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    • 专利摘要:
    Method and machine for automatic production of a prismatic box by bending and joining a flat piece of base, and obtained prismatic box. The box is obtained by folding a flat piece of base 50 with a central polygonal sector (4), with first wall panels (1) and second wall panels (2) including flap panels (3), the The machine responsible for its assembly includes a conveyor (40), a glue applicator device (41), an inner mold element (21) and an outer mold element (22), wherein the proposed method involves introducing the flat base pieces (50) in a direction perpendicular to two opposite (5) opposite sides of the central polygonal sector (4) provided with first wall panels (1), producing a first folding of said second wall panels (2) and a further folding of the first wall panels (1), pressing them against the extrados of said flap panels (3), and causing their folding. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2655317A1
    申请号:ES201600666
    申请日:2016-08-09
    公开日:2018-02-19
    发明作者:Telesforo González Olmos
    申请人:Telesforo Gonzalez Maquinaria SL;
    IPC主号:
    专利说明:

    METHOD AND MACHINE FOR AUTOMATIC MANUFACTURING OF A PRISMATIC CASEBY FOLDING AND UNITING A FLAT BASE PIECE, AND PRISMATIC CASEOBTAINED
    Technical fieldThe present invention concerns a method and machine for automatic manufacturing of aprismatic box by folding and joining a flat base piece, and prismatic box obtained,Especially referred to prismatic boxes made of cardboard, corrugated cardboard, plastic,
    corrugated plastic, cardboard with foam core, or similar lightweight manufacturing materialsof packaging.State of the artAutomatic methods and automatic box-forming machines are known,
    including machines and methods intended to obtain boxes whose base has anumber of sides greater than four, for example octagonal boxes.
    It is known for example through documents ES2394186T3, DE202004005667U1,FR2692228, an octagonal base or lid or box automatically obtained by bendingand glued on first and second alternate wall panels that extendaround a central polygonal sector, the second wall panels being provided withside flap panels.
    In the known solution through for example the aforementioned document ES2394186T3, theglue is applied on said flap panels, said flap panels being adheredlater on the extradós of the first wall panels, being thereforeprojections on the outside of the box formed by said flap panels, which canbe annoying for the handling of the box obtained, facilitating the occurrence ofhooks and tears. In addition, the aforementioned box described requires for its manufacture amachine equipped with first external pressure walls, intended to press thefirst wall panels, second external pressure walls, intended forpress the second wall panels, and additionally some third walls ofexternal pressure provided to press the flap panels against the extrados of thefirst wall panels, complicating and making the forming machine more expensive, andhindering its adjustment and operation. Therefore it is concluded that the initial bending of thesecond wall panels, and the subsequent bending of the first wall panels on
    the flap panels, causing their folding, would be advantageous with respect to the described solution by allowing the third external pressure walls to be dispensed with.
    Altering the order in which the first and second wall panels are folded requires altering the areas on which the adhesive is deposited, and its deposition on the first wall panels is necessary.
    In all the aforementioned background the proposed base box or lid is obtained from a flat base piece that is inscribed in a square. The second wall panels provided with flap panels are, in the prior art, those wall panels arranged with their edges parallel and perpendicular to said square in which the flat base piece is inscribed.
    If the flat base piece is introduced into the folding machine in a transport direction parallel or perpendicular to the edges of the second wall panels, the glue lines are deposited in a direction parallel to said transport direction. If these areas are on the second wall panels or on their respective flap panels it would not be possible to assemble a box whose flap panels were joined by the intrados of the first wall panels.
    In this context, depositing glue lines on selected areas of the first wall panels is feasible and possible although with some difficulty, and said oblique glue lines remain on said first wall panels, so a large number of nozzles would be required. glue, some of which would only deposit small amounts of glue at the corners, and an individual adjustment of each of them would be necessary for proper deposition.
    In the case of alternately introducing the flat base pieces in an oblique transport direction with respect to the edges of the second wall panels, and parallel or perpendicular to the edges of the first wall panels, thus facilitating the deposition of tail lines on said first wall panels, there is the circumstance that in case of being the central polygonal sector of the oblong base flat piece, that is to say its width and length are different, the first wall panels would not face each other, but would be misaligned in the direction of transport, so that the same tail nozzles could not deposit parallel tail lines on two first opposite wall panels of the same flat base piece, which would force the number of tail nozzles to double.
    BRIEF DESCRIPTION OF THE INVENTION The present invention concerns, according to a first aspect, a method for automatic manufacturing of a prismatic case by folding and joining a flat base piece. The flat base piece will preferably be composed of two or more flat sheets of cardboard or plastic with one or more interleaved corrugated sheets, or with a rigid intercalated foam, therefore being a flat, laminar, lightweight material with a high resistance in relationship to your weight
    Said base piece comprises:
    • a central polygonal sector with an even number of sides greater than four,
    • first side wall panels that extend from alternate sides of the central polygonal sector, and that when folded form first box side walls; Y
    • second wall panels that extend from the remaining alternate sides of the central polygonal sector, which when folded form a second box side walls, said second wall panels including flap panels that extend from side edges of the second panels of wall, and when folded they are superimposed on the first box side walls.
    Thus the flat base piece is divided into the different parts described above delimited and connected to each other by edges. Typically, said parts will be obtained by die-cutting of a flat unitary plate and by means of its delimitation by means of creasing lines that determine bending edges, said creasing lines being those that separate the central polygonal sector from the first and second wall panels, and those separate the second wall panels from the flap panels. It is also proposed that said flat base piece be a composite piece obtained by gluing a plurality of individual flat base pieces.
    The flat base piece described is folded and fixed automatically forming a polygonal box by means of a machine comprising:
    • a conveyor of flat base parts defining a transport direction;
    • a glue applicator device for applying glue on selected areas of the flat base pieces transported by the conveyor;
    • a flat-bottoming device that comprises an inner mold element provided with first and second inner pressure walls and an outer mold element provided with first and second pressure walls
    outer, the inner mold and outer mold elements being movable relative to each other between a position of feeding flat pieces, in which a passage is defined between the inner mold element and the outer mold element in which to insert said flat base piece by means of said flat base pieces conveyor, and a box forming position in which the inner pressure walls face and parallel to the outer pressure walls, pressing the respective first and second wall panels in between.
