method to continuously manufacture containers made from flexible material and machine to carry out s

专利摘要:
METHOD AND MACHINE FOR THE CONTINUOUS MANUFACTURING OF PACKAGES MADE FROM FLEXIBLE MATERIAL AND RESULTING PACKAGING The invention relates to a method for continuously manufacturing containers made from a flexible material from a single continuous laminar strip or from several strips continuous laminar strips, which will be longitudinally fixed to form a single continuous laminar strip, which will subsequently be cut transversely. In both cases, at a stage of the production phase, a single laminar strip folded over itself along longitudinal fold lines is obtained, whose cross section, open or closed according to the mode variant, forms a flat figure in which the upper base of the container is distinguished, which in a variant of the method comprises a part of strip previously provided with corresponding holes and nozzles, collapsed on one side, the single laminar strip being susceptible to actuation through the two actuation rollers .
公开号:BR112012002560B1
申请号:R112012002560-0
申请日:2010-07-01
公开日:2020-07-28
发明作者:Jordi Font Lletche
申请人:Volpak, S.A.U；
IPC主号:

专利说明:

Technical Field of Invention
[0001] The invention relates to a method for continuously manufacturing containers made of a flexible material, from a single strip or several continuous laminar strips of hot-weldable plastic material on one of its faces, the container being of the type in which in the normal open position, two facing side walls and at least one upper base are distinct.
[0002] The invention also relates to a machine for putting the invention into practice and a container obtained through the method. Background of the Invention
[0003] Patent documents EP0052151 and W02007031330 describe similar containers, both made of a flexible material and in which, in the normal open position, two facing side walls and an upper base are distinguished. The described containers also comprise a lower base, similar in the two containers, formed by folding towards the inside of the container, a part of the laminar strip along a longitudinal fold line, which gives the lower base a shape of Inverted "V" known in the art.
[0004] Until now, providing the upper base of a container with these characteristics of a rigid nozzle, which can be covered by means of a lid or similar element, has significantly changed the method and the machine required to continuously manufacture the containers. This is because in order to position the nozzles in a central area of the upper base and fix it to the material forming said upper base, it is necessary to individualize the container from the strip or continuous laminar strips from which the containers are obtained, the end of the container being opposite to the upper base that is not yet closed, with the purpose of being able to introduce in the container being manufactured, through its open lower base or bottom, the necessary means to realize the fixation by means of hot welding between the nozzle and the of leaf. For this operation, at least one welding clamp and one welding clamp are required, one of which acts from the outside of the container and the other acts from the inside, being then arranged between them, in a compressed manner , an essentially flat part of the nozzle and the part of the upper base intended to be fixed inseparably and tightened to the nozzle.
[0005] This mode of operation is not applicable to any of the processes described in the documents mentioned above, in which the bottom of the container, and in this case the bottom base, is always closed before the individualization of the containers.
[0006] Therefore, a first objective of the invention is to describe an alternative method to continuously manufacture and fill containers by means of which it is possible to obtain containers such as those described in WO 2007031330, but also, without it being necessary for this purpose to change significantly the means for putting it into practice, containers provided in their upper base with a suitable nozzle to extract the product contained from the container.
[0007] Another objective of the present invention is that the method is suitable for obtaining the containers from a single initial laminar strip, if desired.
[0008] It is also an objective of the invention that the method allows obtaining containers whose upper base does not have, at least along the part of its fixation contour with the side walls, heat-welded rims.
[0009] In addition, by means of known processes for obtaining containers with an upper base, the sheet part forming the upper base mentioned is folded on itself and towards the inside of the container, forming a folded part in a general shape of V, whose orthogonal edges are applied against the inner surface of the sheet parts forming the side walls, the edges being fixed by means of triangular welds to said side walls which, additionally, are also fixed together. Thus, once the container is full, the upper base forms a cover with a general dome shape, having two opposite ends slightly sunk between the upper parts of the side walls of the container, which remain vertical due to the effect of the triangular welds previously mentioned and the fixation of the side walls, with orthogonal edges, along its entire length.
[00010] These sunken ends of the upper base and side walls, which are raised on both sides of the container determine respective cavities, in which dirt is lodged during the storage, transport and emptying periods of the containers.
[00011] Another objective of the present invention is that the method is suitable for obtaining an alternative container, which can be obtained from a single flexible sheet, which prevents the aforementioned hindrance and at the same time improves the mechanical properties of the container when full and during maneuvers to open the lid or close the spout. In order to open the container, it is occasionally necessary to hold the container firmly while a turning motion is applied to the nozzle closure or cap, especially when it is attached to the nozzle body by screwing, and this turning motion can cause that, upon reaction, the container has a tendency to be deformed by twisting around its vertical axis. Description of the Invention
[00012] The method of the invention is suitable for continuously manufacturing containers made of a flexible material, of the type in which, in the normal open position, two facing side walls and at least one upper base are distinguished.
[00013] The method is essentially characterized in that in a production phase, a single continuous laminar strip is folded over itself along the longitudinal fold lines until its cross section forms a flat figure comprising the first side wall, at the along one of the edges from which the upper base of the container is collapsed, and the second side wall, the upper end of which is folded down on itself and contacts the rear of the upper collapsed base of the container, before the single laminar strip mentioned be cut across.
[00014] In a variant of interest, whose purpose is to manufacture a container provided with a nozzle in its upper base, in a first operation before the production phase is applied to the single continuous laminar strip, a series of nozzles to allow the exit of the product contained within the containers to be manufactured, equidistant from each other and aligned according to a line parallel to the longitudinal edges of the corresponding strip.
