• 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:
    Arrangement for packing preforms (12) in a line in an exit conveyor of a device (10) for straightening and aligning preforms, in particular preforms (12) made of thermoplastic material intended to be shaped into a final container by a station of forming. The output conveyor is a brush conveyor (22) and in that a gas conveyor (56) is arranged directly upstream of the brush conveyor (22), blowing jets (68) of pressurized gas to accelerate the delivery. sliding of the preforms (12) towards the brush conveyor (22).
    公开号:FR3057860A1
    申请号:FR1660173
    申请日:2016-10-20
    公开日:2018-04-27
    发明作者:Denis DOUDEMENT;Anthony DEBRIS;Frederic WILLIG;Eric MAZO
    申请人:Sidel Participations SAS;
    IPC主号:
    专利说明:

    TECHNICAL FIELD OF THE INVENTION
    The invention relates to an arrangement for compacting preforms in line in an output conveyor of a device for straightening and aligning preforms, in particular preforms of thermoplastic material intended to be shaped into final container by a forming station.
    TECHNICAL BACKGROUND OF THE INVENTION
    The arrangement is intended to be implemented in an installation for manufacturing containers of thermoplastic material and in particular of polyethylene terephthalate (PET) by forming, in particular by blow molding or stretch blow molding, of preforms. Such an installation makes it possible to produce containers in very large series at very high rates, for example greater than 85,000 bottles per hour.
    According to a well known technique, such containers are produced in two main stages. In a first step, injection molding of a PET preform is carried out. This preform comprises a substantially tubular body which is closed at one of its axial ends, the opposite end being open by means of a neck. The neck has, from this injection molding operation, the final shape of the neck of the container. Generally, the neck of the container has a thread.
    The preform generally has an annular support face which projects radially outwards relative to the rest of the body and which is oriented axially towards the closed end of the body. Such a support face is for example carried by an annular support flange which extends radially projecting outwards relative to the rest of the preform and which is arranged at the base of the neck.
    There are installations in which the preforms, once injected, are directly transmitted to the forming station, each preform being transported individually.
    However, in many cases, the preforms are manufactured by injection in a first location and are blow molded to the final shape of the container in a second location on a specific manufacturing facility. Such technology allows the blow molding operation to be carried out as close as possible to the bottling location, the injection operation being able to be carried out at any location. Indeed, it is relatively easy and inexpensive to transport preforms of reduced size, while transporting containers after blowing has the disadvantage of being economically unprofitable because of their very large volume.
    In the case where the injection station and the forming manufacturing installation are two completely independent machines, the preforms are generally delivered in bulk. The blowing station therefore has a preform supply device which is equipped with a device for aligning in a row and straightening the preforms. The present invention relates to such a device.
    The present invention relates more particularly to a device for aligning and straightening preforms in which the preforms are not indexed in position. Most of the time, the preforms come out in a tight file, each preform being in contact with the next preform. This ensures efficient supply to the next processing stations.
    However, it happens that the preforms of the outgoing queue are not in contact with each other. A hole is then created which is likely to disturb the supply of the following stations. The output of the manufacturing facility is therefore likely to decrease.
    BRIEF SUMMARY OF THE INVENTION
    The present invention relates to an arrangement of the type described above, characterized in that the outlet conveyor is a brush conveyor and in that a gas conveyor is arranged directly upstream of the brush conveyor, blowing jets of gas under pressure to accelerate the sliding of the preforms towards the brush conveyor.