    The described machine therefore allows the flat base pieces to be introduced between the inner mold element and the outer mold element. The outer mold element consists of first outer pressure walls and second outer pressure walls, and the inner mold element consists of first inner pressure walls and second inner pressure walls.
    The first inner and outer pressure walls are movable with respect to each other, allowing interaction with the first wall panels of the flat base piece causing its fold with respect to the central polygonal sector, and the second inner and outer pressure walls are displaced bies with respect to the others allowing to interact with the second wall panels of the flat base piece causing its fold with respect to the central polygonal sector.
    The proposed method comprising the following steps: a) placing the inner mold and outer mold elements in the feeding position; b) inserting a flat base piece, by means of the aforementioned flat base pieces conveyor, the transport direction being a perpendicular direction to two opposite and opposite sides of the flat base piece provided with first or second wall panels, leaving the said first or second wall panels aligned with each other in said transport direction; c) applying glue on selected areas of said first wall panels, in the form of parallel glue lines in the transport direction, and
    d) placing the inner mold and outer mold elements in a box forming position by their relative displacement, causing a first bending of said second wall panels with flap panels by interacting with the second external pressure walls and a subsequent bending said first wall panels lacking flap panels and with applied glue, by interacting with the first exterior pressure walls, pressing the first wall panels against the extrados of said flap panels causing the folding of said flap panels and adhering them forming a box; Y
    e) eject the shaped box. During stage d) the second wall panels are folded first, dragging the flap panels, and then the first wall panels are folded by pressing them against the extrados of the flap panels producing their bending with respect to the second wall panels, leaving as a result a polygonal box with second walls connected to first walls by means of flap panels arranged by the intrados of the first walls.
    Said step b) can be characterized as the direction of transport parallel or perpendicular to the sides of the central polygonal region connected to the first wall panels. This allows to ensure that at least two first wall panels of the flat base part are aligned in the transport direction and are transported in said transport direction, so that the glue lines are deposited on said first wall panels of a In a simple and efficient way, the same glue nozzles of the glue applicator device can be glued on the first two wall panels at successive moments to be transported below the glue applicator device.
    Optionally, it is proposed that the central polygonal sector of the flat base piece fed to the machine be oblong, that is, longer than wide. In this case, since the first wall panels are on the opposite sides of the central polygonal sector, the requirement of remaining the first wall panels aligned and facing will continue to be met, which would not happen if the central polygonal sector were oblong and the first panels of Wall will be located in the corners of it.
    According to a further embodiment of the proposed method, specifically intended for the production of boxes only from the flat base piece, the inner mold element is a movable male in a vertical direction perpendicular to the transport direction, the outer mold element It is a cavity whose first and second outer pressure walls are fixed and at least partially parallel to the first and second inner pressure walls, the upper ends of the first outer pressure walls being at lower heights than the upper ends of the second walls of external pressure, determining different folding moments of the first and second wall panels, and where step a) comprises placing the inner mold above, aligned and distanced from the outer mold; and wherein step d) comprises moving the inner mold in a downward direction by pressing the polygonal sector of the flat base piece, interposed between the inner and outer molds, introducing it into the outer mold and producing a first bending of the second panels of wall by means of the second exterior pressure walls, and a subsequent bending of the first wall panels by means of the first exterior pressure walls.
    The upper ends of each of the first and second outer pressure walls determine which of said outer pressure walls first comes into contact with the flat base piece at the moment when it is pushed in a downward vertical direction by the element of inner mold Being the upper ends of the second outer pressure walls higher than those of the first outer pressure walls means that first the bending of the second wall panels will begin to occur, and subsequently when the inner mold element has descended more will be the beginning of the folding of the first wall panels, thus ensuring that the first wall panels are superimposed by the extrados of the flap panels.
    The second inner and outer pressure walls will be located in parallel planes separated at least a distance equal to the thickness of the second wall panels, and the first inner and outer pressure walls will be located in parallel planes separated at least a distance equal to the sum of the thickness of the flap panels and the first wall panels.
    The proposed method also raises an alternative embodiment especially intended for the production of polygonal boxes composed of a flat base piece in combination with a tubular body, allowing to achieve containers of greater resistance and capacity. According to this alternative embodiment, the inner mold element is an expander device of tubular bodies of polygonal cross-section; each of said first and second outer pressure walls is a pivoting wall around a wall joint whose joint axis is horizontal and intended to be parallel to one of the sides of the central polygonal sector of the flat base piece, between a retracted position away from the first and second interior pressure walls, and an extended position facing and parallel to the first and second interior pressure walls; and wherein step a) further comprises stroking a tubular body around the inner mold element and proceeding to radial expansion of the first and second inner pressure walls until they are pressed against the intrados of the tubular body; and step d) comprises pivoting at first the second external pressure walls, and at a later time pivoting the first pressure walls, until the second wall panels are pressed against the extrados of the tubular body, and the first panels of wall pressed against the extrados of the flap panels that in turn remain with their intrados pressed against the extrados of the tubular body.
    Thus, this embodiment of the method allows the flat base piece bent to be joined on or around a polygonal tubular body, reinforcing it and closing one of its two openings.
    It will be understood that said tubular body has side walls connected to each other defining two opposite openings, the number and width of the side walls being equal to the number and along the sides of the central sector of the flat base piece, so that said central sector fits tightly over said mouth.
    The said expander device is responsible for separating the side walls of the tubular body to ensure that they maintain their position and shape during the tasks of shaping the polygonal box by applying the aforementioned first and second inner pressure walls against the intrados of the body tubular, from the inside, said first and second walls of internal pressure being suspended inside the tubular body through the upper mouth thereof.
    The first and second exterior pressure walls will be foldable, according to this embodiment, around a wall joint. Each of the outer pressure walls will have its respective wall joint constituted around a parallel wall axis next to the central polygonal sector to which the respective first or second wall panel to be folded is connected.
    Thus, said first and second external pressure walls open, like petals of a flower, preferably until all coplanar remain, around the inner mold element, which in this case is an expanding device surrounded by a tubular body. The flat base piece is placed between the inner mold element and the outer mold element, with the first wall panels resting on the first external pressure walls, and the second wall panels remaining on the second external pressure walls. .