[00015] According to this variant of the invention, the strip that is collapsed on one side of the first side wall is formed by the part of the laminar strip on which the nozzles were previously applied.
[00016] According to a modality of this variant of interest, before the application of the nozzles, the part of the laminar strip in which the nozzles are applied is provided with a series of holes to communicate the inside of the container to be manufactured with the outside through corresponding nozzles. This modality is intended for the manufacture of containers in which the closure of the spout has no means to perforate the leaf forming the upper base. In other words, for containers in which the nozzle will be closed by means of conventional closing means such as a screw cap or the like.
[00017] A variant of the invention starts initially from a single continuous laminar strip which in the first previous operation is provided with the alignment of holes and / or corresponding nozzles, the part of the material separating the nozzles from each of the opposite longitudinal edges of the laminar strip being sufficient to form, in the subsequent production phase, half of the upper base and a respective side wall.
[00018] According to an embodiment of this variant of modality, the alignment of nozzles is equidistant from the longitudinal edges of the single initial laminar strip.
[00019] According to this variant of modality, the alignment of the nozzles is shifted towards one of the longitudinal edges of the single initial laminar strip, and the part of the material separating the nozzles from one of the longitudinal edges of the mentioned laminar strip is sufficient to form in the subsequent production phase half of the upper base, a corresponding side wall and the lower base of the container.
[00020] According to a variant of the method according to the invention, the containers are produced in an inverted position.
[00021] According to a preferred variant of the previous modality, the parts resulting from the four welding fittings of the two pairs of corners of the upper base with the side walls are subjected to an additional operation of cutting, adhesion, folding or conditioning.
[00022] Preferably, in that variant in which the four welding fittings of the pairs of corners of the upper base with the side walls have a triangular shape, the fittings are subjected to a cutting operation in the direction of the hypotenuse providing the upper base of the container being produced and the respective side walls with corresponding chamfers.
[00023] Another protection object is a container that can be obtained using the claimed method, that formed by a sheet made of a flexible material weldable on one of its surfaces, being especially advantageous, whose container comprises an upper base with a general shape of parallelepiped with its edges being chamfered and without any fold line crossing it transversely or longitudinally, preferably provided with a spout through which the contents of the container can be poured outwards, and two side walls with their upper edges chamfered in correspondence with the chamfers of the mentioned upper base, each chamfer of the upper base being fixed by hot welding to the chamfered edge of a corresponding side wall, a pair of inclined weld fillets being formed on each side of the container, which determine transition shoulders between the central part of the upper base and the sides s of the container, the angled solder fillets of one and the same pair converging in a corresponding vertical solder fillet between the facing edges of the two side walls of the container, extending to the bottom, or bottom base, of the mentioned container .
[00024] According to a variant of that advantageous container, at least one of the side walls is provided with an upper extension, which extends above the level of the upper base of the container, and one side of the mentioned upper base is formed by a line of fold along which the sheet part forming it is folded upwards to form a flap, the flap being juxtaposed to the upper extension of the side wall and fixedly adjusted therein in its contour to form a lateral neck of the container.
[00025] In an especially advantageous mode for liquid products, the nozzle is arranged in the area of the upper base that determines one of the transition shoulders.
[00026] According to a variant of the container according to the invention, the leaf parts forming the upper base and at least one of the side walls of the container are two contiguous parts of one and the same leaf fixed without interruption, the leaf part forming the upper base being provided with a vertical ring applied and fixed by hot welding to the upper edge of the vertical wall.
[00027] According to another aspect of the invention, a machine is described to implement the object of protection of the method. The machine is essentially characterized by comprising, in the direction of advancement of the strip or strips, a device suitable for making a hole alignment in a continuous laminar strip and for positioning a corresponding nozzle in each of them; a device for folding over a single initial laminar strip, or a single laminar strip formed from the longitudinal fixation of two or more initial continuous laminar strips, until its cross section forms a flat figure comprising a first side wall along of one of the edges from which a longitudinal strip of the laminar strip is collapsed comprising the part of the strip previously provided with nozzles, and a first side wall, the top end of which is folded down on itself downwardly and contacts the rear part of the mentioned longitudinal strip the laminar strip; a cross-cut device for the single folded laminar strip to separate a container being manufactured from the remainder of the folded laminar strip; and a device for turning the longitudinal strip of the separate container with respect to the side walls until the cross section of the container being manufactured adopts an outline with a general "T" shape. Brief Description of the Drawings Figures 1 and 2 are seen in respective section of a single initial laminar strip, corresponding to a specific stage of the production phase before the cross-section, according to two different variants of a method for the manufacture of a container without a bottom base; Figures 3, 4 and 5 are seen in respective sections of a single initial laminar strip, corresponding to a specific stage of the production phase before the cross-section, according to three different variants of the method of the invention for the manufacture of a container with a lower base; Figures 6 and 7 are seen in respective section of two initial continuous laminar strips, just before forming a single laminar strip, at a specific stage of the production phase before the cross-section, according to two different variants of a method for manufacturing a container with a lower base; Figures 8, 9, 10 and 11 are a sequence of operations that are carried out on a single initial laminar strip, according to a preferred embodiment of the method according to the