at least one elastic band ( 16, 116, 216) connected to said face by two connecting zones (17, 117, 217; 2a, 17 ') so that the useful length at rest (L2) of said elastic band between the two connecting zones corresponds to the spacing between the two connecting zones on the bag and is less than the length (L1) of the longitudinal edge of said face of the bag, characterized in that the elastic band (16, 116, 216) extends over all the width of the bag, from one side border to the other, said elastic band being welded to the two sides of the bag lon g of said lateral edges, at least one of the two aforementioned connecting zones forming a so-called intermediate connecting zone (17, 117, 217, 17 ') situated at a distance from the two aforementioned lateral edges. 2. Bag according to claim 1, characterized in that each face of the bag (1, 101) comprises a sheath (8) bordering said opening (ld) and in which is disposed a non-elastic sliding link (6, 106) , each non-elastic sliding link being graspable from the outside by at least one recess (12, 112) formed through said sheaths. 3. Bag according to claim 2, characterized in that each side of the bag (1, 101) is folded inwards, along the longitudinal edge of the bag, so that part of the fold (4) forms the sheath (8) above and extends beyond by a skirt (4b), said elastic band (16, 116) being connected to the corresponding face of the bag at least partially overlapping said skirt. 4. Bag according to claim 1, characterized in that each side of the bag (201) associated with the elastic band (216) is folded inwards along the longitudinal edge of the bag, so that the elastic band is connected to said face, at least partially overlapping said fold (4). -. 5. Bag according to one of claims 1 to 4, characterized in that the other of the two aforementioned connecting zones forms another zone intermediate link (17 ') located at a distance from the two aforementioned lateral edges (2, 3) and from the first intermediate link zone (17). 6. Bag according to one of claims 1 to 4, characterized in that the other of the two aforementioned connecting zones is constituted by the welding zone (2a) of the elastic band with the side edge (2) of the bag the furthest from the aforementioned intermediate connection zone (17, 117, 217). 7. Bag according to one of claims 1 to 6, characterized in that each elastic band (16, 216) is connected to an internal face of the bag (1, 101). 8. Bag according to one of claims 1 to 6, characterized in that each elastic band (116, 116a, 116b) is connected to an external face of the bag (101). 9. Bag according to one of claims 1 to 8, characterized in that each elastic band is longitudinally cut into two vertically adjacent strands (116a, 116b), the respective connecting zones (117a, 117b) are in the extension vertical to each other, so that the two strands form a closed loop with the bag, each strand of which is intended to grip an opposite side of a container. 10. Bag according to one of claims 1 to 9, characterized in that the elastic band (6, 16, 116) has a degree of elongation less than 150%, and preferably of the order of 100%. 1 1. A method of continuously manufacturing a chain of bags, said method comprising the steps consisting of: a) placing at least one elastic ribbon (16) inside a folded sheet (20), along one of the longitudinal edges of the sheet; b) performing, at regular intervals corresponding to the width of a bag, at least one limited transverse heat seal (17) on the height of the elastic tape only, to form an intermediate connection zone of the elastic tape on the internal face sheet correspondent; c) to carry out, at regular intervals, corresponding to the width of a bag, a plurality of pairs of transverse heat seals adjacent (2a, 3a) corresponding to the side edges of the bags, so as to heat weld with the side edges of the bags the aforementioned elastic tape, said pairs of transverse heat seals being carried out at a distance from the aforementioned limited transverse heat seals (17 ); d) pre-cutting, at regular intervals, the sheet (20) between the transverse heat seals of each pair, to form a chain of pre-cut bags. 12. Method according to claim 11, characterized in that it comprises the additional step consisting: e) before step a) or b), of folding inwards each longitudinal edge of the sheet to form a fold internal (4), the aforementioned elastic ribbon (16) being disposed on a fold, with at least partial overlap. 13. Method according to claim 12, characterized in that it comprises the additional steps consisting before step a): f) of cutting portions of film (12) in the vicinity of the two longitudinal edges of the folded sheet (20 ), at regular intervals corresponding at least to the width of a bag, for example one or two bag widths; g) to have inside said folded sheet two ribbons (6) of non-elastic material, in line with said cut portions on each side of the sheet so that each non-elastic ribbon is housed inside a downturn ; h) thermally welding the folds (4) parallel to the longitudinal direction (F), to form a sheath in which is housed each non-elastic ribbon, the elastic ribbon at least partially overlapping the remaining portion forming the skirt of the fold.