• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The forming machine comprises several corner groups defining a mold with an embouchure in a plane parallel to mutually perpendicular first and second directions (x, y), and a male provided with a reciprocating movement in a third direction (z) perpendicular to the plane of the embouchure. The corner group comprises a corner bending and gluing device (90) having a rocking pusher (10) that swings about an axis (11) parallel to the first direction (X) supported on a support member (16) of the mold, a pusher actuator (12) connected in an articulated manner to the support member (16) and to the rocking pusher (10), and a linear guidance device and a linear guidance locking and unlocking device by means of which a position of the shaft (11) is adjustable in the third direction (z) with respect to the swinging pusher and the support member. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2646330A1
    申请号:ES201630787
    申请日:2016-06-09
    公开日:2017-12-13
    发明作者:Telesforo González Olmos
    申请人:Telesforo Gonzalez Maquinaria SL;
    IPC主号:
    专利说明:

    5
    10
    fifteen
    twenty
    25
    30
    DESCRIPTION
    CORNER GROUP OF A MATERIAL BOX FORMING MACHINE
    LAMINATE
    Technique Field
    The present invention concerns a corner group belonging to a box-forming machine of laminar material, wherein said forming machine comprises a mold defined in part by several of said corner groups and a male provided with a movement of vaiven to form boxes from the folding and gluing of die-cut sheets made of a semi-rigid sheet material.
    Background of the invention
    Box forming machines of sheet material are known which comprise corner groups that together with other elements define a mold having a mouth located in a plane, and a male provided with a movement of move in a direction perpendicular to the plane of the mouth of the mold to insert successive punched plates made of a semi-rigid sheet material inside the mold. The punched plates have formed recesses that define different panels and the corner groups have different elements that cooperate with the male to fold and glue several of the panels of the die-cut plate and thereby form some side walls and corners of the box.
    The boxes obtained from the bending and gluing of die-cut sheets made of a semi-rigid sheet material by means of a forming machine of the type described above have a bottom wall and an even number equal to or greater than four of two side walls opposite two. Rectangular bottom boxes with four side walls and four corners are very common, although octagonal bottom boxes provided with eight side walls and eight corners are increasingly used, and to a lesser extent hexagonal bottom boxes provided with six side walls and six corners In general, the forming machines include a mold having a corner group for each corner of the box, that is, four corner groups for rectangular boxes, six corner groups for hexagonal boxes and eight corner groups for octagonal boxes. In some of these boxes, at least two of the opposite side walls are slightly inclined into the box.
    5
    10
    fifteen
    twenty
    25
    30
    Corner groups of forming machines are known which have inert bending elements and active bending elements that are moved by actuators in coordination with the movements of the male, wherein the active bending elements include a tilting pusher provided with a movement that confers the mentioned slight inclination. inward to the side walls of the box.
    A drawback of the corner groups of machines forming the prior art is that their inert bending elements and their active bending elements have little or no regulation possibilities to adapt the mold to different types of boxes and to precisely adjust the mold to the boxes.
    To adapt the mounting machine to the assembly of boxes with inclined side walls of different heights by means of a tilting pusher of the type described, it is necessary to adjust the position of the tilting axis of the tilting pusher in a direction perpendicular to the axis itself, that is, perpendicular to the plane of the mouth of the mold. This is because the base of the box and a small height of the side wall adjacent to the base should always be below the tilt axis of the tilt bender to prevent the tilt bender, when adopting the inclined pressure position deforms the base of the box and the mentioned small height of the side wall.
    In addition, it would be desirable for the machine to mount the boxes to have the possibility of regulating the degree of inclination of the side walls of a box of a certain height since this degree of inclination depends on several factors that can derive in a series of advantages . First, regulating the degree of inclination indirectly controls the compressive force supported by the inclined walls derived from the weight that falls on the inclined walls in a situation of stacking several boxes, said weight being proportional to the number of boxes that are located in a superior position with respect to the considered box. Second, a greater inclination of the side walls allows a greater ventilation and therefore a greater uniformity of the temperature of the products contained in the box in transport and storage situations, especially if they are arranged in controlled temperature enclosures. That is why it would be desirable to be able to make a regulation on the degree of inclination provided to the side walls of the box by the tilting pushers.
    Document ES2439142A1 describes a tilting bender for boxes with inclined walls comprising a tilting pusher that pivots around an axis of rotation parallel to the plane of the mouth of the mold, where the positions of the shaft and of a fork are adjustable along from the wall of the box that the tilting pusher
    5
    10
    fifteen
    twenty
    25
    30
    inclines However, this tilting bender cannot be adapted to boxes with inclined side walls of different heights and / or different degrees of inclination since the position of the tilting axis cannot be adjusted in a direction perpendicular to the plane of the mouth of the mold.
    Document ES2536941A1 describes a tilting bender for boxes with double-layer side walls that swings around a first axis by the action of a first actuator and which is mounted on a support that tilts as a whole around a second fixed axis by the action of a second actuator.
    Neither of the two documents mentioned above includes the possibility of regulating the position of the tilting axis of the tilting pusher in a direction perpendicular to the plane of the mouth of the mold.
    Exposition of the invention
    The present invention helps to mitigate the previous and other inconveniences by providing a corner group of a laminating box forming machine. The forming machine comprises a mold defined in part by a plurality of the corner groups, the mold having a mouth in a plane parallel to first and second directions X, Y perpendicular to each other, and a male endowed with a movement of move in a third direction Z perpendicular to the plane of the mouth to form boxes from the folding and gluing of die-cut sheets made of a semi-rigid sheet material.
    The corner group of the present invention includes a corner bending and gluing device comprising a tilting pusher that swings around a pivot axis of rotation parallel to the first direction X supported on a support member constituting a structural element of the mold, a pusher actuator having first and second parts provided with relative movement, wherein the first part is connected to the support member by an articulation axis and the second part is connected to the tilting pusher by another articulation axis, both articulation axes being parallel to the first X direction, and a linear guiding device and a linear guiding locking and unlocking device by means of which a tilting pivot axis position is adjustable in the third Z direction with respect to the pusher swingarm and support member.
    Through the possibility of regulation in the third direction Z provided by the aforementioned linear guidance device and linear guidance locking and unlocking device, it is possible to
    5
    10
    fifteen
    twenty
    25
    30
    ensure that a base of the box and a small height of the side wall adjacent to the base are below the tilting axis of the tilting bender in order to avoid that during the operation of the tilting bender the base of the box and said small Side wall height are deformed.