    According to other characteristics of the invention:
    the straightening and alignment device comprises a centrifuge bowl in which the straightened and aligned preforms are received suspended in a gap delimited between the periphery of a turntable and an external railing and along which they move freely, the preforms exiting through an exit passage made in the railing;
    - the gas conveyor comprises rectilinear rails arranged in the extension of the outlet passage and up to the brush conveyor between which the preforms are received slippery, and it comprises a ramp of vents each of which projects a jet of gas towards preforms sliding surfaces to push them towards the brush conveyor;
    - The ramp of vents extends at least in part over a final portion in an arc of the path of the preforms around the plate to push the preforms towards the outlet passage;
    the spacing of the rectilinear rails of the gas conveyor is capable of being adjusted according to the size of the preforms;
    - the rectilinear rails are spaced symmetrically with respect to a median vertical axis;
    - The width of the gap between the periphery of the turntable and the railing can be adjusted by changing the diameter of the turntable;
    - The arrangement comprises bifurcation rails which connect the interstice of the alignment and straightening device with the rectilinear rails through the outlet passage, the bifurcation rails being curved according to a curvature opposite to that of said final portion;
    - The bifurcation rails can be replaced to adapt their radius of curvature and their spacing depending on the size of the outgoing preforms.
    BRIEF DESCRIPTION OF THE FIGURES
    Other characteristics and advantages of the invention will appear during the reading of the detailed description which will follow for the understanding of which reference will be made to the appended drawings in which:
    - Figure 1 is a perspective view which schematically shows a device for aligning and straightening preforms comprising a centrifuge bowl comprising a brush conveyor;
    - Figure 2 is a front view showing a preform used with the device of Figure 1, the axis of the preform here being oriented vertically;
    - Figure 3 is a top view which shows the centrifuge bowl of Figure 1;
    - Figure 4 is a radial sectional view of an alignment sector of the centrifuge bowl of Figure 1 which shows the peripheral guardrail and the turntable of the centrifuge bowl as well as an aligned preform;
    - Figure 5 is a perspective view which shows a weir of the device of Figure 1;
    - Figure 6 is a top view which shows part of the alignment sector of the centrifuge bowl, as well as the different stages of the path of a preform poured into the centrifuge bowl;
    - Figure 7 is a radial sectional view of a straightening sector of the centrifuge bowl of Figure 1 which shows the peripheral guardrail and the turntable of the centrifuge bowl as well as an aligned and straightened preform;
    - Figure 8 is a schematic view in a radial direction which shows a preform aligned along the railing in the alignment sector of the centrifuge bowl of Figure 1;
    - Figure 9 is a top view of Figure 8;
    - Figure 10 is a view similar to that of Figure 8 which shows the preform of Figure 8 being straightened at the start of the straightening sector of the centrifuge bowl of Figure 1;
    - Figure 11 is a top view of Figure 10;
    - Figure 12 is a view similar to that of Figure 10 which shows the preform of Figure 10 straightened in the straightening sector of the centrifuge bowl of Figure 1;
    - Figure 13 is a top view of Figure 12;
    - Figure 14 is a top view showing the outlet of the centrifuge bowl, the guide rails of a gas conveyor and the inlet of the brush conveyor;
    - Figure 15 is a top view which shows the brush conveyor coupled to the transfer wheel;
    - Figure 16 is a top view which shows the centrifuge bowl, the gas conveyor and the brush conveyor;
    - Figure 17 is the centrifuge bowl connected to a brush conveyor via the gas conveyor which is more detailed in an exploded view;
    - Figure 18 is a bottom view of the gas conveyor;
    - Figure 19 is a radial sectional view of Figure 16 of the gas conveyor with the positioning of the preforms;
    DETAILED DESCRIPTION OF THE FIGURES
    In the following description, elements having an identical structure or analogous functions will be designated by the same references.
    In the following description, the following local orientations will be adopted, without limitation, for each preform present in the centrifuge bowl of the device:
    - radial R directed from the inside to the outside from the axis of rotation of the turntable;
    - tangential T which is orthogonal to the radial direction R and which extends in the plane of the turntable, directed from upstream to downstream in the direction of rotation of the turntable;
    - vertical V directed from bottom to top in the opposite direction of the Earth's gravity.
    FIG. 1 shows a device 10 for aligning in a line and for straightening preforms 12 intended to form part of an installation (not shown) for manufacturing a container made of thermoplastic material by forming, in particular by blowing or drawing -blowing.