invention; Figure 12 is a perspective view of a machine to implement the method according to the variant illustrated in Figures 8 to 11; Figure 13 is a perspective view of a machine to implement the method according to the variant illustrated in Figure 4; Figure 14 is a perspective view of a machine to implement the method according to the variant illustrated in Figure 5; Figure 15 is a perspective view of a machine to implement the method according to the variant illustrated in Figure 6; Figure 16 is a perspective view of a container that can be obtained using the method illustrated in Figure 1; Figures 17a and 17b illustrate a container that can be obtained using the variant of the method illustrated in Figure 3 or 5; Figure 18 is a perspective view of a machine to implement the method according to the variant illustrated in Figure 1; Figures 19a and 19b illustrate a container that can be obtained using the variant of the method illustrated in Figure 3, 4, 5, 6 or 7; Figures 20a and 20b illustrate a container that can be obtained, for example, by means of a modified variant of the method illustrated in Figure 3, 4, 5 or 7; Figures 21a and 21b illustrate a container that can be obtained, for example, by means of a modified variant of the method illustrated in Figure 3, 4, 5, 6 or 7; Figures 22a and 22b illustrate a container that can be obtained using the variant of the method illustrated in Figure 3, 5 or 7, the nozzle being off-center with respect to the center of the upper base; Figures 23a and 23b illustrate a container that can be obtained, for example, by means of a modified variant of the method illustrated in Figure 3, 4, 5, 6, 7, the nozzle being off-center with respect to the center of the upper base; and Figure 24 illustrates a container that can be obtained using any of the variants of the method illustrated in Figures 3 to 7, with the singularity that the upper base and the sides of the container are extended and are mutually fixed. Detailed Description of the Invention
[00028] The method according to the invention is suitable for the manufacture of containers from a single continuous laminar strip or from several continuous laminar strips, which will be fixed longitudinally to form a single continuous laminar strip, which will be subsequently cut transversely. In both cases, at a stage of the production phase, a single laminar strip folded over itself along longitudinal fold lines is obtained, whose cross section, open or closed according to the modality variant, forms a flat figure in the which is distinguished the upper base of the container collapsed on one side, the single laminar strip being subject to actuation by means of two actuation rollers. As detailed below, if containers provided with a respective nozzle on their upper bases are to be obtained, the strip part forming the mentioned collapsed base is previously provided with an alignment of nozzles (and corresponding holes if necessary), without this changing the way in which the single laminar strip is handled in the production phase, the method making it possible to manufacture containers with or without a spout at its upper base.
[00029] Figures 1 to 5 illustrate different variants of a method in which the containers are manufactured from a single continuous laminar strip 2 in which, in a first previous operation, a series of holes were drilled precise, in which the respective nozzles 3 are placed.
[00030] Among the illustrated variants, Figures 1 and 2 illustrate the cross-sectional contour of the laminar strip 2 at a stage of the production phase, before the cross-section of the laminar strip 2, suitable for obtaining a container 1 (see Figure 16 ) with a single upper base 5, the base of which the first and second side walls 8 and 7, respectively, are fixed forming a V-shaped container bottom similar to that of a common toothpaste tube.
[00031] In both cases, the cross section is originally open and in the variant of Figure 1 the longitudinal edges 9 and 11 of the laminar strip 2 will be fixed by hot welding, preferably before cutting the laminar strip 2 across, to form the bottom of the container 1, whereas in the variant of Figure 2 the longitudinal edges 9 and 11 of the laminar strip 2 will be fixed, also by means of hot welding and preferably before cutting the laminar strip 2 transversely, along the edge of the fixation between the upper base 5 and the first side wall 8 of the container 1.
[00032] In the variant of Figure 1, the upper base 5 is determined by two longitudinal folds 12 and 13 made in the laminar strip 2, whereas in the variant of Figure 2, the upper base 5 is determined by the weld fillet between the longitudinal edges 9 and 11 of the laminar strip 2 and the single longitudinal fold 13.
[00033] As mentioned above, in both variants, fixing by hot welding between the longitudinal edges 9 and 11 of the laminar strip 2 is preferably carried out before cutting the laminar strip 2 across, the cross section of the laminar strip 2 will therefore have a closed contour when the cut is made.
[00034] Unlike the variants of Figures 1 and 2, the variants shown in Figures 3 to 5 illustrate respective cross sections of a continuous laminar strip 2 folded over itself along longitudinal fold lines, suitable for obtaining a container 10 (see Figures 17a and 17b) with an upper base 5 and a lower base 14, the latter being similar to that of a doy-pack type known in the art.
[00035] It is seen in the variant of Figure 3 that the upper base 5 is fixed without interruption with the parts of the laminar strip 2 forming the first and the second side walls 8 and 7, so that the container 10 finally obtained will not have fixing seams , or hot welding strips, in their upper base 5 along their frontal and posterior fixation with the mentioned side walls 7 and 8.
[00036] Figures 8 to 11 illustrate a sequence of operations of the production phase of the method for making the container 10 described above and illustrated in Figures 17a and 17b, while Figure 12 illustrates a machine 100 for putting it into practice . Then, the method for making the container 10 will be described in detail with reference, when necessary, to Figures 8 and 11 and alternatively to Figure 12, which illustrates the machine 100.
[00037] In a first previous operation, the continuous laminar strip 2 is provided with a series of holes 6, which are identical and equidistant from each other, aligned according to a line parallel to the longitudinal edges 9 and 11 of the strip, a nozzle corresponding 3 to allow the exit of product contained within the container 10 being located in each hole, all as illustrated in Figure 12, which illustrates the machine 100 provided with a perforator 101; with nozzle dispensing device 102; and with a fixing device 103 to fix the nozzles 3 on the laminar strip 2.
[00038] It is seen in this Figure 12 and also in Figure 8 that the alignment of the holes 6 is displaced towards one of the longitudinal edges of the laminar strip remains initial 2, and specifically towards its longitudinal edge 11.