    Preferably, the swingarm pivot axis is part of a hinge comprising first and second hinge elements connected to each other by the swingarm pivot axis. The first hinge element is connected to the tilting pusher by first elements of the linear guidance device and by first elements of the linear guidance locking and unlocking device, and the second hinge element is connected to the support member for a few second elements. of the linear guidance device and for a few seconds elements of the linear guidance locking and unlocking device.
    In one embodiment, the first elements of the linear guiding device comprise a protrusion projecting from the tilting pusher and sliding in a longitudinal channel parallel to the third direction Z formed in the first hinge element, and the first elements of the locking device and Linear guidance unlocking comprises a first elongated hole parallel to the third direction Z formed in the first hinge element and a first screw inserted in the first elongated hole and screwed into a hole formed in the tilting pusher.
    In one embodiment, the second elements of the linear guidance device comprise a projection protruding from the second hinge element and sliding in a longitudinal groove parallel to the third direction Z formed in a shaft support fixed in turn to the mold, and the Second elements of the linear guidance locking and unlocking device comprise a second elongated hole parallel to the third direction Z formed in the shaft support, and a second screw inserted in the second elongated hole and screwed into a hole formed in the second element of hinge.
    In an alternative embodiment the first elements of the linear guidance device comprise a longitudinal channel parallel to the third direction Z formed in the tilting pusher in which a projecting part of the first hinge element slides, and the first elements of the locking and unlocking device Linear guides comprise a first elongated hole parallel to the third direction Z formed in the first hinge element and a first screw inserted in the first elongated hole and screwed into a hole formed in the tilting pusher.
    5
    10
    fifteen
    twenty
    25
    30
    Preferably, the swing axis of the swingarm is inserted by means of bearings in a hole formed in an axis support fixed to the first hinge element by means of screws, and the second hinge element is constituted by a thickened region of the swingarm rotation axis. outside the hole.
    In an alternative embodiment the second elements of the linear guidance device comprise a protruding portion defined between two parallel planes formed in the second hinge element and sliding in an elongated hole parallel to the third direction Z formed in a bender support fixed to the member of support, and the second elements of the linear guide locking and unlocking device comprise a nut screwed into a threaded end of the swingarm pivot shaft inserted through the elongated hole.
    Preferably, the screws that secure the shaft support to the first hinge element are inserted through elongated holes parallel to the second direction Y formed in the first hinge element and screwed into holes formed in the shaft support.
    In one embodiment, the corner group further comprises a flange bending device having a flange trigger support, a flange bending trigger connected to the flange trigger support by a pivot axis parallel to the third direction Z, and a flange trigger actuator having first and second parts provided with relative movement, where the first part is connected to the flange trigger support by a first articulation axis parallel to the third direction Z and the second part is connected to a appendix of the flange bender trigger by a second articulation axis parallel to the third direction Z.
    In one embodiment, the corner group comprises, in addition to the flange bending device, a column bending device having a column trigger support fixed to a structural element of the mold, a column bending trigger fixed to a parallel pivot axis. to the third direction Z pivotally supported on the column trigger support, and a column trigger actuator having first and second parts provided with relative movement, wherein the first part is connected to the column trigger support by a first articulation axis parallel to the third direction Z and the second part is connected to a crank fixed to the pivot axis by a second articulation axis parallel to the third direction Z.
    5
    10
    fifteen
    twenty
    25
    30
    The flange trigger actuator and the column trigger actuator move the flange bender trigger and the column bender trigger, respectively, in opposite directions of rotation from respective standby positions to respective pressure positions to respectively fold a flange and a column board of the die-cut iron and form a corner column of the box. Once the corner column is formed, the flange bender trigger and the column bender trigger are moved in opposite directions of rotation from the respective pressure positions back to the respective waiting positions.
    Optionally, the column trigger actuator is a multi-position pneumatic cylinder that gives the column bender trigger an intermediate position between the waiting position and the pressure position and keeps the column bender trigger the intermediate position while the flange bender trigger performs the movements from the waiting position to the pressure position and back to the waiting position before finishing the movement to its pressure position so as not to interfere with the flange bending trigger.
    In one embodiment, the flange trigger support is fixed to the rocker pusher. For example, the flange trigger support is fixed to an intermediate piece which in turn is fixed to a fork body fixed to the tilting pusher, where the fork body supports the articulation axis that connects the second part of the actuator of Pusher to tilt pusher. The intermediate piece comprises first elongated holes parallel to the first direction X and a second elongated holes parallel to the second direction Y. The first screws are inserted into the first elongated holes and screwed into holes formed in the fork body and a few seconds. Screws are inserted into the second elongated holes and screwed into holes formed in the flange trigger support.
    Optionally, the bender support has a first portion that extends in the first direction X, a second portion that extends in the second direction Y, and a third portion that extends in the third direction Z. The first portion of the support of bender has two parallel edges that slide in a longitudinal channel parallel to the first direction X formed in the support member and one or more elongated holes parallel to the first direction X. One or more screws are inserted in the one or more elongated holes and screwed into one or more corresponding holes formed in the support member. In the second portion of the bender support an elongated hole is formed parallel to the second direction Y in which the articulation axis is inserted, and the articulation axis has a threaded end in which a threaded
    5
    10
    fifteen
    twenty
    25
    30
    nut. The aforementioned elongated hole in which the second hinge element is fixed is formed in the third portion of the bender support.
    Optionally, the corner group also includes a support plate fixed to the second portion of the bender support by means of screws. This support plate extends in cantilever below the first part of the pusher actuator.
    Optionally, the column trigger support of the column bender device is fixed to the structural element of the mold by a connection piece having an elongated hole through which fixing screws are inserted.
    In one embodiment, the column bender trigger comprises a first trigger piece that has an end fixed to the pivot shaft and a second trigger piece that has a free end that defines a pressure head. These first and second trigger pieces are slidably coupled to each other by respective conjugated gluttony elements. In addition, the first trigger piece has an elongated hole parallel to the glutton elements, and a screw is inserted through the elongated hole and screwed into a hole formed in the second trigger piece.