    Next, the bending of the second outer pressure walls begins, determining the bending of the second wall panels that will drag the corresponding flap panels that will remain coplanar. The bending of the first exterior pressure walls is continued, determining the bending of the first wall panels that will be pressed against the extrados of the flap panels, producing their bending, leaving the flap panels imprisoned between the intrados of the first wall panels and extrados of the tubular body.
    Depending on the selected areas in which the glue is placed, the wall panels may be adhered on the tubular body, or simply joined together around said tubular body.
    According to a second aspect of the present invention, this concerns a machine for automatic manufacturing of a prismatic box by folding and joining a flat base piece. The machine will have the essential elements described above referring to the first aspect of the invention, as well as the essential characteristics of the flat base piece will be shared by the first and second aspects of the invention.
    The aforementioned machine will also contain the following characteristics:
    The conveyor of flat base pieces will be configured to introduce the flat base pieces in a direction perpendicular to two opposite and opposite sides of the flat base part provided with first or second wall panels, said first or second wall panels being left aligned with each other in the said transport direction;
    the first and second exterior pressure walls will be configured to produce a first bending of said second wall panels provided with flap panels and a subsequent bending of the first wall panels with glue and lacking flap panels, pressing them against the extrados of said flap panels, and causing the folding of said flap panels.
    Optionally the transport direction will be parallel or perpendicular only to the sides of the central polygonal region provided with first wall panels. Thus the machine described introduces the flat base pieces allowing the application of parallel glue lines in the direction of transport on the first wall panels, the same tail nozzles being able to deposit glue on two successive first wall panels aligned in the direction of transport.
    The subsequent initial bending of the second wall panels and subsequently of the first wall panels results in the folding of the flap panels by the pressure exerted by the first exterior pressure walls, and the adhesion of the first wall panels on the extrados. of the flap panels.
    Additionally, it is proposed that the relative position between all the first and second external pressure walls, and optionally also between all the first and second internal pressure walls be adjustable in a horizontal direction by means of an adjustment device provided to allow their relative displacement , adapting the machine to different sizes and box formats to produce. In case the external pressure walls are adjustable and the interior ones are not adjustable, a replaceable inner mold element will be available that allows its easy replacement by an inner mold element of a size suitable for the size and shape of boxes to be produced. .
    According to a further embodiment it is proposed that the inner mold element be a movable male in a vertical direction perpendicular to the transport direction; that the outer mold element is a cavity whose first and second outer pressure walls are fixed and at least partially parallel to the first and second inner pressure walls, the upper ends of the first outer pressure walls being at lower heights than the upper ends of the second outer pressure walls, determining different folding moments of the first and second wall panels, and where the first outer pressure walls are at least partially parallel to the first inner pressure walls, and the second walls External pressure are at least partially parallel to the second internal pressure walls.
    Additionally it is proposed that the first inner and outer pressure walls be located in parallel planes separated at least a distance equal to the thickness of the first wall panels, and the second inner and outer pressure walls be located in parallel planes separated by at least one distance equal to the sum of the thickness of the flap panels and the first wall panels.
    The inner mold element is proposed to be an expander device of tubular bodies of polygonal cross-section; that each of said first and second outer pressure walls is a pivoting wall around a wall joint whose articulation axis is horizontal and intended to be parallel to one of the sides of the central polygonal sector of the flat base piece, between a retracted position away from the first and second interior pressure walls, and an extended position facing and parallel to the first and second interior pressure walls.
    Another embodiment contemplates that the first and second inner pressure walls of the inner mold are displaced in divergent directions by means of an expansion actuator, causing an expansion of the tubular body by the pressure exerted by the first and second pressure walls applied on the intrados of the tubular body
    The glue applicator device may be provided with a plurality of glue nozzles, and is configured so that at least one of said glue nozzles deposits glue on two first wall panels, aligned with each other, of the same flat base piece, in symmetrical positions.
    Each applicator nozzle has an adjustment device that allows its position to be modified in a transverse direction perpendicular to the transport direction.
    The first external pressure walls are four in number, the second external pressure walls are four in number, the first internal pressure walls are four in number and the second internal pressure walls are four in number, the machine being provided for formation of boxes with central polygonal sector of eight sides.
    In accordance with a third aspect of the present invention, this concerns a prismatic case manufactured automatically by folding and joining a flat base piece by means of a machine. The aforementioned flat base piece has the same essential characteristics indicated regarding the method and the assembly machine, and said box is obtained by the method described in the first aspect of the invention.
    It is also proposed that the box has:
    • second walls folded between 75 ° and 105 ° with respect to the central polygonal sector, although preferably it will be at 90 °;
    • first walls folded at between 75 ° and 105 ° with respect to the central polygonal sector being two to two facing each other, although preferably it will be at 90 °;
    the second walls being joined to the first walls through the flap panels, the first walls being adhered by their intrados to the extrados of the flap panels by means of parallel glue lines applied to each first wall.
    Additionally, it is proposed that the sides of the central polygonal sector from which the first wall panels extend have a greater length than the remaining sides of the central polygonal sector. The central polygonal sector can also be oblong, being its length greater than its width, or vice versa.
    The box can also have four first walls and four interleaved second walls, arranged around an eight-sided central polygonal sector.
    Optionally, the first and second walls can fit tightly around a tubular body, jointly forming a container or drum of greater resistance than a simple box.
    It will be understood that references to geometric position, such as parallel, perpendicular, tangent, etc. they admit deviations of up to ± 5 ° with respect to the theoretical position defined by said nomenclature.
    It will also be understood that any range of values offered may not be optimal in their extreme values and may require adaptations of the invention for said extreme values to be applicable, said adaptations being within the reach of one skilled in the art.
    Other features of the invention will appear in the following detailed description of an exemplary embodiment.