[00039] Then, the production phase begins, in which the operations of folding the laminar strip 2 according to a first double zigzag fold 15, towards its hot-weldable face, through a first and a second longitudinal fold lines 16 and 17, with 180 ° alternating angles, to form the bottom base of the container; and to fold the laminar strip 2 according to a second double zigzag fold 18, also towards its hot weldable face and with 180 ° alternating angles, over a third and fourth longitudinal fold line 19 and 20, to second side wall 7 of the container being determined between the fourth fold line 20 and the nearest longitudinal edge 11 of the laminar strip 2, all as shown below in Figures 8 to 10.
[00040] Next, as shown in Figure 9, the laminar strip 2 is folded on itself according to a third 180 ° fold towards its heat-weldable face, over a fifth longitudinal fold line 21, the fourth and the fifth fold lines 20 and 21, which delimit the upper base 5 of the container, each being on one side of the nozzle alignment 3, such that the inner face of the second longitudinal edge 11 of the laminar strip 2 is superimposed and coinciding with the inner face of the first longitudinal edge 9 of the laminar strip, the first side wall 8 of the container being determined between the fifth fold line 21 and the second fold line 17.
[00041] The machine 100 has for this purpose (see Figure 12) a first and a second folding device 104 and 105, the first of which being suitable for simultaneously making the first and the second zigzag folds 15 and 18 before the laminar strip 2 be folded along the fifth longitudinal fold line 21 by mediating the second folding device 105.
[00042] The shape obtained is flattened by means of a set of folding rollers 22 and is forced to advance towards the hot welding stations, illustrated in Figure 12. In these stations, the corners of the lower base are fixed by welding to the respective facing areas 23 of the first and second side walls 8 and 7; the facing longitudinal edges 9 and 11 of the laminar strip 2 along a longitudinal strip 24 and the facing parts of the laminar strip 2 along another longitudinal strip 24 'coinciding with the second fold line 17; the first and second side walls 8 and 7 along two transverse weld fillets 26 separated according to the width of an empty and folded container; and the corners of the upper base 25 with the parts of the laminar strip 2 of the first side wall 8 which contacts the rear of the mentioned upper base 5 tube as shown in Figure 10. The moment at which the laminar strip adopts the shape illustrated in Figure 9 was indicated by the letter A in Figure 12.
[00043] Generally, the two sides of the laminar strips used to manufacture the containers similar to those of the invention are provided with different properties, since the face intended to be the external face of the container will serve as a support for data printing or advertising, while the inner face will be in direct contact with the product stored by the container. Due to these properties, it is difficult to fix by welding the facing parts of the face of the laminar strip that is intended to be exposed to the outside. To avoid this obstacle, before the production phase, the initial laminar strip or the laminar strip from which the bottom of the container is formed is subjected to another drilling operation, different from the previous one, in which groups of holes are made, not illustrated in Figures 12 to 15 as they are known, which are formed by two pairs of holes drilled in the part of the laminar strip that will form the bottom base 14 of the container, the holes of one and the same pair being separated in such a way that each will be located on one side of the first fold line 16, each pair of holes being separated from each other by a distance equivalent to the first and second side walls 8 and 7 along the transverse weld fillets 26. The holes also allow carry out, without any problem, fixing the side walls 7 and 8 in the corner areas of the lower base 23 in which the part of the laminar strip 2 forming the lower base 14 of the container is interposed. The holes allow contact between the inner faces of the side walls 7 and 8, which can be fixed by welding, as indicated by the arrow in Figure 10.
[00044] Regarding the machine illustrated in Figure 12, despite the fact that the corners of the lower base 14 can be fixed in the respective facing areas 23 of the first and second side walls 8 and 7 by means of the same set of welding jaws lower 106 used to fix the facing longitudinal edges 9 and 11 of the laminar strip 2, and that the fixation of the corners of the upper base 25 with the parts of the laminar strip 2 of the first side wall 8 can be carried out by means of the same set of transverse jaws welding operations 107, in the illustrated variant these operations can be carried out at a subsequent station, once the cross-section of the continuous laminar strip 2 by the cutting device 108 has occurred, as will be described below.
[00045] The welding of the two pairs of corners of the upper base 25 and 27 with the side walls 8 and 7, respectively, before cutting across the laminar strip, an operation that is described below, is also considered.
[00046] Once the fixings described above have been made, the laminar strip 2 is cut transversely by means of a cut made substantially through a device of the transverse weld fillets 26, individualizing at least one container from the rest of the strip laminar continuum 2 and the container part between the mentioned fourth and fifth fold lines 20 and 21, which determines its upper base 5, is turned, the fourth fold line 20 of the second side wall 7 of the container being separated until adopt a position substantially perpendicular to the body of the container 10, shown in a sectional view in Figure 11, for transporting the suspended container from the spout 3. When this position has been reached, the corners of the upper base 27 (only one of the which are visible in Figure 11) are fixed by welding with the parts of the laminar strip 2 of the second side wall 7 which now contacts the lower side of the upper base men 5.
[00047] In the machine 100 shown in Figure 12, the fixing of the corners of the upper base 27 is carried out simultaneously and through the same set of closing jaws 109. The moment when the container adopts the shape illustrated in a section view in the Figure 11 was indicated by means of the letter B in the same Figure 12.
[00048] Optionally, the cantilevered parts resulting from the four welding fixings of the two pairs of corners of the upper base 25 and 27 with the side walls 8 and 7, respectively, are subsequently subjected to a cutting, adhesion, folding or conditioning operation additional, illustrated in Figure 12 by means of the scissor group 110. If the container is subjected to the cutting operation, it will, when full, have considerable technical advantages in practice as will be described below.
[00049] Another way to operate is to cut the pair of corners of the upper base 25 with the side wall 8 before cutting across the laminar strip 2, a cutting die being used, and leaving it for later, when the container is being manufactured adopts the position of Figure 11, cutting the corners of the upper base 27 with scissors.
[00050] The container 10 is then completed and ready to be filled through the nozzle 3 by means of conventional filling devices 111, which will subsequently be closed with a corresponding closure lid 112.