    In one embodiment, the corner group further comprises an inert bender that has a curved or inclined upper bending surface and a lateral support surface in a plane parallel to the first and third directions X, Z. This inert bender is fixed to a structural element of the mold by a linear guidance device and a linear guidance locking and unlocking device by means of which an inert bender position is adjustable in the first, second and third directions X, Y, Z relative to the mold
    For example, the inert bender is fixed to a clamp by an angled piece that has first and second branches. The first branch of the clamp has a first longitudinal channel formed parallel to the third direction Z in which the clamp slides, and the second branch of the clamp has formed a second longitudinal channel parallel to the second direction Y in which the bender slides inert. The clamp has a passage parallel to the first direction X sized to slidably receive the structural element of the mold. The first and second channels and the passage constitute the mentioned linear guidance device.
    The clamp has a through hole in which a locking screw is screwed which, when tightened, penetrates the interior of the passage. The first branch of the piece at an angle has
    5
    10
    fifteen
    twenty
    25
    30
    one or more first elongated holes parallel to the third direction Z and one or more first screws are inserted into the one or more elongated first holes and screwed into one or more corresponding holes formed in the clamp. The second branch of the piece at an angle has one or more second elongated holes parallel to the second Y direction, and one or more second screws are inserted in the one or more second elongated holes and screwed into one or more corresponding holes formed in the bender inert. The locking screw and the first second elongated holes in cooperation with the first and second screws constitute the aforementioned linear guidance locking and unlocking device.
    Brief description of the drawings
    The foregoing and other features and advantages will be more fully understood from the following detailed description of some examples of realization, which are provided with a merely illustrative and non-limiting purpose, with reference to the accompanying drawings, in which:
    Fig. 1 is a front top perspective view of a corner group of a sheet forming machine according to a first embodiment of the present invention, in conjunction with a sheet material box;
    Fig. 2 is a rear top perspective view of the corner group of Fig. 1;
    Figs. 3 and 4 are views in front upper and lower rear perspective, respectively, of a corner bending and gluing device integrated in the corner group of Figs. 1 and 2;
    Fig. 5 is an exploded perspective view of the corner bending and gluing device of Figs. 3 and 4;
    Fig. 6 is a cross-sectional view of the corner group of Figs. 1 and 2 in conjunction with boxes of sheet material;
    Fig. 7 is a front top perspective view of a corner group of a sheet forming machine according to a second embodiment of the present invention;
    Fig. 8 is a partial perspective view of a corner of a box of sheet material to be formed in cooperation with the corner group of Fig. 7;
    5
    10
    fifteen
    twenty
    25
    Fig. 9 is a front top perspective view of the corner group of Fig. 7 with some parts suppressed to better show some of its elements in conjunction with the sheet material box of Fig. 8;
    Fig. 10 is a perspective view of a column bender device integrated in the corner group of Figs. 7 and 9;
    Figs. 11 and 12 are top and bottom rear perspective views,
    respectively, of a corner bending and gluing device and a device
    eyelash bender integrated in the corner group of Figs. 7 and 9;
    Fig. 13 is an exploded perspective view of the corner bending and gluing device and the eyelash bending device of Figs. 11 and 12;
    Fig. 14 is an exploded perspective view of elements of the corner bending and gluing device of Fig. 13;
    Fig. 15 is a cross-sectional view of the corner group of Figs. 7 and 9 in conjunction with a box of sheet material;
    Figs. 16 to 19 are top floor views illustrating successive phases of the
    combined operation of the column bender device and the flange bender device in conjunction with a sheet material box; Y
    Figs. 20 and 21 are top and bottom rear perspective views,
    respectively, of an inert bender integrable in the corner group.
    Detailed description of some realization examples
    Referring firstly to Figs. 1 to 6 a corner group of a box forming machine of sheet material according to a first embodiment of the present invention is described. In the illustrated example, said forming machine (not shown) comprises four corner groups (only one of which is shown in Figs. 1 and 2) which define, together with other elements not shown, a mold provided with a mouthpiece located in a plane parallel to the first and second directions X, Y perpendicular to each other, and a male (not shown) endowed with a movement in a third direction Z perpendicular to the plane of the mouth, so that the action of the male In cooperation with the mold form successive C boxes
    5
    10
    fifteen
    twenty
    25
    30
    (one of which is shown in Figs. 1 and 2) from the folding and gluing of die-cut sheets made of a semi-rigid sheet material.
    In the example of Fig. 1, the box C has a rectangular bottom wall C1, two opposite short side walls C2, two opposite long side walls C3, and four corner columns CE. The two opposite short-sided walls C2 are slightly inclined into the box, as can be seen in the box C located in a lower position in Fig. 6. However, it should be noted that the corner group of the present The invention is not limited to defining a mold for the formation of rectangular boxes and it can be easily generalized to define molds adapted for the formation of boxes provided with a bottom wall and an even number equal to or greater than four opposite side walls two to two. , being at least two of the inclined opposite side walls, where the corner columns are optional.
    In any case, the corner group of the present invention comprises a corner bending and gluing device 90 specifically configured to fold the inclined side walls C2 and glue them to another corresponding panel of the box on which an adhesive has previously been deposited. In the first embodiment shown in Figs. 1 to 6, the corner bending and gluing device 90 sticks the bent side walls C2 to CE2 panels that are part of the CE corner columns and on which an adhesive has been previously deposited.
    The corner bending and gluing device 90 comprises a tilting pusher 10 that swings around a swing axis of swingarm 11 parallel to the first direction X supported on a bender support 36 fixed to a support member 16 constituting an element structural shape of the mold, and a pusher actuator 12 that moves the tilting pusher 10 between a waiting position, in which the tilting pusher 10 is in a plane parallel to the first and third directions X, Z, and a pressure position, wherein the tilting pusher 10 is in a plane slightly inclined towards the inside of the mold.
    The bender support 36 has a first portion 36a which extends in the first direction X and which is fixed to the support member 16 by screws 103 and a second portion 36b which extends cantilevered in the second direction Y.
    The pusher actuator 12 has first and second parts 12a, 12b provided with relative movement. The first part 12a of the pusher actuator 12 is connected by an articulation axis 13 parallel to the first direction X to the support member 16 and the
    5
    10
    fifteen
    twenty
    25
    30
    second part 12b of the pusher actuator 12 is connected by an articulation shaft 56 parallel to the first direction X to the tilting pusher 10. In the illustrated example the pusher actuator 12 is a pneumatic cylinder, and the articulation axis 56 is constituted by a screw inserted through an elongated hole 101 formed in the second portion 36b of the bender support 36 and secured by nuts 102 to a ball joint included in the second part 12b of the pusher actuator 12.