    An example of a preform 12 intended for use with the device 10 is illustrated in FIG. 2. Such a preform 12 is made of thermoplastic material, here made of PET. It is conventionally obtained by injection molding. It has a substantially axisymmetric shape around a main axis A shown vertically in FIG. 2.
    It comprises a body 14 in the form of an elongated tube along the main axis A having a closed axial end and which has at its opposite end, shown above in FIG. 2, a neck 16 open axially.
    The preform 12 also has an annular support face 18, also called a flange, which is oriented axially towards the closed end of the preform 12, which projects radially with respect to the rest of the body 14, and which is arranged above d a center G of gravity of the preform 12. The annular term means that the support face goes around the preform 12 either continuously or discontinuously. In the latter case, the annular face is for example formed of disjoint segments which go around the preform 12 which are nevertheless close enough that the preform 12 can be supported between two diametrically opposed supports whatever the position of the preform 12 around its main axis.
    In the example shown, the base of the neck 16, at the junction with the body 14, has a collar which extends radially projecting from the rest of the preform 12. The lower face of the collar thus forms said face 18 of support.
    As a variant, the collar can be arranged elsewhere than at the base of the neck, for example at the level of the rim.
    According to another variant, the support face is for example formed by a lower face of a thread of the neck.
    According to yet another variant, the support face is attached to the preform 12, for example by means of a plug.
    The external diameter D1 of the support face 18, in the present case of the flange, is thus greater than the maximum external diameter D2 of the body 14. In the example shown in FIG. 2, the closed end section of the body 14 here has a minimum external diameter D3.
    The neck 16 has its final shape, while the body 14 is intended to be stretched during a subsequent forming operation to form the body of the finished container. To this end, the installation is equipped with a heating station which is arranged downstream of the alignment and straightening device 10.
    In addition, the weight of the body 14 of the preforms 12 used is greater than the weight of the neck 16, including that of the collar. Thus, the center G of gravity of the preform 12 is located under the support face 18 with reference to FIG. 2. Thus, a preform 12 supported by its support face 18 by resting on two diametrically opposite supports will naturally orient itself by gravity collar 1 6 above.
    The example shown in Figure 2 is non-limiting. It will be understood that the device 10 and the associated method are intended to be applied to any type of preform 12 having a support face 18 projecting radially from the rest of the body 14, and having a center of gravity offset axially towards the body by relative to said support face 18.
    Returning to FIG. 1, the device 10 mainly comprises a bowl 20 of centrifuge as well as a conveyor 22 for output of the preforms 12 aligned and straightened.
    The centrifuge bowl 20 comprises a horizontal circular plate 24 rotating around a central vertical axis B. The turntable 24 thus has a circular outer edge 25 shown in FIG. 4. The upper face of the turntable 24 delimits the interior of the bowl 20 of the centrifuge vertically downwards. Thus, the plate 24 forms the bottom of the bowl 20.
    The turntable 24 has an external diameter much greater than the dimensions of the preforms 12.
    The turntable 24 can be rotated at a constant speed, here in a clockwise view from above, for example by a motor (not shown) which is arranged under the turntable 24. The speed of rotation is for example controlled so that the outer edge 25 of the turntable 24 moves between 2 and 3 m / s.
    However, the speed of rotation of the turntable 24 can be regulated as a function of the quantity of preforms accumulated in the outlet conveyor. This quantity of preforms is for example detected by sensors located in the outlet conveyor. Thus, if the level of preforms in the outlet conveyor is not sufficient to supply a unit located after the outlet conveyor, for example a preform heating furnace, then the speed of rotation of the plate 24 is increased, thus that the preform flow supplying the turntable 24 via the weir 30.
    The turntable 24 is here carried by a support table 26. The support table 26 has feet which are advantageously adjustable in height to allow the attitude of the turntable 24 to be adjusted.