[00051] For the purpose of producing symmetrical containers 10, it can be seen that the first double zigzag fold 15 is made in such a way that the distance separating a first longitudinal edge 9 from the laminar strip 2 from the first fold line 16 is same as the one separating the last mentioned one from the second fold line 17, causing the first longitudinal edge of the laminar strip to overlap and coincide with the second fold line 17. Similarly, the second double zigzag fold 18 is made in such a way that the distance between the third and fourth fold lines 19 and 20 is substantially the same as that between the first and second fold lines 16 and 17. Similarly, the distance between the fourth and fifth fold lines 20 and 21 is the double that between the first and second fold lines 16 and 17, the nozzles 3 being arranged in the geometric center of the quadrangular area forming the upper base 5 of the container 10 being formed.
[00052] Figures 17a and 17b illustrate the container 10 finally obtained, formed by a single initial laminar strip, in which the upper base 5 is distinct, with a general shape of parallelepiped, and the two side walls 7 and 8 fixed along of the respective vertical weld fillets 35, the result of cutting the laminar strip through the transversal weld fillets 26 in the cross-cutting operation.
[00053] It is observed that when the four welding fittings of the two pairs of corners of the upper base 2 with the side walls 7 and 8 are subjected to the cutting operation mentioned through the group of scissors 110, the result is a container 10 in which both edges of the upper base 5 and the upper corners of the side walls 7 and 8 have respective chamfers 31 and 32.
[00054] When the containers are filled, this cutting operation causes the container 10 to have a pair of inclined weld fillets 33 on each side of the container 10, which will determine the respective transition shoulders 34 (only one of which is seen in Figures 17a and 17b) between the central part of the upper base 5 and the sides of the container 10, the two inclined weld fillets of one and the same pair converging on the corresponding vertical weld fillet 35 fixing between the facing edges of the two side walls 7 and 8 of the container 10, which extends to the bottom of the mentioned container, formed in this case by a lower base 14. It can be seen that this feature is common to all the variants illustrated in Figures 19 to 24.
[00055] In addition to the fact that the cutting operation makes the transition shoulders 34 more accessible, which allows positioning the nozzle 3 in this area (see Figures 22 and 23), the accumulation of subject is prevented and the rigidity of the container 10 is reinforced. In fact, the inclined welds 33 provide the container 10 with superior torsion resistance compared to the containers in which the cutting operation is not carried out, such that the side walls are raised around the transition shoulders 34 fixed along the sides. vertical weld fillets, which extend to the highest part of the upper base 5 of the container.
[00056] Figure 13 illustrates a variant of machine 100 according to the invention, suitable for folding over itself a single initial laminar strip 2 and reaching a shape whose cross section was illustrated in Figure 4. In that figure, the same numbers of reference numbers were used to designate components equivalent to those of machine 100 shown in Figure 12.
[00057] In the variant of Figure 4, it is observed that the longitudinal edges 9 and 11 of the laminar strip 2 are fixed, also by means of hot welding and preferably before cutting the laminar strip 2 across, along the fixing edge between the upper base 5 and the first side wall 8 of the container being manufactured. It is observed that in this case the alignment of the nozzles 3 will be considerably displaced towards the longitudinal edge 9 of the laminar strip 2.
[00058] The machine 100 of Figure 13, in which the means for making the alignment of the holes and subsequent placement of the nozzles have not been illustrated is provided with a first folding device 113, suitable for causing a first double zigzag fold 28 (see Figure 4), and with a second folding device 114, suitable for folding the sheet according to a triple fold 29 to produce the bottom base of the container. The moment at which the laminar strip 2 flattened by the folding rollers 22 adopts the position illustrated in Figure 4 was highlighted with the letter A in Figure 13.
[00059] The laminar strip 2 is forced to advance towards the hot welding stations, in which by means of a set of lower welding jaws 106 the corners of the lower base 14 are fixed by welding to the respective confronting areas of the first and second side walls 8 and 7 and the facing parts of the laminar strip 2 along longitudinal bands coinciding with the end fold lines of the track fold 29; by means of a set of upper welding jaws 106 'the facing longitudinal edges 9 and 11 of the laminar strip 2 are fixed by welding; and by means of a set of transverse weld jaws 107 the first and second side walls 8 and 7 are attached along two transverse weld fillets separated according to the width of an empty and folded container.
[00060] The laminar strip 2 then becomes a tubular strip, which is cut transversely by the cutting device 108 to individualize the container or containers being manufactured.
[00061] Then, in a similar manner to the method that is performed on the machine 100 of Figure 12, the upper base 5 of the container 10 is turned until it adopts a position substantially perpendicular to the body of the container 10 for the transportation of the suspended container to from the nozzle 3. Once that position has been reached, the pair of corners of the upper base 5 is fixed by welding to the parts of the strip forming the second side wall 7 which now contacts the underside of the mentioned upper base 5. This operation is performed by the group of upper closing jaws 109.
[00062] Unlike the machine 100 of Figure 12, it is observed in this variant of Figure 13 that the fixation of the corners of the upper base 5 with the parts of the laminar strip 2 forming the first wall 8 is carried out in the previous step by means of the upper welding 106 ', whereby the group of upper closing jaws 109 in reality only fixes the pair of corners of the upper base 5 contacting the second side wall 7.
[00063] It is observed that in Figure 13, the letter A indicates the moment when the laminar strip 2 adopts the shape illustrated in Figure 4; and the letter B indicates the moment when the container 10 being manufactured adopts a similar shape, but not identical to that of Figure 11, since in this case there is a weld fillet along one side of the upper base 5 and the first side wall 8, that is, along the attachment between the longitudinal edges 9 and 11 of the laminar strip 2.
[00064] Figure 14 illustrates an interesting variant of the machine 100 according to the invention, suitable for folding over itself a single initial laminar strip 2 and reaching a shape whose cross section was illustrated in Figure 5. In this figure, the same numbers Reference numbers were used to designate components equivalent to those of the machine 100 shown in Figure 12.