    Brief description of the figures
    The foregoing and other advantages and features will be more fully understood from the following detailed description of an exemplary embodiment with reference to the attached drawings, which should be taken by way of illustration and not limitation, in which:
    Fig. 1 shows a plan view of a flat base piece before folding, provided with an octagonal central polygonal sector from whose sides four first rectangular wall panels and four second rectangular wall panels each provided with said second wall panels of two flap panels extended on opposite sides thereof;
    Fig. 2 shows an alternative view to that shown in Fig. 1 in which the central polygonal sector is oblong, with two of its sides facing much longer than the rest, and with the first two facing wall panels attached to said longer sides being much wider than the other two first wall panels;
    Fig. 3 shows an alternative view to that shown in Fig. 1 in which the flat base piece is introduced into the box-forming machine in a transport direction parallel to two second wall panels, the tail being deposited on the first wall panels;
    Fig. 4 shows a view of an existing problem in case the central polygonal sector is oblong with two opposite sides longer than the rest being the two second wall panels connected to said two sides of a width greater than the remaining seconds. wall panels, leaving in that case the first misaligned and non-facing wall panels;
    Fig. 5 shows a view of a first embodiment of the box-forming machine in an initial stage of forming method, provided with a conveyor of flat base pieces from a warehouse of flat base parts, of a glue applicator device and of an inner mold element and an outer mold element, the outer mold element being a cavity and the inner mold element being a vertically movable male which produces the insertion of said flat base piece into said cavity producing the folding of its wall panels and the formation of the box;
    Fig. 6 shows the same as Fig. 5, but the forming machine being in a final stage of the formation method, with the male inserted inside the cavity, the flat base piece folded forming the box and before its expulsion ;
    Fig. 7. shows an enlarged and simplified plan view of the outer mold element according to an embodiment provided with four first exterior pressure walls and four second external pressure walls alternated with the previous ones, said exterior pressure walls being parallel between yes and the upper end of each of them being a curved end towards divergent directions each determining an insertion ramp intended to bend a wall panel;
    Fig. 8 shows a side view of the outer mold element shown in Fig. 7, where it is appreciated that the upper end of the second outer pressure walls is higher than the upper end of the first outer pressure walls;
    Figs. 9 and 10 show axonometric views of an inner mold element provided with an adjustment device according to an embodiment that allows a relative displacement of the first and second inner pressure walls to adapt them to different sizes and formats of boxes to be formed, showing in two different adjustment positions;
    Fig. 11 shows an axonometric view of the proposed apparatus according to a second alternative embodiment to that shown in Fig. 5, provided with a conveyor of flat base pieces, transported from a warehouse of flat parts, of a glue applicator device, of an inner mold element that integrates an expander device that expands tubular bodies extracted from a warehouse of collapsed tubular bodies, and of an outer mold element that integrates a plurality of first and second pivoting outer pressure walls each articulated around a horizontal wall axis parallel to one side of the central polygonal sector;
    Fig. 12, 13 and 14 show a simplified axonometric view of the machine shown in Fig. 11, showing only the inner mold element partially inserted into an expanded tubular body and superimposed on a flat base piece, whose first and Second wall panels are supported on multiple first and second articulated outer pressure walls of the outer mold element, an initial stage of the method in which the flat base piece has not been bent, shown in Fig. 12 is shown in Fig. 13 a second stage of the method in which the second wall panels have been folded by rotating the second outer pressure walls until they are parallel and in contact against the extrados of the tubular body, and a stage being shown in Fig. 14 end in which the first wall panels have been folded by means of the rotation of the first exterior pressure walls, pressing the flap panels causing its bending, until the flap panels are caught between the extrados of the tubular body and the intrados of the first wall panels;
    Fig. 15 and 16 show two axonometric views of an embodiment of the expander device intended to be inserted into the tubular body and to produce its expansion, provided with first and second inner pressure walls connected to an expanding mechanism formed by articulated arms that produce a radial displacement of said first and second inner pressure walls until they contact the intrados of the tubular body;
    Fig. 17, 18 and 19 show the assembly steps of a box with a tubular body, corresponding to the stages shown in Figs. 12, 13 and 14, but without showing the machine for easy understanding.
    Detailed description of an embodiment example
    The attached figures show exemplary embodiments of the present invention for illustrative, non-limiting nature.
    Figs. 1 and 2 show two alternative embodiments of flat base pieces 50 suitable for the application of the proposed method, the two embodiments being composed of a central polygonal sector 4 of eight sides 5, four of which are extended by first rectangular wall panels 1 , and four are extended by second rectangular wall panels 2 each of said second wall panels 2 provided with two flap panels 3 arranged on its two opposite sides 5. In the aforementioned Figs. 1 and 2, the position in which the glue lines would be placed on the first wall panels 1 according to the proposed method are also indicated, introducing the flat base piece 50 in the box-forming machine in the direction of transport X indicated, said tail lines being parallel or perpendicular to the first wall panels 1.
    As it will be obvious to an expert an even number of sides 5 of the central polygonal sector 4 and of wall panels 1 and 2 different from eight and greater than four would be perfectly possible, for example six, ten, twelve, etc.
    Each of the first and second wall panels 1 and 2 are provided to be folded with respect to the central polygonal sector 4 being erect or approximately erect completely surrounding the central polygonal sector defining first and second walls 1 a and 2a of a shaped box (see Fig .19). The first and second walls 1 a and 2a are joined together laterally by means of the flap panels, which are adhered by the intrados of the first walls 1 obtained from the bending of the first wall panels.
    It will be understood that all references to the intrados of the constituent elements of the box are referred to their faces oriented towards the inside of the shaped box, while references to the extrados are those oriented towards the outside of the shaped box.
    Fig. 3 shows an embodiment in which the flat base pieces 50 are introduced into the forming machine in a direction parallel or perpendicular to the second wall panels 2, whereby the glue lines applied on the first wall panels 1 are oriented in an oblique direction. This is not a preferred embodiment, since in this case the glue lines, automatically applied by means of a glue applicator device 41 provided with nozzles 42, are arranged in an oblique direction that requires an individual and independent adjustment of each of the aforementioned nozzles 42, complicating the operation of the machine. In addition, some of the nozzles 42 are only used for the application of minimal amounts of glue in the corners, which implies an inefficient use of the same, and also favors the sealing of said underutilized nozzles 42 when the hardening of the glue is caused in the nozzle itself 42.
    Fig. 4 shows an example of a problem that the present invention solves related to the glue applicators 42, in case the flat base piece 50 contains an oblong central polygonal sector 4, two of the second wall panels being 2 facing wider than the other two second wall panels 2. In this case the first wall panels 1 are not aligned in the transport direction X, and therefore the same nozzle 42 cannot apply glue lines in the first two wall panels 1 that run successively transported in the X direction, forcing the number of applicator nozzles 42 to be increased.