    The centrifuge bowl 20 is delimited radially outwards by a fixed peripheral railing 28 which is here fixed to the support table 26. This guardrail 28 notably has the primary function of retaining the preforms 12 projected outward by the centrifugal force produced by the rotation of the turntable 24, and the second function of guiding the movement of the preforms 12 to an outlet passage 32 from bowl 20.
    The preforms 12 are intended to be poured in bulk on the turntable 24 via a fixed weir 30. The weir 30 is here arranged in the center of the turntable 24. The weir 30 is designed to pour the preforms 12 in bulk, radially in the direction of a portion 28A for receiving the guardrail 28. The weir 30 is here in the form of a slide supplied with preforms 12 from the top by l 'Intermediate of a lifting belt (not shown). The top of the weir 30 nevertheless has a relatively small height, for example about 40 cm above the plate 24.
    As illustrated in FIG. 3, for the purposes of the description, the bowl will be divided into three fixed zones with respect to the table 26, each formed by an angular sector extending around the axis B of the turntable 24 .
    ίο
    A first angular sector 20A said to align the preforms 12 extends opposite the outlet of the weir 30. This angular sector 20A for alignment includes the portion 28A for receiving the guardrail 28.
    A second angular sector 20B for straightening the aligned preforms 12 is arranged directly downstream of the first angular alignment sector 20A. Without limitation, it extends here generally over 180 °.
    A third angular sector 20C for sorting incorrectly aligned preforms 12 is arranged directly downstream of the second angular straightening sector 20B and directly upstream of the first angular alignment sector 20A. At the downstream end of this sorting sector 20C, the outlet passage 32 for the preforms 12 is open in the guardrail 28 to allow the preforms 12 to be correctly aligned and straightened towards the outlet conveyor 22.
    The name of each of these sectors 20A, 20B, 20C provides an indication of their function. It will be understood subsequently that non-aligned preforms 12 at the level of the first alignment sector 20A can nevertheless be aligned and straightened at the level of the second angular sector 20B depending on the circumstances.
    Over the entire periphery of the first angular alignment sector 20A, an operating clearance is reserved between the guardrail 28 and the turntable 24. This play allows the rotation of the turntable 24, but it is however sufficiently small to allow the guardrail 28 to retain all of the preform 12 inside the bowl 20. This play is thus less than the minimum diameter D3 of the body 14 of the preform 12.
    As shown in FIG. 4, on this alignment sector 20A, the guardrail 28 extends vertically above the turntable 24, so that the outer edge 25 of the turntable 24 is arranged outside the bowl 20 of centrifuge.
    During the operation of the device 10, as shown in FIGS. 5 and 6, during a first pouring step, the preforms 12 poured in bulk by the weir 30 are projected radially against a portion 28A for receiving the guardrail 28 under the combined effect of their radial sliding speed at the outlet of the weir 30 and the centrifugal force produced by the rotation of the turntable 24. At the same time, the turntable 24 also begins to drive in its rotation the preforms 12 tangentially downstream.
    During a second alignment step, the preforms 12 are held inside the bowl 20 by the guardrail 28, then, after one or more rebounds against the guardrail 28, the preforms 12 gradually lose speed in the direction radial. They are then constantly held radially against the guardrail by centrifugal force. The path followed by the same preform 12 is shown in FIG. 6 from its arrival via the weir 30 to its stable position against the guardrail 28. The preforms 12 are then driven in purely tangential movement in a clockwise direction by the plate. 24 turning along the railing 28.
    In this configuration, the preforms 12 naturally occupy the most stable position in which their main axis A is oriented in a tangent direction relative to the turntable 24.
    Most of the preforms 12 present in the angular sector 20A for aligning the bowl 20 are thus aligned tangentially against the guardrail 28, their main axis A being oriented substantially tangentially to their direction of movement. The tangential difference between two successive aligned preforms 12 is random because the turntable 24 is perfectly flat and does not have indexing notches of the preforms 12. The preforms 12 can thus be in contact at their ends under the effect of the centrifugal force which forces the preforms 12 to slide relative to one another. The preforms 12 thus optimally occupy the entire peripheral length of the bowl 20.