[00065] In the variant of Figure 5 it is first observed that the container is produced in an inverted position and that the longitudinal edges 9 and 11 of the laminar strip 2 are turned towards each other at the top of the figure formed when the laminar strip 2 is folded along its longitudinal fold lines.
[00066] Unlike the previous variants, the contour of the cross section is opened when the continuous laminar strip 2 is cut transversely by the cutting device 108, so that the container can be filled through the opening formed in its lower base 14, which is arranged at the top since the container 10 is produced in an inverted position. The moment at which the laminar strip continues 2 takes the form illustrated in Figure 5 was indicated with the letter A in Figure 14.
[00067] With the laminar strip 2 adopting this position, as in the variants in which the container is not produced in an inverted position, the welding fixings of the two pairs of corners of the upper base 25 and 27 with the side walls 8 and 7 can be carried out, as well as cutting the corners of the upper base 25 with the corresponding side wall 8 simultaneously with the cross section of the laminar strip 2, leaving the cutting of the pair of corners of the upper base 27 for later.
[00068] The following operations are well known in the state of the art and it should only be noted that, unlike the previous variants, there is a loss of material since the laminar strip 2 is extended beyond the longitudinal bands 9 and 11, which will be fixed by hot welding at welding station 116, to the longitudinal edges 9 'and 11' (see Figure 5), the excess laminar strip 2 being cut when the container 20 is closed, at the level of the longitudinal bands, in the last station cutting 117. The sequence of operations for filling and closing the opening of the container 10, as well as the devices for putting it into practice, since the laminar strip adopts the shape A indicated in Figure 14, are described, for example, in Patent Document ES 2292311.
[00069] This variant allows, for example, the manufacture of containers in which the part of the laminar strip 2 in which the nozzles 3 are applied is not perforated (variant not shown). In this type of containers, when the closing element or lid filling the spout 3 is manipulated to open the filled container, the laminar strip is perforated. For this purpose, the cover for the moving parts of the closing system is provided with a cutting device for the laminar strip.
[00070] Regarding the variants of Figures 6 and 7, they correspond to the modalities in which the container 10 is obtained from two continuous laminar strips 2 and 2 '.
[00071] In the first case, the laminar strip 2 ', previously drilled and with the nozzles 3 located in the corresponding holes, will integrally form the upper base 5 and will contact the laminar strip 2, previously folded along the longitudinal fold lines, as indicated in Figure 6. Preferably, a single laminar strip is formed by fixing by hot welding the longitudinal edges 11 and 29 of laminar strips 2 and 2 ', respectively, which is subsequently cut transversely.
[00072] In the second case, the continuous laminar strip 2 'will form the bottom base 14 of the container, and a single laminar strip will also be formed by fixing by hot welding the longitudinal edges 11 and 29 of the laminar strips 2 and 2' respectively, which will subsequently be cut across.
[00073] Figure 15 illustrates a machine to put into practice the variant of the method illustrated in Figure 6. According to that embodiment variant, machine 100 comprises a first folding device 118 for laminar strip 2, to cause a fold single on the laminar strip 2 adjacent to the longitudinal edge opposite its longitudinal edge 11, and a second folding device 119, to cause a triple fold similar to the triple fold 20 of the variant illustrated in Figure 4. The moment at which the laminar strips 2 and 2 'are arranged according to Figure 6 was indicated with the letter A in Figure 15.
[00074] It can be seen that downstream from that point, the machine 100 in Figure 15 is similar to the machine illustrated in Figure 13.
[00075] The machine variant shown in Figure 18 is suitable for manufacturing a container 1 such as the one illustrated in Figure 16. The machine basically differs from the machine in Figure 12 in that the system for folding the single initial laminar strip 2 comprises a folding device 104, suitable for forming a single zigzag fold 38 between whose longitudinal fold lines the longitudinal strip of laminar strip 2 is determined to form the part of the second side wall 7 which subsequently will contact from the rear of the upper base 5 of the container being manufactured. In a similar manner to the machine of Figure 12, this machine comprises a second simple folding device 105 for the laminar strip 2, to fold on itself according to the longitudinal fold 12 (see Figure 1).
[00076] The machine of Figure 18 thus has no means for producing a lower base in the container 1, and in its place, downstream of the folding rollers 22, it comprises a set of lower welding jaws 106 suitable for fixing by welding hot end and overlapping longitudinal edges 9 and 11 of laminar strip 2.
[00077] Figures 19 to 24 illustrate alternative variants of the container of Figure 17, which can be obtained by the method of the invention without significantly altering the means to put it into practice or the essence of the invention. It can be seen in Figures 20 and 21 that one of the side walls 8 is provided with an upper extension 8 ', which extends above the level of the upper base 5 of the container, and that one side of the upper base 5 mentioned is formed by a fold line 36 along which the sheet part forming it is folded upwardly to form a flap 37, the flap being juxtaposed to the upper extension 8 'of the sidewall 8 and fixedly adjusted therein in its contour to form a side collar 38 of container 10, which can be used as an alternative for filling it. These two variants of container 10 obtained, similar to those described in Patent Document WG2007031330 with the exception of the provision of nozzle 3 in the upper base 5, can be obtained by slightly modifying the methods illustrated in Figures 4 and 6, respectively.
[00078] The container 1 illustrated in Figure 24 incorporates two flaps 38 and 38 ', similar to those of the previous variants, provided with respective holes 40 and 40' satisfying the function of a handle.
[00079] According to the examples of Figures 22 and 23, it is considered that the nozzle 3 is disposed in the area of the upper base 5 that determines one of the transition shoulders 34, without this affecting the additional cutting operation that gives the complete container 10 the unique characteristics described above, in relation to a higher resistance.
[00080] It is observed that although the sheet parts forming the upper base 5 and the side walls 7 and 8 of the container are two contiguous parts of one and the same sheet fixed without interruption and a fixation by hot welding that provides a fillet respective soldering (which would occur from the variants of the method illustrated as an example in Figures 3, 5 and 7) are not necessary, providing the sheet part forming the upper base 5 with respective vertical rings 39 and applying and fixing them by welding to the top edge of the vertical walls 7 and / or 8, all as shown in Figures 19 and 21.