    The corner bending and gluing device 90 further comprises a linear guiding device and a linear guiding locking and unlocking device by means of which it is possible to adjust the position of the swingarm rotation axis 11 in the third direction Z with respect to the pusher swingarm 10 and support member 16. More specifically, the swingarm pivot shaft 11 articulates in a hinged manner first and second hinge elements 14, 15. The first hinge element 14 is connected to the rocker pusher 10 by first elements of the linear guidance device and by first elements of the linear guidance locking and unlocking device. The second hinge element 15 is connected to the support member 16 for a few seconds elements of the linear guidance device and for a few seconds elements of the linear guidance locking and unlocking device.
    As best shown in Figs. 3, 4 and 5, the first elements of the linear guidance device comprise a projection 17 projecting from the tilting pusher 10 and sliding in a longitudinal channel 18 parallel to the third direction Z formed in the first hinge element 14, and the first Elements of the linear guide locking and unlocking device comprise a first elongated hole 19 parallel to the third direction Z formed in the first hinge element 14 and a first screw 20 inserted in the first elongated hole 19 and screwed into a hole 21 formed in the rocker pusher 10.
    The second elements of the linear guiding device comprise a projection 21 protruding from the second hinge element 15 and sliding in a longitudinal groove 22 parallel to the third direction Z formed in a shaft support 23 fixed in turn to the mold, and the Second elements of the linear guidance locking and unlocking device comprise a second elongated hole 22 parallel to the third direction Z formed in the shaft holder 23, and a second screw 24 inserted into the second elongated hole 22 and screwed into a hole 25 formed in the second hinge element 15.
    The corner group of Fig. 1 further comprises inert benders 80, 92, an active flap lifting device 89, a side bending and gluing device 93
    5
    10
    fifteen
    twenty
    25
    30
    active, a retractable stop 91 that prevents the box C from backing up when the male is removed, and a column bender device 48 that is analogous to that of a second embodiment shown in Figs. 7 to 15 and which will be described in detail in relation to Fig. 10.
    In the first embodiment, the column bender device 48 has a column bender trigger 50 actuated by a column trigger actuator 52 for folding and pressing first, second and third column panels CE1, CE2, CE3 extending from a side edge of the side wall of short side C2 and a flange P formed by a cut in the side wall of long side C3 in order to form a corner column CE, taking into account that on areas of the third column panel CE3 and from the P flange an adhesive has been previously deposited.
    Fig. 6 shows the corner group in conjunction with two boxes C that are being formed in the forming machine. In the case C located in an upper position, the short side side walls C2 and the long side side walls C3 have been folded to a position substantially perpendicular to the bottom wall C1 by the inert benders 80, 92 in cooperation with the male (not shown) before the rocker pusher 10 has acted. In the case C located in the lower position, the side walls of short side C2 have already been inclined towards the inside of the box by the actuation of the tilting pusher 10.
    Figs. 7 to 15 show a corner group according to a second embodiment, which, in addition to the corner bending and gluing device 90 and the column bending device 48, includes a flange bending device 41 which, as will be described in detail below, it acts in cooperation with a column bender device 48 to form a corner column CE of the box C as shown in Fig. 8, where a corner column CE is formed by first and second column panels CE1 and CE2 extending from a side edge of the short side side wall C2 and a flange P formed by a cut in the same side wall of short side C2.
    As in the first embodiment, the corner bending and gluing device 90 of the second embodiment comprises a tilting pusher 10 that swings around a pivot axis 11 parallel to the first direction X supported on a support member 16 constituting a structural element of the mold, and a pusher actuator 12 that moves the tilting pusher 10 between a waiting position and a pressure position, where the pivot pivot axis 11 a first hinge element 14 which is
    5
    10
    fifteen
    twenty
    25
    30
    connected to the rocker pusher 10 by first elements of the linear guidance device and by first elements of the linear guidance locking and unlocking device, and a second hinge element 15 that is connected to the support member 16 for a few second elements of the device linear guidance and for a few seconds elements of the linear guidance locking and unlocking device.
    As best shown in Figs. 11 to 14, the swingarm pivot axis 11 is inserted by means of bearings 30 in a hole 31 formed in an axle holder 32 fixed to the first hinge element 14 by means of screws 33. The swingarm rotate axis 11 is axially retained in the hole 31 of the shaft support 32 by a washer 104 and an elastic ring 105. The second hinge element 15 is constituted by a thickened region of the pivot shaft 11 located outside the hole 31. The screws 33 are inserted through elongated holes 39 parallel to the second direction Y formed in the first hinge element 14 and screwed into holes formed in the shaft support 32.
    The first elements of the linear guidance device comprise a longitudinal channel 26 parallel to the third direction Z formed in the tilting pusher 10 in which a projecting part of the first hinge element 14 slides. The first elements of the guidance locking and unlocking device linearly they comprise a first elongated hole 27 parallel to the third direction Z formed in the first hinge element 14 and a first screw 28 inserted in the first elongated hole 27 and screwed into a hole 29 formed in the tilting pusher 10.
    The second elements of the linear guidance device comprise a defined protruding portion between two parallel planes 34 formed in the second hinge element 15 and sliding in an elongated hole 35 parallel to the third direction Z formed in a bender support 36 fixed to the member of support 16, and the second elements of the linear guide locking and unlocking device comprise a nut 37 screwed into a threaded end 38 of the swingarm pivot shaft 11 inserted through the elongated hole 35.
    As best shown in Fig. 10, the column bending device 48 has a column trigger support 49 fixed to a structural element of the mold by a connecting piece 72 having an elongated hole 73 through which screws are inserted of fixation (not shown). The column trigger support 49 pivotally supports a pivot shaft 51 parallel to the third direction Z. A column bender trigger 50 and a
    5
    10
    fifteen
    twenty
    25
    30
    crank 54 are fixed to the pivot axis 51. The column bending trigger 50 is actuated by a column trigger actuator 52 having first and second parts 52a, 52b provided with relative movement, where the first part 52a is connected to the column trigger support 49 by a first articulation axis 53 parallel to the third direction Z and the second part 52b is connected to the crank 54 by a second articulation axis 94 parallel to the third direction Z. In the embodiment shown, the Column trigger actuator 52 is a pneumatic cylinder.