    In Figs. 5, 6 and 11 a box forming machine according to two different embodiments is shown. Said machine comprises, in both embodiments, a warehouse of flat base pieces 50, a flat base pieces conveyor 40 intended to transport said flat base pieces 50 horizontally in a transport direction X passing under a plurality of glue applicators 42 integrated in a glue applicator device 41, and leading said flat base pieces 50 to an interposed position between an inner mold member 21 provided with first and second inner pressure walls 21a and 21b, and an element of outer mold 22 provided with first and second outer pressure walls 22a and 22b. The first inner pressure walls 21 a are proposed to be parallel or perpendicular to the transport direction X.
    The relative displacement of said elements of inner mold 21 and outer mold 22 results in the bending of the first and second wall panels 1 and 2, forming the polygonal box.
    According to a first embodiment of the machine shown in Figs. 5 and 6, the conveyor 40 consists of drive elements connected to a conveyor belt. The drag element is moved in the transport direction X, interfering with a flat base piece 50 stored in the base of a stack of flat base pieces 50 accumulated in the base flat pieces store 50 producing its drag out of said warehouse, and driving it below the nozzles 42 of the glue applicator device 41. Said glue applicator device 41 is configured to spread, through said nozzles 42, glue lines over at least selected areas of the first wall panels 1.
    Also according to the present first embodiment the inner mold member 21 is a male movable in a vertical direction Z, by at least one guided axis, and is driven in said vertical direction Z by an actuator such as a piston, piston, motor linear, scissor or spindle mechanism, or other alternative embodiment.
    The outer mold member 22 of the present first embodiment is proposed to be a defined polygonal cavity between the first and second outer pressure walls 22a and 22b arranged around it. The upper ends of the first and second outer pressure walls 22a and 22b are proposed to be curved in divergent directions, as shown in Figs. 7 and 8, opening the cavity size to facilitate and guide the downward movement of the male. and of the flat base piece 50 during the formation of the box.
    The size and shape of the cavity of the outer mold element 22 and the male of the inner mold element will be equal to the size and shape of the central polygonal sector 4 of the flat base piece 50, with the respective predefined tolerances. It is proposed that the relative position of the first and second outer pressure walls 22a and b, and that the relative position of the first and second inner pressure walls 21 a and 21 b be modified to adapt to different sizes and shapes of boxes by means of a adjustment device, for example based on linear guides and fixing screws, or based on spindle mechanisms. Examples of the proposed adjustment mechanisms are explained in detail in other registers of the same inventor as for example in the Spanish patent application number P201530802 of the same inventor. Optionally it is proposed that the male does not have an adjustment device, said male being replaceable by a male of size and shape adapted to the type of boxes to be produced.
    The upper ends of the second outer pressure walls 22b will be higher than the upper ends of the first outer pressure walls 22a. In this way the downward movement of the male will push the central polygonal sector 4 of the flat base piece 50 inserting it into the cavity, and causing a first contact of the second wall panels 2 against the second outer pressure walls 22b, starting its folded before the first wall panels 1 come into contact with the first outer pressure walls 22a, therefore bending at a later time.
    This feature is what ensures that the flap panels 3, attached to the second wall panels 2, remain on the intrados of the first wall panels 1, since the flap panels 3 remain coplanar with the second wall panels 2 while these are folded, the flap panels 3 being in interference with the folding path of the first wall panels 1. When the first wall panels 1 are folded later, their intradoses come into contact with the extrados of the flap panels 3 and bending with respect to the second wall panels 2, the flap panels being trapped between the intrados of the first wall panels 1 provided with tail cords and the first inner pressure walls 21 a. The pressure exerted by the first exterior and interior pressure walls 22a and 21 a on the first wall panels 1 and the flap panels 3, due to the wedge effect produced when the male is inserted into the cavity, firmly adheres the flap panels 3 to the first wall panels 1.
    In order to ensure said wedge effect, it is preferable that each first inner pressure wall 21 is parallel to a first outer pressure wall 22a and is in planes spaced at least the thickness of the sum of a first wall panel 1 and a panel of flap 3, while each second inner pressure wall 21 b will preferably be parallel to a second outer pressure wall 22b and will be in planes spaced at least the thickness of a second wall panel 2.
    After forming the box, the male protrudes below the cavity carrying the shaped box around it. The withdrawal of the male returning to its initial position separates the shaped box from the male, the box being retained below the cavity, expelling it from the forming machine.
    A second embodiment of the proposed machine is shown in Fig. 11, in which the conveyor 40 of flat base pieces 50 includes an elevator provided with suction cups that collects a flat base piece 50 located on a stack of flat base pieces 50, in a warehouse of flat base pieces and deposits it on a surface provided with dragging elements that push said flat base piece 50 below a glue applicator device 41 which deposits nozzles 42 amounts of glue in areas selected from the first wall panels 1, until the flat base piece 50 is located between the inner mold member 21 and the outer mold member 22.
    In this second embodiment it is proposed that the outer mold member 22 integrate a plurality of first and second outer pressure walls 22a and 22b, four of each type in this case, interspersed and arranged around a central area intended to house the polygonal sector central 4, each first and second external pressure wall 22a and 22b being pivotal with respect to a joint, around a horizontal wall axis and intended to be parallel to each of the sides 5 of the central polygonal sector 4 deposited in said area central. The actuation of an actuator device produces the rotation of each of the first or second external pressure walls 22a or 22b between a retracted and collapsed position, all the external coplanar pressure walls remaining, and an upright extended position in which said walls of external pressure are parallel to the walls of internal pressure and perpendicular to the central polygonal sector.
    In addition, it is proposed that the inner mold member 21 integrates an expander device intended to extract collapsed tubular bodies 61 from a tank of collapsed tubular bodies, for example by means of an arm provided with suction cups, and to expand said tubular bodies 61 by insertion and expansion of the first and second inner pressure walls 21 a and 21 b inside the tubular body 61.
    It will be understood that a tubular body 61 is a polygonal cross-sectional body provided with two opposite openings, said tubular body 61 having a number and size of faces complementary to the number and size of sides 5 of the central polygonal sector 4 of the flat piece base 50.