    At this stage, the preforms 12 are randomly oriented neck upstream or downstream without impact for the rest of the process. The preforms 12 thus aligned continue their peripheral displacement in the straightening sector 20B.
    The fact that the preforms 12 are held on the turntable 24 makes it possible to keep them pressed radially against the guardrail 28. Thus, the preforms 12 are guided in a stable manner by the guardrail 28 during their movement around the bowl 20.
    As shown in FIG. 7, on the second angular sector 20B for straightening the bowl 20 of the centrifuge, the bowl 20 has a peripheral gap 34 formed by the radial spacing of the guardrail 28 relative to the outer edge 25 of the turntable 24. The radial width of the gap 34 is between the maximum diameter D2 of the body 14 and the diameter D1 of the support face 18, in the present case of the flange. This interstice 34 extends to the passage 32 for leaving the preforms 12.
    At least all along the second straightening sector 20B, the guardrail 28 has a fixed support rail 36 for the support face 18. The fixed rail 36 extends radially inwards at the same level as the upper face of the turntable 24 to delimit the gap 34 towards the outside. The fixed rail 36 extends here to the outlet passage 32.
    Thus, the preforms 12 are capable of being supported by their support face 18, in this case by their flange, which rests at two diametrically opposite points on the horizontal upper face of the turntable 24, on the one hand, and on a horizontal upper face of the fixed rail 36, on the other hand, the body 14 of the preforms 12 being below the level of the plate 24 rotating through said interstice 34. The two support points are aligned radially. The fixed rail 36 supports the preforms 12 stably.
    Thus, during a third straightening step, as shown in FIGS. 8 and 9, the preforms 12 aligned during the second step arrive from the first alignment sector 20A by being aligned in a file along the railing 28, their main axis A tangentially oriented. The aligned preforms 12 are randomly arranged neck 16 upstream or neck 16 downstream without this having any influence on their straightening.
    When the body 14 of each preform 12 arrives above the gap 34, the body 14 begins to fall, as shown in Figures 10 and 11, thereby tilting the preform 12 around a radial axis passing through the points d support of the support face 18, in the present case of the flange, of the preform 12. The tilting continues until the main axis A of the preform 12 is vertical, possibly after some rocking around the 'radial axis. The preform 12 is then supported by its support face 18 resting jointly on the fixed rail 36 and on the turntable 24, as indicated in FIGS. 12 and 13. The preform 12 is thus straightened, neck 16 at the top. A preform 12 thus straightened is guided externally by the fixed rail 36 of the guardrail 28, and it is guided internally by the peripheral edge 25 of the turntable 24.
    The preforms 12 thus straightened are rotated about their main axis by friction against the outer edge 25 of the plate 24. The preforms 12 are thus moved around the bowl 20 in the direction of rotation of the plate 24 rotating by rolling against the railing 28 peripheral.
    The straightened and aligned preforms 12 are thus routed to the third sorting sector 20C in which poorly aligned preforms 12 are redirected directly to the first alignment sector 20A by different sorting means such as disentangling wheels 40, 42 and a deflector 44.
    The sorting means make it possible to actively eject incorrectly aligned preforms 12 towards the angular sector of alignment 20A to allow their direct return into the flow of preforms 12 arriving in bulk through the weir 30. Active adverb means that the means of sorting are able to provide an impulse to non-aligned preforms 12 to quickly return to the first angular sector 20A.
    The incorrectly aligned preforms 12 can be non-aligned preforms 12. A non-aligned preform 12 is a preform 12 lying on the turntable 24 and pressed radially against the necks 16 of the preforms 12 correctly aligned and straightened. These non-aligned preforms 12 thus have at least one part projecting radially towards the center of the turntable 24 relative to the necks 16 of the correctly aligned preforms 12.
    An incorrectly aligned preform 12 can also be a preform 12 fitted into a correctly aligned preform 12 which thus passes among the correctly aligned preforms 12.