    The column bending trigger 50 comprises a first trigger piece 74 that has an end fixed to the pivot shaft 51 and a second trigger piece 75 that has a free end defining a pressure head 75a. These first and second trigger pieces 74, 75 are slidably coupled to each other by respective conjugate glutton elements 76. The first trigger piece 74 has an elongated hole 77 formed parallel to the glutton elements 76, and a screw 78 is inserted through the elongated hole 77 and screwed into a hole formed in the second trigger piece 75.
    As best shown in Figs. 11 to 13, the aforementioned flange bending device 41 has a flange trigger support 42, a flange bending trigger 43 connected to the flange trigger support 42 by a pivot shaft 44 parallel to the third direction Z, and a flange trigger actuator 45 that moves the flange bender trigger 43 between a waiting position and a pressure position. The flange trigger actuator 45 has first and second parts 45a, 45b provided with relative motion. The first part 45a is connected to the flange trigger support 42 by a first articulation axis 46 parallel to the third direction Z and the second part 45b is connected to an appendix of the flange folding trigger 43 by a second articulation axis 47 parallel to the third direction Z. In the embodiment shown, the flange trigger actuator 45 is a pneumatic cylinder.
    The first articulation shaft 46 is supported on a fork 97 fixed to the flange trigger support 42 by one or more screws 96. The one or more screws 96 are inserted through corresponding one or more holes formed in said fork 97 and through an elongated hole 95 parallel to the second direction Y formed in the flange trigger support 42 and secured by a nut 98.
    The flange trigger support 42 is fixed to the rocker pusher 10. More specifically, the flange trigger support 42 is fixed to an intermediate piece 57, the intermediate piece 57 is fixed to a fork body 62 that supports the articulation axis
    5
    10
    fifteen
    twenty
    25
    30
    56 which connects the second part 12b of the pusher actuator 12 to the rocker pusher 10, and the fork body 62 is fixed to the rocker pusher 10 by means of a spacer 99 and screws 100.
    The intermediate piece 57 has first elongated holes 58 parallel to the first direction X and a second elongated holes 59 parallel to the second direction Y. First screws 60 are inserted into the first elongated holes 58 and screwed into holes 63 formed in the fork body 62. A few second screws 61 are inserted into the second elongated holes 59 and screwed into holes 64 formed in the flange trigger holder 42.
    The bender support 36 has a first portion 36a extending in the first direction X, a second portion 36b extending in the second direction Y, and a third portion 36c extending in the third direction Z. The first portion 36a of the bender support 36 has two parallel edges that slide in a longitudinal channel 65 parallel to the first direction X formed in the support member 16 and one or more elongated holes 67 parallel to the first direction X. One or more screws 66 are inserted in the one or more elongated holes 67 and bolted in corresponding one or more holes 68 formed in the support member 16.
    In the second portion 36b of the bender support 36 an elongated hole 69 is formed parallel to the second direction Y in which the articulation axis 13 is inserted. The articulation axis 13 has a threaded end 13a in which a nut is threaded 70. This arrangement allows a regulation of the position of the articulation axis 13 that links the pusher actuator 12 to the bender support 36, and consequently of the articulation axis 56 which links the pusher actuator 12 to the tilting pusher 10, in the second direction Y, without changing the position of the swingarm pivot axis 11 that links the swinging pusher 10 to the bender support 36, which allows determining the degree of inclination that the swinging pusher 10 will adopt by the pusher actuator action 12.
    The second portion 36b of the bender support 36 has a lower edge in which a support plate 55 is fixed, which is cantilevered under the first part 12a of the pusher actuator 12. Screws 71 are inserted in holes formed in the support plate 55 and screwed into holes formed in said lower edge of the second portion 36b of the bender support 36.
    5
    10
    fifteen
    twenty
    25
    30
    In said third portion 36c of the bender support 36, said elongated hole 35 is formed in which the second hinge element 15 is fixed, as described above.
    Figs. 16 to 19 show successive phases of the combined operation of the column bender device 48 and the flange bender device 41 to form the corner column CE of the box C, wherein the flange trigger actuator 45 and the column trigger actuator 52 move the flange bender trigger 43 and the column bender trigger 50, respectively, in opposite directions of rotation from their respective waiting positions to their respective pressure positions and from their respective pressure positions back to their respective waiting positions .
    In addition, the column trigger actuator 52 is a multi-position pneumatic cylinder that gives the column bender trigger 50 an intermediate position between the waiting position and the pressure position. In order to bend the flange P and the second column panel CE2 in a suitable order and avoiding interference between the flange bender trigger 43 and the column bender trigger 50, the flange trigger actuator 45 and the trigger actuator of column 52 are controlled to perform the following steps:
    First, the pusher actuator 12 maintains the tilting pusher 10 in a position parallel to the first and third directions X, Z while the flange trigger actuator 45 and the column trigger actuator 52 maintain the flange bender trigger 43 and the column bender trigger 50 in its waiting positions until the short side side walls C2 and the long side side walls C3 of the box C have been lifted by several of the elements of the corner group in cooperation with the male , and then the short-sided side walls C2 are tilted slightly towards the inside of the case C by an activation of the pusher actuator 12 of the corner bending and gluing device 90 while the flange bending trigger 43 and the bending trigger of column 50 remain in their waiting positions (Fig. 16).
    Next, the column trigger actuator 52 is activated to perform a first extension stroke that moves the column bender trigger 50 from its waiting position to its intermediate position (Fig. 17), thereby bringing the second column panel CE2 is also folded to an intermediate position that allows the subsequent folding of the flange P.
    Then the flange trigger actuator 45 is activated to carry out its extension stroke that moves the flange trigger trigger 43 from its standby position to
    5
    10
    fifteen
    twenty
    25
    30
    its pressure position (Fig. 18), whereby the flange P is bent to its operative position while the second column panel CE2 is maintained in its intermediate position.
    Then, the flange trigger actuator 45 is activated to perform its retraction stroke that moves the flange trigger trigger 43 from its pressure position back to its waiting position and the column trigger actuator 52 is activated to effect a second extension stroke that moves the column bender trigger 50 from its intermediate position to its pressure position (Fig. 19), whereby the second column panel CE2 is bent to its operative position and pressed against the flange P.