    The expander device of the present embodiment, shown in Figs. 15 and 16, includes a central portion connected to each first and second inner pressure wall 21a and 21b or to each corner grouping of a first and second inner pressure wall 21a and 21b by at least two articulated arms 14 arranged in positions superimposed, said articulated arms 14 being arranged radially around the central portion
    70. With two articulated arms 14, it is ensured that the displacement of inner pressure walls is a linear displacement, without turning, and the accompaniment of radial guides completes the guidance of said displacement, ensuring that it occurs in a direction of radial expansion.
    Said central portion is movable with respect to an expander support in a direction parallel to the first and second inner pressure walls 21 a and 21 b by actuating an expander actuator connected to said central portion and supported on said expander support. The displacement of the central portion by action of the expander actuator causes the tilting of all articulated arms 14, and the simultaneous displacement of all the first and second inner pressure walls 21 a and 21 b in radial directions by pressing the intrados of the tubular body 61 in areas near or coinciding with its corners.
    According to an intended embodiment each articulated arm 14 can comprise an adjustment device formed by a proximal articulated arm portion articulated connected to the central portion and a distal articulated arm portion articulated connected to the intrados of the first and / or second inner pressure walls 21 a and 21 boa each corner grouping of two inner pressure walls, the proximal and distal articulated arm portions of each articulated arm being joined together by a guide element that allow a relative displacement of both elongate or contracting the length of the articulated arm 14, and by means of a position blocker that fixes its relative position. This feature makes it possible to modify and adjust the length of the articulated arms 14, and therefore the maximum size of the tubular body 61 that can be expanded by the present expander device.
    Figs. 12, 13 and 14 show three different stages of the assembly method of the polygonal box according to the second embodiment of machine shown. In Fig. 12 a tubular body 61 resembled on the inner mold member 21 resembled, the first and second inner pressure walls 21 a and 21 b being pressed against the intrados of the tubular body 61 in radial directions.
    Said tubular body 61 is left with a lower opening resting on the central polygonal sector 4 of a flat base piece 50 arranged with their respective first and second wall panels 1 and 2 resting respectively on the first and second external pressure walls 22a and 22b arranged in a retracted and dejected position, all of them coplanar.
    In Fig. 13 it is shown how the actuation of the actuator devices, in this case hydraulic pistons, raises the second outer pressure walls 22b by pushing and folding the second wall panels 2, with their respective flap panels 3, until the second wall panels 2 parallel and pressed against the extrados of the tubular body 61, the flap panels 3 being protruding and distanced from the extrados of the tubular body 61. The following shows in Fig. 14 how the actuation of the actuator devices raises the first outer pressure walls 22a by folding the first wall panels 1 and pressing them first against the protruding flap panels 3, producing their bending with respect to the second wall panels 2, until the flap panels 3 are parallel and pressed against the extrados of the tubular body 61 and until the intrados of the first parallel wall panels 1 and pressed against the extrados of the flap panels 3.
    The glue previously deposited on the first wall panels 1 causes the adhesion of the assembly and the formation of the box.
    In the present embodiment, each first and second outer pressure wall 22a and 22b is composed of a rib parallel to the tilting path articulated by its base, to which side panels extending the pressure surface of the pressure wall can be attached. The actuator device is also connected to said rib to produce its rotation around the mentioned joint.
    Fig. 17, 18 and 19 show these same stages of the method of mounting the box around the tubular body 61, including the position of the tail lines, but without showing the machine in charge. In Figs. 17 and 18 two initial stages are shown, and in Fig. 19 the result obtained is shown.
    Although the figures show an embodiment of assembly around a tubular body 61, it will be understood that without said tubular body 61 the assembly procedure is equivalent and evident to an expert, the first and second walls being 1 and 2a mounted around the element of inner mold that is then removed.
    It will be understood that the different parts constituting the invention described in one embodiment may be freely combined with the parts described in other different embodiments even if said combination has not been explicitly described, provided there is no harm in the combination.
    权利要求:
    Claims (21)
    [1]
    1.-Method for automatic manufacturing of a prismatic box by folding and joining a flat base piece (50) comprising:
    • a central polygonal sector (4) with an even number of sides (5) greater than four,
    • first side wall panels (1) that extend from alternate sides of the central polygonal sector, and which when folded form first box side walls (1 a); Y
    • second wall panels (2) extending from the remaining alternate sides of the central polygonal sector, which when folded form a second box side walls (2a), said second wall panels including flap panels (3) which they extend from lateral edges of the second wall panels (2), and that when folded they are superimposed on the first box side walls (1 a);
    said method being applied by a machine comprising:
    • a conveyor (40) of flat base parts (50) defining a transport direction (X);
    • a glue applicator device (41) intended to apply glue on selected areas of the flat base pieces (50) transported by the conveyor (40);
    • a bending device (20) of flat base pieces (50) comprising an inner mold element (21) provided with first and second inner pressure walls (21 a and 21 b) and an outer mold element (22) provided with first and second outer pressure walls (22a and 22b), the inner mold elements (21) and outer mold elements (22) being movable relative to each other between a position of feeding flat pieces, in which a passage is defined between the inner mold element (21) and the outer mold element (22) in which to introduce said flat base piece (50) in the transport direction (X) by means of said conveyor (40), and a forming position of box in which the first and second interior pressure walls (21 a and 21 b) are facing and parallel to the first and second external pressure walls (22a and 22b), pressing in between the respective first and second wall panels (1 Y
    2);
    characterized in that the method comprises: a) placing the inner mold (21) and outer mold (22) elements in the feeding position;
    b) inserting a flat base piece (50), by means of said conveyor (40), the transport direction (X) being a direction perpendicular to two opposite and opposite sides (5) of the flat base piece (50) provided of first or second wall panels (1 or 2), said first or second wall panels (1) being aligned with each other in said transport direction (X);
    c) applying glue on selected areas of said first wall panels (1), in the form of parallel glue lines in the transport direction (X), and
    d) placing the inner mold (21) and outer mold (22) elements in the box forming position by their relative displacement, causing a first bending of said second wall panels (2) with flap panels (3) by their interaction with the second outer pressure walls (22b) and a subsequent bending of said first wall panels (1) lacking flap panels (3) and with applied glue, by interacting with the first outer pressure walls (22a ), pressing the first wall panels (1) against the extrados of said flap panels (3) causing the folding of said flap panels (3) and adhering them forming a box; Y
    e) eject the shaped box.