    The sorting means are for example formed by wheels 40, 42 with paddles (not shown) said main unraveling wheel which are arranged rotating in the bowl 20, above the plate 24 rotating around a vertical axis.
    The preforms 12 thus aligned, straightened and then sorted come out in file through the outlet passage 32 formed in the guardrail 28 of the bowl 20 of the centrifuge. They are then taken over by an output conveyor 22.
    Due to the ejection of incorrectly positioned preforms 12, the preforms 12 do not leave the straightening and alignment device 10 constantly. Thus, the line of outgoing preforms 12 has holes at the places where preforms 12 have been ejected. However, the processing stations arranged downstream require a regular and constant supply of preforms 12. It is therefore not possible to supply the next processing station directly, for example the heating station. Provision is therefore made for the possibility of temporarily accumulating the preforms 12 in an accumulation queue to allow the continuous and regular supply of the next processing station.
    For this purpose, the outlet conveyor 22 is here a conveyor 22 with brushes. Such a conveyor 22 with brushes is described in detail in the document FR 3.028.254 A1 to which reference will be made.
    As shown in FIG. 14, such a brush conveyor 22 thus comprises straight support rails 46, called support 29 in the cited document, between which the body 14 of the preform 12 is received during and on which rests so sliding the flange 18 of the preform 12. Two endless bands 48, called elements 11 circulating without end in the cited document, carry on their external face a series of brushes 50 which are able to come into contact with the preforms 12 to drive them this by friction. A stretched strand of each strip 48 extends below one of the associated rails 46.
    As long as the movement of the preforms 12 is not blocked downstream, the movement of the endless bands makes it possible to advance the preforms 12 by friction with the brushes. When the preforms 12 arrive at the end of the conveyor 22 with brushes, they are temporarily slowed down or immobilized while waiting to be supported by an indexed gripping member, such as a notch or a clamp of a transfer wheel 52. The preforms 12 accumulated at the end of the conveyor 22 with brushes are then slowed down relative to the speed of the strips 48 of brushes, the brushes 50 bending to slide on their body 14 without creating blocking of the movement of the strips 48. Thus, a portion of the end of the brush conveyor 22 accommodates an accumulation line 54 in which the preforms 12 are packed downstream of the brush conveyor 22.
    In order for the transfer wheel 52 to be optimally supplied, the line 54 for accumulating preforms 12 must constantly have a length greater than a critical threshold, for example greater than 1 meter. The pressure of the following preforms 12 on the last preform 12 makes it possible to push the latter preform 12 into the gripping member of the transfer wheel 52. However, in certain cases, the presence of holes in the line of preforms 12 leaving the alignment and straightening device 10 causes a deficit of preforms 12 in the line 54 for accumulation of preforms 12.
    To allow the accumulation queue 54 to be guaranteed to be sufficiently long without increasing the length of the brush conveyor 22, the invention proposes to arrange a gas conveyor 56 directly upstream of the brush conveyor 22. As will be described in more detail below, such a gas conveyor 56 blows pressurized gas jets, in particular air, onto the preforms 12 to very significantly accelerate their speed of sliding towards the brush conveyor 22. The speed of movement of the preforms 12 in the gas conveyor 56 is increased until it is much greater than the speed of movement of the preforms 12 in the centrifuge bowl 20 and also very much greater than the speed of movement of the preforms 12 in the conveyor 22 with brushes.
    Such a gas conveyor 56 thus makes it possible to fill the holes in the line of outgoing preforms 12 by abrupt acceleration of their movement downstream. The preforms 12 are thus packed against each other in the brush conveyor 22.
    The combined use of the gas conveyor 56 upstream of the brush conveyor 22 also makes it possible to obtain a synergistic effect between these two types of conveyor. In fact, the preforms 12 pushed at high speed towards the conveyor 22 with brushes are advantageously slowed down, gradually and without risk of damage, by friction of their body 14 against the brushes 50 as soon as it enters between the strips 48 of brushes. Each preform 12 is slowed down until its speed of movement is synchronized with the speed of movement of the strips 48 of brushes. In this way, a preform 12 does not risk colliding at high speed with the preform 12 which precedes it.