    Finally, the column trigger actuator 52 is activated to sequentially perform first and second retraction strokes that move the column bender trigger 50 from its pressure position directly to its waiting position, thereby returning to the initial position shown in Fig. 16.
    The possibilities of regulation of several elements of the column bender device 48 and of the flange bender device 41 allow to precisely adjust the combined positions and movements of both to form the corner column CE of the box C in an efficient manner and without deformations or crushing occur in the C box.
    Figs. 20 and 21 show an inert bender 80 suitable for use both in the corner group of the first embodiment described above in relation to Figs. 1 to 6 as in the corner group of the second embodiment described above in relation to Figs. 7 to 15. The inert bender 80 has a curved upper bending surface 80a and a lateral support surface 80b in a plane parallel to the first and third directions X, Z and is fixed to a structural element of the mold, so that the inert bender 80 remains in a stationary position during operation of the box forming machine. Alternatively, upper bending surface 80a could be inclined instead of curved.
    The inert bender 80 is fixed to the structural element of the mold (not shown in Figs. 20 and 21) by means of a clamp 79 and an angled part 81, which incorporate a linear guiding device and a guiding locking and unlocking device linear by means of which the position of the inert bender 80 is adjustable in the first, second and third directions X, Y, Z relative to the mold.
    5
    10
    fifteen
    twenty
    25
    The clamp 79 has a passage 79a parallel to the first direction X, which is sized to slidably receive the structural element of the mold (not shown), which is in the form of a tube or a bar of constant cross section. The clamp 79 also has a through hole in which a locking screw 88 is screwed which, when tightened, penetrates inside the passage 79a blocking the clamp 70 in a desired position in the first direction X on the structural element of the mold.
    The angled piece 81 has first and second branches 81a, 81b that extend in the second and third directions Y, Z, respectively. The first branch 81a has a first longitudinal channel 84 formed parallel to the second direction Y in which parallel edges of the clamp 79 slide. The second branch 81b has a second longitudinal channel 85 formed parallel to the third direction Z in which they slide parallel edges of the inert bender 80.
    The first branch 81a of the piece at angle 81 also has one or more first elongated holes 82 parallel to the second direction Y. One or more first screws 86 are inserted in the one or more first elongated holes 82 and screwed into one or more corresponding holes formed in the clamp 79. The second branch 81b of the piece at angle 81 also has one or more second elongated holes 83 parallel to the third direction Z. One or more second screws 87 are inserted in the one or more second elongated holes 83 and screwed into one or more corresponding holes formed in the inert bender 80.
    The passage 79a of the clamp 79 and the first and second longitudinal channels 84, 85 of the angled part 81 constitute said linear guidance device of the inert bender 80. The locking screw 88 of the clamp 79, the first and second holes elongated 82, 83 and the corresponding first and second screws 86, 87 constitute said linear guide locking and unlocking device of the inert bender 80.
    权利要求:
    Claims (23)
    [1]
    5
    10
    fifteen
    twenty
    25
    30
    1. - Corner group of a laminating material box forming machine, wherein said forming machine comprises a plurality of said corner groups contributing to define a mold having a mouth in a plane parallel to first and second directions (X , Y) perpendicular to each other, and a male endowed with a movement of move in a third direction (Z) perpendicular to the plane of said mouth to form boxes from the bending and gluing of punched plates made of a semi-rigid sheet material, where one or more of said corner groups comprise a corner bending and gluing device (90) comprising:
    a tilting pusher (10) that swings around a swinging axis of swingarm (11) parallel to said first direction (X) supported on a support member (16) constituting a structural element of said mold; Y
    a pusher actuator (12) having first and second parts (12a, 12b) provided with relative movement, wherein said first part (12a) is connected by an articulation axis (13) parallel to the first direction (X) to said support member (16) and said second part (12b) is connected by an articulation shaft (56) parallel to the first direction (X) to said tilting pusher (10);
    characterized by also understanding:
    a linear guiding device and a linear guiding locking and unlocking device by means of which a position of said tilting pivot axis (11) is adjustable in said third direction (Z) with respect to the tilting pusher (10) and the member support (16).
    [2]
    2. - Corner group according to claim 1, wherein the swing axis of swingarm (11) articulates in a articulated manner first and second hinge elements (14, 15), wherein said first hinge element (14) is connected to the tilting pusher (10) by first elements of said linear guidance device and by first elements of said linear guidance locking and unlocking device and said second hinge element (15) is connected to the support member (16) for a few seconds elements of the linear guidance device and for a few seconds elements of the linear guidance locking and unlocking device.
    [3]
    3. - Corner group according to claim 2, wherein said first elements of the linear guiding device comprise a projection (17) protruding from the tilting pusher (10) and sliding in a longitudinal channel (18) parallel to the third direction (Z) formed in said first hinge element (14), and said first elements of the
    5
    10
    fifteen
    twenty
    25
    30
    linear guide locking and unlocking device comprises a first elongated hole (19) parallel to the third direction (Z) formed in the first hinge element (14) and a first screw (20) inserted in said first elongated hole (19) and screwed into a hole (21) formed in the rocker pusher (10).
    [4]
    4. - Corner group according to claim 2 or 3, wherein said second elements of the linear guiding device comprise a projection (21) protruding from said second hinge element (15) and sliding in a longitudinal groove (22) parallel to the third direction (Z) formed in a shaft support (23) fixed in turn to the mold, and said second elements of the linear guidance locking and unlocking device comprise a second elongated hole (22) parallel to the third direction (Z) formed in said shaft support (23), and a second screw (24) inserted in said second elongated hole (22) and screwed in a hole (25) formed in the second hinge element (15).
    [5]
    5. - Corner group according to claim 2, wherein said first elements of the linear guidance device comprise a longitudinal channel (26) parallel to the third direction (Z) formed in the tilting pusher (10) in which a part slides projection of said first hinge element (14), and said first elements of the linear guide locking and unlocking device comprise a first elongated hole (27) parallel to the third direction (Z) formed in the first hinge element (14) and a first screw (28) inserted into said first elongated hole (27) and screwed into a hole (29) formed in the tilting pusher (10).
    [6]
    6. - Corner group according to claim 2 or 5, wherein the swing axis of swingarm (11) is inserted by means of bearings (30) in a hole (31) formed in a shaft support (32) fixed to said first hinge element (14) by means of screws (33), and said second hinge element (15) is constituted by a thickened region of the swing axis of swingarm (11) external to said hole (31).