    [2]
    2. Method according to claim 1 wherein during step b) the transport direction (X) is parallel or perpendicular to the sides (5) of the central polygonal region (4) connected to first wall panels (1).
    [3]
    3. Method according to claim 1 or 2 wherein the central polygonal sector (4) of the piece
    Flat base (50) fed to the machine is oblong. 4. Method according to claim 1, 2 or 3 wherein the inner mold element (21) is a male (21) movable in a vertical direction (Z) perpendicular to the transport direction (X) by means of an actuator, the element The outer mold (22) is a cavity whose first and second outer pressure walls (22a and 22b) are fixed and at least partially parallel to the first and second inner pressure walls (21 a and 21 b), the upper ends being the first outer pressure walls (22a) at a lower height than the upper ends of the second outer pressure walls (22b),
    determining different folding moments of the first and second wall panels (1 and 2), and where
    step a) comprises placing the inner mold element (21) above, aligned and distanced from the outer mold element (22);
    step d) comprises moving the inner mold element (21) in a downward direction (Z) by pressing the central polygonal sector (4) of the flat base piece (50), interposed between the inner and outer mold elements (21 and 22), introducing it into the cavity of the outer mold element (22) and producing a first bending of the second wall panels (2) by the second exterior pressure walls (22b), and a subsequent bending of the first panels wall (1) by the first exterior pressure walls (22a).
    [5]
    5. Method according to claim 1, 2 or 3 wherein the inner mold element (21) is an expander device (21) of tubular bodies (61) of polygonal cross-section;
    each of said first and second outer pressure walls (22a and 22b) is a pivoting wall around a wall joint whose joint axis is horizontal and intended to be parallel to one of the sides (5) of the central polygonal sector ( 4) of the flat base piece (50), between a retracted position away from the first and second interior pressure walls (21a and 21b), and an extended position facing and parallel to the first and second interior pressure walls (21a and 21b) by action of an actuator device; and where
    step a) further comprises stroking a tubular body (61) around the inner mold member (21) and proceeding to radial expansion of the first and second inner pressure walls (21 a and 21 b) until they are pressed against the intrados of the tubular body (61); Y
    step d) comprises pivoting at first the second external pressure walls (22b), and at a later time pivoting the first external pressure walls (22a), until the second wall panels (2) are pressed against the extrados. of the tubular body (61), and the first wall panels (1) pressed against the extrados of the flap panels (3) which in turn remain with their intrados pressed against the extrados of the tubular body (61).
    [6]
    6.-Machine for automatic manufacturing of a prismatic box by folding and joining a flat base piece (50) comprising:
    • a central polygonal sector (4) with an even number of sides (5) greater than four,
    • first side wall panels (1) that extend from alternate sides of the central polygonal sector, and which when folded form first box side walls (1 a); Y
    • second wall panels (2) extending from the remaining alternate sides of the central polygonal sector, which when folded form a second box side walls (2a), said second wall panels including flap panels (3) which they extend from lateral edges of the second wall panels (2), and that when folded they are superimposed on the first box side walls (1 a);
    said machine comprising:
    • a conveyor (40) of flat base parts (50) defining a transport direction (X);
    • a glue applicator device (41) intended to apply glue on selected areas of the flat base pieces (50) transported by the conveyor (40);
    • a bending device (20) of flat base pieces (50) comprising an inner mold element (21) provided with first and second inner pressure walls (21a and 21b) and an outer mold element (22) provided with first and second outer pressure walls (22a and 22b), the inner mold elements (21) and outer mold elements (22) being movable relative to each other between a position of feeding flat pieces, in which a passage between the inner mold element (21) and the outer mold element (22) in which said flat base piece (50) is introduced in the transport direction (X) by said conveyor (40), and a forming position of box in which the first and second interior pressure walls (21 a and 21 b) are facing and parallel to the first and second exterior pressure walls (22a and 22b), pressing in between the respective first and second wall panels (1 and 2);
    characterized by
    said conveyor (40) is configured to introduce the flat base pieces (50) in a direction perpendicular to two opposite and opposite sides (5) of the central polygonal sector (4) of the flat base part (50) provided with first or second wall panels
    (1 or 2), the first or second wall panels (1 or 2) being aligned with each other in said transport direction (X); Y
    the first and second exterior pressure walls (21 a and 21 b) are configured to produce a first bending of said second wall panels (2) provided with flap panels (3) and a subsequent bending of the first wall panels (1 ) with glue and lacking flap panels (3), pressing them against the extrados of said flap panels (3), and causing the folding of said flap panels (3).
    [7]
    7. Machine according to claim 6 wherein the transport direction (X) is parallel or perpendicular to the sides (5) of the central polygonal region (4) connected to first wall panels (1).
    [8]
    8. Machine according to claim 6 or 7 wherein the relative position between all the first and the second outer pressure walls (22a and 22b), and optionally also between all the first and second inner pressure walls (21 a and 21 b ) is adjustable in a horizontal direction by means of an adjustment device intended to allow its relative displacement, adapting the machine to different sizes and box formats to be produced.
    [9]
    9. Machine according to claim 6, 7 or 8 wherein the inner mold element (21) is a movable male in a vertical direction (Z) perpendicular to the transport direction (X);
    The outer mold element (22) is a cavity whose first and second outer pressure walls (22a and 22b) are fixed and at least partially parallel to the corresponding first and second inner pressure walls (21a and 21b), the ends being upper of the first outer pressure walls (22a) at lower heights than the upper ends of the second outer pressure walls (22b), determining different folding moments of the first and second wall panels (1 and 2), and in where
    the first outer pressure walls (22a) are at least partially parallel to the first inner pressure walls (21a), and the second outer pressure walls (22b) are at least partially parallel to the second inner pressure walls (21 b ).
    [10]
    10. Machine according to claim 9 wherein the second inner (21 b) and outer (22b) pressure walls are located in parallel planes separated at least a distance equal to the thickness of the second wall panels (2), and the first inner (21 a) and outer (22a) pressure walls are located in parallel planes separated by at least a distance equal to the sum of the thickness of the flap panels (3) and the first wall panels (1).