    As shown in Figure 17, the gas conveyor 56 has straight support rails 58 which are arranged in the extension of the outlet passage 32. The rails 58 thus delimit a rectilinear groove 60 which is connected with the peripheral interstice 34 of the bowl 20 of the centrifuge, on the one hand, and which is extended by the interstice defined between the rails 46 of the conveyor 22 with brushes, somewhere else. The groove 60 thus determines a path which is followed by the preforms 12 sliding freely on the rails 58. The width of the groove 60 is substantially identical to the width of the peripheral gap 34 of the bowl 20 of the centrifuge.
    The gas conveyor 56 comprises at least one ramp 62 of vents which extends along the path of the preforms 12. The ramp 62 comprises an elongated reservoir 64 which extends parallel to the path of the preforms 12. The reservoir 64 is equipped a series of vents 66 which are regularly distributed along the path of the preforms 12. The vents 66 are arranged so as to project a jet 68 of pressurized gas directed downstream and towards the preforms 1 2.
    In the embodiment shown in Figures 17 to 19, the gas conveyor 56 has a single ramp 62 which is arranged above the path of the preforms 12. The vents 66 are formed in the underside of the tank 64 which is arranged at right of the path of the preforms 12, so as to blow jets 68 of gas under pressure on the necks 16 of the preforms 12 flowing in the rails 58.
    In a variant not shown, the gas conveyor comprises two ramps which are arranged transversely on either side of the rails, the vents blowing on the necks from each side of the path.
    The ramp 62 is supplied with pressurized gas by a pipe 70 which is connected to a source (not shown) of pressurized gas. The pipe 70 winds along the tank 64 to which it is connected by a plurality of manifolds 72 distributed over its length. This makes it possible to maintain a uniform pressure in the reservoir 64 despite the presence of the vents 66.
    In the embodiment shown in the figures, the ramp 62 of vents extends along the path of the preforms 12 from an upstream end 62A, located upstream from the outlet passage 32 for the preforms 12, to a downstream end 62B located at the entrance to conveyor 22 with brushes. Thus, the ramp 62 extends at least over a final portion in an arc of a circle of the path of the preforms 12 around the turntable 24.
    More particularly, as can be seen in FIG. 16, the upstream end 62A of the ramp 62 is arranged directly downstream of the second unraveling wheel 42. Indeed, after this detangler wheel 42, the preforms 12 are already aligned and straightened. The arrangement of part of the ramp 62 upstream of the outlet passage 32 thus makes it possible to accelerate the preforms 12 as soon as possible to improve the efficiency of the alignment and straightening device 10.
    In addition, it is common for the manufacturing installation to be able to support several formats of preforms 12, these preforms 12 being processed in batches of the same format. The diameter of the preforms 12, and in particular the maximum diameter of the body 14 and / or the diameter of the flange 18, is likely to vary according to the format of the preforms 12. In order to adapt the different conveyors 22 to the different formats of preform 12, there is provided a mechanism for adjusting the spacing of the rails 58, 46, both on the conveyor 22 with brushes and on the gas conveyor 56.
    To allow the correct distribution of the preforms 12 to the transfer wheel 52, the axis C1 of displacement of the preforms 12 in the conveyors 22 must be identical whatever the format of the preform 12. For this purpose, the two rails 46, 58 of the conveyors 22, 56 are provided to be spread symmetrically on either side of a vertical median plane to adjust their distance, as indicated by the arrows F1.
    Furthermore, it is also planned to adjust the width of the gap 34 of the bowl 20 of the centrifuge according to the format. To this end, provision is made to add or remove ring segments at the periphery of the turntable 24 in order to adjust the diameter. The guardrail 28 and the associated fixed rail 36 remain fixed and unchanged regardless of the preform format 12 used.
    As a result, unlike the conveyors 22, the central axis C2 of movement of the preforms 12 is offset radially at each change of format.