    [7]
    7. - Corner group according to claim 6, wherein said second elements of the linear guidance device comprise a protruding portion defined between two parallel planes (34) formed in the second hinge element (15) and sliding in an elongated hole (35) parallel to the third direction (Z) formed in a bender support (36) fixed to the support member (16), and said second elements of the linear guide locking and unlocking device comprise a nut (37) screwed into a threaded end (38) of the swingarm pivot shaft (11) inserted through said elongated hole (35).
    5
    10
    fifteen
    twenty
    25
    30
    [8]
    8. - Corner group according to claim 6, wherein said screws (33) are inserted through elongated holes (39) parallel to said second direction (Y) formed in the first hinge element (14) and screwed into holes formed in said shaft support (32).
    [9]
    9. - Corner group according to any one of the preceding claims, further comprising a flange bending device (41) having a flange trigger support (42), a flange bending trigger (43) connected to said trigger support of flange (42) by a pivot shaft (44) parallel to the third direction (Z), and a trigger actuator of flange (45) having first and second parts (45a, 45b) provided with relative movement, in wherein said first part (45a) is connected to the flange trigger support (42) by a first articulation axis (46) parallel to the third direction (Z) and said second part (45b) is connected to an appendix of the bender trigger of flange (43) by a second axis of articulation (47) parallel to the third direction (Z).
    [10]
    10. - Corner group according to claim 9, further comprising a column bending device (48) having a column trigger support (49) fixed to a structural element of the mold, a column bending trigger (50) fixed to a pivot axis (51) parallel to the third direction (Z) pivotally supported on said column trigger support (49), and a column trigger actuator (52) having first and second parts (52a, 52b) provided with relative movement, wherein said first part (52a) is connected to the column trigger support (49) by a first articulation axis (53) parallel to the third direction (Z) and said second part (52b) it is connected to a crank (54) fixed to said pivot axis (51) by a second articulation axis (94) parallel to the third direction (Z).
    [11]
    11. - Corner group according to claim 10, wherein said flange trigger actuator (45) and said column trigger actuator (52) move the flange bender trigger (43) and the column bender trigger (50) , respectively, in opposite directions of rotation from respective waiting positions to respective pressure positions.
    [12]
    12. - Corner group according to claim 10 or 11, wherein said column trigger actuator (52) is a multi-position pneumatic cylinder that provides the column bender trigger (50) with an intermediate position between said waiting position and said position of pressure
    5
    10
    fifteen
    twenty
    25
    30
    [13]
    13. - Corner group according to claim 9, wherein the flange trigger support (42) is fixed to the rocker pusher (10).
    [14]
    14. - Corner group according to claim 13, wherein the flange trigger support (42) is fixed to an intermediate piece (57) which in turn is fixed to a fork body (62) fixed to the tilting pusher ( 10), wherein said fork body (62) supports said first articulation shaft (46) that connects the second part (12b) of the pusher actuator (12) to the tilting pusher (10), wherein said intermediate piece (57 ) comprises first elongated holes (58) parallel to the first direction (X) and a second elongated holes (59) parallel to the second direction (Y), and where first screws (60) are inserted into said first elongated holes (58) and screwed in holes (63) formed in said fork body (62) and a few second screws (61) are inserted in said second elongated holes (59) and screwed in holes (64) formed in the support of trigger trigger (42).
    [15]
    15. - Corner group according to claim 9, wherein said first articulation axis (46) is supported on a fork (97) fixed to the flange trigger support (42) by at least one screw (96) inserted through of a hole formed in said fork (97) and through an elongated hole (95) parallel to the second direction (Y) formed in the flange trigger support (42) and secured by a nut (98).
    [16]
    16. - Corner group according to claim 7, wherein said bender support (36) has a first portion (36a) extending in the first direction (X), and said first portion (36a) has two parallel edges that they slide in a longitudinal channel (65) parallel to the first direction (X) formed in the support member (16) and at least one elongated hole (67) parallel to the first direction (X), and where at least one screw (66) is inserted into said elongated hole (67) and screwed into a hole (68) formed in the support member (16).
    [17]
    17. - Corner group according to claim 16, wherein the bender support (36) also has a second portion (36b) extending in the second direction (Y) and a third portion (36c) extending in the third direction (Z), in said second portion (36b) an elongated hole (69) is formed parallel to the second direction (Y) in which the articulation axis (13) is inserted, the articulation axis (13) has a threaded end (13a) in which a nut (70) is screwed, and in said third portion (36c) said elongated hole (35) is formed in which the second hinge element (15) is fixed.
    5
    10
    fifteen
    twenty
    25
    30
    [18]
    18. - Corner group according to claim 17, further comprising a support plate (55) fixed to the second portion (36b) of the bender support (36) by means of screws (71) and extending cantilevered below said first part (12a) of the pusher actuator (12).
    [19]
    19. - Corner group according to claim 10, wherein the column trigger support
    (49) of said column bender device (48) is fixed to said structural element of the mold by a connection piece (72) having an elongated hole (73) through which fixing screws are inserted.
    [20]
    20. - Corner group according to claim 10, wherein the column bender trigger
    (50) comprises a first trigger piece (74) having an end fixed to the pivot axis
    (51) and a second trigger piece (75) having a free end defining a pressure head (75a), wherein said first and second trigger parts (74, 75) are slidably coupled to each other by respective conjugate glutton elements (76), wherein the first trigger piece (74) has an elongated hole (77) formed parallel to said glutton elements (76), and a screw (78) is inserted through said elongated hole (77) and screwed into a hole formed in the second trigger piece (75).
    [21]
    21. - Corner group according to any one of the preceding claims, further comprising an inert bender (80) having a curved or inclined upper bending surface (80a) and a lateral support surface (80b) in a plane parallel to the first and third directions (X, Z), wherein said an inert bender (80) is fixed to a structural element of the mold by a linear guiding device and a linear guiding locking and unlocking device by means of which a bender position Inert (80) is adjustable in the first, second and third directions (X, Y, Z) with respect to the mold.