权利要求:
Claims (12)
[0001]
1. Method for continuously manufacturing containers (1, 10) made from a flexible material, from a single continuous laminar strip (2) made of heat-weldable plastic material on one of its surfaces, the container being of the type in which, in the normal open position, two confronting side walls (7, 8) and at least one upper base (5) are distinct, the method being characterized by the fact that, in a production phase, the single laminar strip remains initial it is folded on itself along longitudinal fold lines according to a first double zigzag fold (15), towards its hot-weldable face, through a first and a second longitudinal fold line (16 and 17), with angled 180 ° angles, a second double zigzag fold (18) also towards its hot weldable face and with 180 ° alternating angles, over a third and fourth longitudinal fold line (19 and 20) and folded over itself according to a third 180 ° bend towards its hot-weldable face, until its cross section forms a flat figure comprising the first side wall (8), along one of the edges from which the upper base (5) of the container is collapsed; and the second side wall (7), the top end of which is folded down on itself and contacts the rear part of the collapsed top base of the container, before the single laminar strip mentioned above is cut transversely.
[0002]
2. Method, according to claim 1, characterized by the fact that before the production phase, in a first previous operation, a series of nozzles (3) is applied to the single continuous laminar strip to allow the product inside of the containers to be manufactured, equidistant from each other and aligned according to a line parallel to the longitudinal edges of the corresponding strip.
[0003]
3. Method according to claim 2, characterized by the fact that before the application of the nozzles (3), the part of the laminar strip intended to be provided with the nozzles (3) is provided with a series of holes (6) to communicate the inside of the container to be manufactured with the outside through the corresponding nozzles (3).
[0004]
4. Method according to claim 2 or 3, characterized by the fact that the alignment of the nozzles (3) is displaced towards one of the longitudinal edges (11) of the single initial laminar strip (2), and in which the part of the material separating the nozzles from a respective longitudinal edge (9, 11) of the mentioned laminar strip is sufficient to form, in the subsequent production phase, half of the upper base (5) a corresponding side wall (8, 7) of the container .
[0005]
5. Method, according to claim 4, characterized by the fact that the production phase comprises the operations of: a) folding the laminar strips (2) according to a first double zigzag fold (15), towards its hot-weldable face, over a first and a second longitudinal fold line (16, 17) with alternating angles of 180 °, to form a lower base (14) of the container; b) fold the laminar strip according to a second double zigzag fold (18), also towards its hot weldable face and with 180 ° alternating angles, over a third and fourth longitudinal fold lines (19, 20), the second side wall (7) of the container being determined between the fourth fold line (20) and the nearest longitudinal edge (11) of the laminar strip; c) fold the laminar strip over itself according to a third fold of 180 ° towards its hot weldable face, over a fifth longitudinal fold line (21), the fourth and fifth fold lines, which delimit the upper base (5) of the container being each on one side of the alignment nozzles (3), such that the inner face of the second longitudinal edge (11) of the laminar strip is overlapped and coincides with the inner face of the first longitudinal edge (9) of the laminar strip, the first side wall (8) of the container being determined between the fifth fold line (21) and the second fold line (17); d)) fix, by welding, the corners of the lower base (23) to the respective facing areas of the first and second side walls, at least partially the longitudinal edges facing the laminar strip, the facing parts of the laminar strip over a second longitudinal strip (24 ') coinciding with the second fold line, and the first and second side walls along two transverse weld fillets (26) separated according to the width of an empty and folded container; e) transversely cutting the folded strip on itself by means of a cut made substantially through the middle of the transversal weld fillets (26), individualizing at least one container from the rest of the laminar strip; and f) turning the container part between the mentioned fourth and fifth fold lines, which determines its upper base, the fourth fold line (20) being separated from the second side wall (7) of the container until adopting a substantially position perpendicular to the container body.
[0006]
6. Method, according to claim 4, characterized by the fact that the containers (1, 10) are produced in an inverted position, and in which they are filled through an unsealed part of the longitudinal edges facing the laminar strip .
[0007]
7. Method, according to claim 5 or 6, characterized by the fact that it comprises the additional operations of fixing, by means of hot welding: g) the corners of the upper base (27) with the parts of the laminar strip of the second side wall (7) which contacts the lower side of the mentioned upper base (5), and of the corners of the latter with the laminar strip parts of the first side wall (8), which face each other under the upper base mentioned, in the event that this operation has not been carried out at an earlier stage; and h) the corners of the upper base (25) with the parts of the laminar strip of the first side wall (8), which face each other behind the mentioned upper base.
[0008]
8. Method according to claim 7, characterized by the fact that the parts resulting from the four welding fixings of the two pairs of corners (25, 27) of the upper base (5) with the side walls (8 and 7) are subjected to an additional cutting, bonding, folding or conditioning operation.
[0009]
9. Method according to claim 8, characterized by the fact that the four welding fittings of the two pairs of corners (25, 27) of the upper base (5) with the side walls (8, 7) have a triangular shape , and that the fixings are subjected to a cutting operation in the direction of the hypotenuse and providing the upper base (5) of the container being produced and the respective side walls with corresponding chamfers.
[0010]
Method according to any one of claims 5 to 9, characterized in that: in operation a), the first double zigzag fold (15) is made in such a way that the distance separating a first longitudinal edge (9) ) of the laminar strip (2) from the first longitudinal fold line (16) is equal to that separating the latter from the second longitudinal fold line (17), causing the first longitudinal edge of the laminar strip to be overlapped and coinciding with the second line longitudinal fold; in operation b), the second double zigzag fold (18) is made in such a way that the distance between the third and the fourth longitudinal fold lines (19, 20) is substantially the same as that between the first and the second fold lines longitudinal; and - operation c) is performed in such a way that the distance between the fourth and fifth longitudinal fold lines (20, 21) is substantially twice that of the first and second fold lines, and in such a way that the nozzles (3) of the container being formed are preferably arranged in the geometric center of the square area forming the upper base (5) of the mentioned container being formed.
[0011]
11. Machine for carrying out the method defined in claim 1, characterized in that it comprises, in the forward direction of the continuous laminar strip: -device (101, 102, 103) suitable for aligning the holes in a continuous laminar strip and for positioning a corresponding nozzle (3) in each of them; -device for folding the single initial laminar strip on itself until its cross section forms a flat figure comprising a first side wall along one of the edges from which a longitudinal strip of the laminar strip is collapsed comprising the strip part previously provided with nozzles, and a second side wall, the upper end part of which is folded down on itself and contacts the rear part of the mentioned longitudinal strip of the laminar strip, the device for folding the laminar strip on itself comprising: -first folding device 104 for the strip to simultaneously form a first double zigzag fold over a first and second longitudinal fold lines, and a second double zigzag fold, over a third and fourth longitudinal fold lines; and -the second simple folding device (105) for the strip to fold the strip on itself according to a third 180 ° fold towards its heat-weldable face, over a fifth longitudinal fold line, the machine additionally comprising: - a cross-sectional device (108) for the single folded laminar strip to separate a container being manufactured from the remainder of the folded laminar strip; and device for turning the mentioned longitudinal strip of the separate container with respect to the side walls until the cross section of the container being manufactured adopts an outline with a general "T" shape.
[0012]
12. Machine according to claim 11, characterized by the fact that: the distance separating a first longitudinal edge of the laminar strip from the first fold line is the same as that separating the latter from the second fold line making the first longitudinal edge of the laminar strip is overlapped and coincides with the second fold line; and wherein the distance between the third fold line and the longitudinal edge closest to the laminar strip is equal to the desired height on one side of the container; and - the fourth and fifth fold lines are each on one side of the holes, such that the inner face of the other longitudinal edge of the laminar strip is overlapped and coincides with the inner face of the first longitudinal edge of the laminar strip, the machine further comprising downstream of the system for folding the laminar strip a set of rollers for flattening the already folded strip and for driving it towards the cross-cutting device (108)