    [11]
    11. Machine according to claim 6, 7 or 8 wherein the inner mold element (21) is an expander device (21) of tubular bodies of polygonal cross-section;
    each of said first and second outer pressure walls is a pivoting wall around a wall joint whose joint axis is horizontal and intended to be parallel to one of the sides of the central polygonal sector of the flat base piece, between a retracted position away from the first and second interior pressure walls, and an extended position facing and parallel to the first and second interior pressure walls.
    [12]
    12. Machine according to claim 11 wherein the first and second inner pressure walls of the inner mold are displaced in divergent directions by means of an expansion actuator, causing an expansion of the tubular body by means of the pressure exerted by the first and second pressure walls applied on the intrados of the tubular body.
    [13]
    13. Machine according to any one of the preceding claims 6 to 12, wherein the glue applicator device is provided with a plurality of glue nozzles, and is configured so that at least one of said glue nozzles deposits glue in first two wall panels, aligned with each other, of the same flat base piece, in symmetrical positions.
    [14]
    14. Machine according to claim 13 wherein each applicator nozzle has an adjustment device that allows its position to be modified in a transverse direction perpendicular to the transport direction (X).
    [15]
    15. Machine according to any one of the preceding claims 6 to 14, wherein the first external pressure walls are four in number, the second external pressure walls are four in number, the first internal pressure walls are four in number and the second internal pressure walls are four in number, the machine being provided for the formation of boxes with central polygonal sector of eight sides.
    [16]
    16.-Prismatic box manufactured automatically by folding and joining a flat base piece by means of a machine, comprising the flat base piece:
    • a central polygonal sector (4) with an even number of sides (5) greater than four,
    • first side wall panels (1) that extend from alternate sides of the central polygonal sector, and which when folded form first box side walls (1 a); Y
    • second wall panels (2) extending from the remaining alternate sides of the central polygonal sector, which when folded form a second box side walls (2a), said second wall panels including flap panels (3) which they extend from lateral edges of the second wall panels (2), and that when folded they are superimposed on the first box side walls (1 a);
    characterized in that the box is formed by the method described in any one of claims 1 to 4, and has:
    • second box side walls (2a) folded between 75 and 105 degrees from the central polygonal sector;
    • first box side walls (1 a) folded at 75 and 105 degrees from the central polygonal sector being parallel and facing each other two by two;
    the second walls being joined to the first walls through the flap panels, the first walls being adhered by their intrados to the extrados of the flap panels by means of parallel glue lines applied to each first wall.
    [17]
    17. Prismatic box according to claim 16 wherein the angle formed by the first and second box side walls (1 a and 2a) with respect to the central polygonal sector (4) is 90 °.
    [18]
    18. Prismatic box according to claim 16 wherein the sides (5) of the central polygonal sector (4) from which the first wall panels (1) extend are longer than the remaining sides (5) of the central polygonal sector (4).
    [19]
    19. Prismatic box according to claim 16, 17 or 18 wherein the central polygonal sector (4)
    It is oblong.20. Prismatic box according to claim 16, 17, 18 or 19 wherein the box has fourfirst walls (1 a) and four second walls (2a) interspersed, arranged aroundof a central polygonal sector (4) of eight sides.
    [21 ]
    21. Prismatic box according to any one of the preceding claims 16 to 20, wherein the first and second walls (1 a and 2a) tightly surround a tubular body (61).
    50 r -------------------- r -: -: - T -------------------,
    I I
    "
    I I
    I I
    I I
    I I I I I I I I I I I I
    : I 1: I
    I I I I
    I I I I I I IL ___________________. JC -'-'- "-___________________. JI
     50 Fig. 1
    r --------------------. ------- .-------------------- ,
    III
    "
    IIIIIIIIIIIIIIII
    L ___________________......._____....... ___________________
     Fig. 2 
    29
    fifty
    "
     Fig. 3
    "
     Fig. 4
    z
    Lx
    ¡¡
     Fig. 6 
    "
    t - 220

    220 22b 22b
     IZ --- f - 220
     ¡¡22b 22b220 
    L
     Fig. 7
    "
    220
     Fig. 8
    "
     Fig. 9
    21b 210
    "
    21b 210
     Fig. 10
    N
     22 / '
     Fig. 12
    22 /
     Fig. 13
    J
     61 ~~~~ 61
    2 2
    1 --- 1- ~~ -t ::.:
     22 / '
    Fig. 14
    1515
    J
     Fig. 15
    J21
     14 14 14 14 210 210 21b 21b 21b 21b
     Fig. 16
    [50 ]
     fifty ./
    Fig. 17
    111111111 ~ 1111111111
    1111111111 ~ 111111111
    r
    "12
    ----- 12
    [50 ]
     fifty ./
    Fig. 18
    Fig. 19
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    同族专利:
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    ES2655317B1|2018-11-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2696612A|1951-08-08|1954-12-14|Hat Corp America|Boxmaking machine|
    ES2088816A2|1993-08-02|1996-09-16|Transmet Sa|Novel head for forming open cardboard boxes|
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    ES2385796A1|2010-02-09|2012-07-31|Tamegar, S.L.|Device of format for machinery for conforming carton or similar boxes. |
    ES1073027U|2010-06-25|2010-10-20|Boix Maquinaria S.A.|Machine for assembling cardboard boxes|
    ES1143184U|2015-08-03|2015-09-01|Rafael Hinojosa, S.A.|Stainless base or cover for tubular containers of polygon contour |
    ES1143187U|2015-08-19|2015-09-01|Cartonajes Lantegi, S.L.|Carton box |ES2798000A1|2019-06-04|2020-12-04|Telesforo Gonzalez Maqu Slu|MALE FOR BOX FORMING MACHINE, AND MACHINE AND METHOD FOR BOX FORMING |
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    ES201600666A|ES2655317B1|2016-08-09|2016-08-09|Method and machine for automatic manufacturing of a prismatic box by folding and joining a flat base piece, and obtained prismatic box|ES201600666A| ES2655317B1|2016-08-09|2016-08-09|Method and machine for automatic manufacturing of a prismatic box by folding and joining a flat base piece, and obtained prismatic box|
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