    [22]
    22. - Corner group according to claim 21, wherein the inert bender (80) is fixed to a clamp (79) by an angled piece (81) having first and second branches (81a, 81b), in wherein said clamp (79) has a passage (79a) parallel to the first direction (X) sized to slidably receive said structural element of the mold, said first branch (81a) of the angled part (81) has a first longitudinal channel (84) parallel to the second direction (Y) in which said clamp (79) slides, and said second branch (81b) of the angled part (81) has a second longitudinal channel (85) formed parallel to the third direction (Z) in which the inert bender (80) slides.
    [23]
    23.- Corner group according to claim 22, wherein the clamp (79) has a through hole in which a locking screw (88) is screwed which, when tightened, penetrates into said passage (79a), said first branch (81a) of the angled piece (81) has at least a first elongated hole (82) parallel to the second direction (Y) and a first screw (86) is inserted into said first elongated hole (82) and screwed into a hole formed in the clamp (79), and said second branch (81b) of the angled part (81) has at least a second elongated hole (83) parallel to the third direction (Z) and a second screw ( 87) is inserted into said second elongated hole (83) and screwed into a hole formed in the inert bender (80).
    类似技术:
    公开号 | 公开日 | 专利标题
    ES2593823B1|2017-09-19|Machine forming bases or covers of prismatic boxes by folding and joining of die-cut plates
    ES2267641T3|2007-03-16|CONTAINER OF TRANSPORT.
    ES2388576T3|2012-10-16|Pallet container with side walls and lid
    RU2009101027A|2010-07-27|BOX WITH HINGED COVER FOR CIGARETTES
    ES1231506Y1|2020-06-05|MALE FOR BOX FORMING MACHINE, AND SUCH MACHINE
    ES2646330B1|2018-11-13|CORNER GROUP OF A LAMINARY MATERIAL FORMER MACHINE
    ES2536941B1|2016-03-09|CONFORMING ASSEMBLY FOR A SHEET MATERIAL BOX MACHINE
    ES2564428B1|2016-12-28|PLANTING DEVICE FOR CORNER SHEETS FOR LAMINAR MATERIAL BOX FORMING MACHINE
    ES2651116B1|2018-10-30|SOLAPAS FOLDING DEVICE FOR LAMINARY MATERIAL BOX FORMING MACHINE
    ES2380523B1|2013-03-25|REINFORCING BINDING DEVICE FOR REINFORCEMENT FOR CARTON BOX FORMER MACHINE.
    ES2536581A2|2015-05-26|Mold for conforming and assembling carton boxes |
    ES1239094U|2019-12-27|BOX FORMER MACHINE |
    ES1179010U|2017-03-16|Corner group for the bending and sticking of box reinforcement columns for forming machines of laminar material boxes from flat planks |
    ES2785773B2|2021-02-15|MACHINE FORMING POLYEDRIC BOXES WITH INCLINED WALLS FROM FLAT SHEETS OF LAMINAR MATERIAL
    WO2006084933A2|2006-08-17|Folding device for forming corners in cardboard boxes
    ES2432097B1|2014-09-11|Cardboard box flap folding device
    ES2749298B2|2021-12-15|METHOD OF CONFORMATION OF BOXES AND MACHINE FOR THEIR IMPLEMENTATION
    ES2678670B1|2019-05-13|MOLD FOR MACHINE FORMADORA OF BOXES BY BENDING AND STICKING OF PLATES OF LAMINAR MATERIAL AND METHOD OF FORMATION OF BOXES BY BENDING AND STICKING OF PLATES OF MATERIAL LAMINAR
    ES2809186T3|2021-03-03|Packaging comprising a case and a drawer, a drawer for said packaging, and a plate for said drawer
    ES1192858U|2017-10-06|Mold for machine for forming boxes of sheet material from flat sheets |
    ES2540456B1|2016-04-20|Stop device for folding flaps on sheets of semi-rigid sheet material
    ES2385796A1|2012-07-31|Device of format for machinery for conforming carton or similar boxes. |
    ES2798000B2|2021-04-20|MALE FOR BOX FORMING MACHINE, AND MACHINE AND METHOD FOR BOX FORMING
    ES1060860U|2005-11-16|Pressing device tabs or flaps of cardboard boxes. |
    ES2318974B1|2010-02-05|MALE FOR CARTON FOLDING MACHINE.
    同族专利:
    公开号 | 公开日
    ES2646330B1|2018-11-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    ES2024805A6|1990-05-24|1992-03-01|Boix Maquinaria Sa|Corner laps folder for cardboard trays|
    ES2265274A1|2005-05-11|2007-02-01|Kappa Iberoamericana, S.A.|Forming device for cardboard-box-forming machines|
    ES1060858U|2005-07-29|2005-11-16|Telesforo Gonzalez Olmos|Corner forming member forming machine cardboard boxes. |
    EP2353854A1|2010-01-27|2011-08-10|Telesforo González Olmos|Corner shaping assembly for a carton box forming machine|
    ES2439142A1|2012-07-18|2014-01-21|Telésforo GONZÁLEZ OLMOS|Device for the bending and bearing of corners of conical carton boxes |
    ES2536941A1|2013-11-29|2015-05-29|Telesforo Gonzalez Olmos|Conformer set for a machine box forming machine |
    ES2564428A1|2014-09-22|2016-03-22|Telesforo Gonzalez Olmos|Folding device for corner appliances for laminar material box machine |ES2785773A1|2019-04-03|2020-10-07|Telesforo Gonzalez Maqu Slu|MACHINE FORMING POLYEDRIC BOXES WITH INCLINED WALLS FROM FLAT SHEETS OF LAMINAR MATERIAL |
    法律状态:
    2016-11-22| PC2A| Transfer of patent|Owner name: TELESFORO GONZALEZ MAQUINARIA SLU Effective date: 20161116 |
    2017-01-24| GD2A| Contractual licences|Effective date: 20170124 |
    2018-11-13| FG2A| Definitive protection|Ref document number: 2646330 Country of ref document: ES Kind code of ref document: B1 Effective date: 20181113 |
    2019-07-01| GD2A| Contractual licences|Effective date: 20190701 |
    2021-06-15| GD2A| Contractual licences|Effective date: 20210615 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201630787A|ES2646330B1|2016-06-09|2016-06-09|CORNER GROUP OF A LAMINARY MATERIAL FORMER MACHINE|ES201630787A| ES2646330B1|2016-06-09|2016-06-09|CORNER GROUP OF A LAMINARY MATERIAL FORMER MACHINE|
    [返回顶部]