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同族专利:

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公开号 | 公开日

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CN102844245B|2014-08-20|

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RU2012105334A|2013-09-27|

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ES2559878T3|2016-02-16|

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US20120195528A1|2012-08-02|

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RU2537830C2|2015-01-10|

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US8790229B2|2014-07-29|

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CN102844245A|2012-12-26|

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JP5946406B2|2016-07-06|

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JP2013500890A|2013-01-10|

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EP2463213B1|2015-10-21|

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CO6511207A2|2012-08-31|

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ES2384067B1|2013-05-07|

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WO2011015696A1|2011-02-10|

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IN2012DN01931A|2015-07-24|

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ES2384067A1|2012-06-29|

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MX2012001465A|2012-04-11|

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EP2463213A1|2012-06-13|

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法律状态:
2019-07-30| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

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2019-12-10| B06A| Patent application procedure suspended [chapter 6.1 patent gazette]|

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2020-04-28| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

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2020-07-28| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 10 (DEZ) ANOS CONTADOS A PARTIR DE 28/07/2020, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

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申请号 | 申请日 | 专利标题

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ESP20091722|2009-08-04|

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ES200901722A|ES2384067B1|2009-08-04|2009-08-04|PROCEDURE AND MACHINE FOR MANUFACTURING CONTINUOUS FLEXIBLE MATERIAL CONTAINERS.|

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PCT/ES2010/070452|WO2011015696A1|2009-08-04|2010-07-01|Method and machine for the continuous manufacture of packages made from flexible material and resulting package|

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