    To allow the peripheral interstice 34 of the bowl 20 to be connected with the groove 60 of the gas conveyor 56 despite this offset of axis C2 of the interstice 34 relative to the groove 60, provision is made for the preforms 12 to come out slightly after the theoretical point of tangency between the rectilinear trajectory of the rails and the circular trajectory of the gap 34. Provision is also made for interposing bifurcation rails 74 which extend the trajectory of the preforms 12 in the gap 34 and which are curved according to a curvature opposite to that of the interstice 34, as illustrated in FIG. 14. The bifurcation rails 74 pass through the outlet passage 32.
    The bifurcation rails can be replaced to adapt the radius of curvature and the spacing of the bifurcation rails 74 as a function of the dimension of the outgoing preforms 12. The modification of the radius of curvature makes it possible in particular to make up for the offset of the axis of displacement C2 between the peripheral gap 34 and the straight groove 60 of the rails.
    Advantageously, the radius of curvature of the bifurcation rails 74 is large enough so that the preforms 12 pushed by the ramp 62 of vents are not slowed down by a too tight turn.
    The arrangement made according to the teachings of the invention thus makes it possible to guarantee that the queue 54 of accumulation of preforms 12 in the conveyor 22 with brushes retains a length sufficient to allow the regular and continuous feeding of the transfer wheel 52 next, while retaining a conveyor 22 with reduced length brushes. The assembly formed by the alignment and straightening device 10 and by the conveyors 22, 56 arranged at the outlet is thus advantageously compact while exhibiting optimum efficiency.
    权利要求:
    Claims (9)
    [1" id="c-fr-0001]
    1. Arrangement for packing preforms (12) in line in an output conveyor of a device (10) for straightening and aligning preforms, in particular preforms (12) made of thermoplastic material intended to be shaped into final container by a forming station, characterized in that the outlet conveyor is a brush conveyor (22) and in that a gas conveyor (56) is arranged directly upstream of the brush conveyor (22) blowing jets ( 68) of pressurized gas to accelerate the sliding of the preforms (12) towards the brush conveyor (22).
    [2" id="c-fr-0002]
    2. Arrangement according to the preceding claim, characterized in that the device (10) for straightening and alignment comprises a bowl (20) of centrifuge in which the preforms (12) straightened and aligned are received suspended in a gap (34) delimited between the periphery of a turntable (24) and an outer railing (28) and along which they move freely, the preforms (12) exiting through an outlet passage (32) produced in the railing (28).
    [3" id="c-fr-0003]
    3. Arrangement according to the preceding claim, characterized in that the gas conveyor (56) comprises straight rails (58) arranged in the extension of the outlet passage (32) and up to the conveyor (22) with brushes between which the preforms (12) are received slippery, and it comprises a ramp (62) of vents (66) each of which projects a jet (68) of gas towards preforms (12) carried slippery to push them towards the conveyor (22) to brushes.
    [4" id="c-fr-0004]
    4. Arrangement according to the preceding claim, characterized in that the ramp (62) of vents extends at least in part over a final portion in an arc of the path of the preforms (12) around the plate (24) for pushing the preforms (12) to the outlet passage (32).
    [5" id="c-fr-0005]
    5. Arrangement according to the preceding claim, characterized in that the spacing of the straight rails (58) of the gas conveyor (56) is capable of being adjusted as a function of the dimension of the preforms (12).
    [6" id="c-fr-0006]
    6. Arrangement according to the preceding claim, characterized in that the straight rails (58) are spaced symmetrically with respect to a median vertical axis (C1).
    [7" id="c-fr-0007]
    7. Arrangement according to any one of the preceding claims, characterized in that the width of the gap (34) between the periphery of the turntable (24) and the guardrail (28) can be adjusted by changing the diameter of the turntable (24).
    [8" id="c-fr-0008]
    8. Arrangement according to the preceding claim taken in combination with claim 6, characterized in that it comprises rails (74) of bifurcation which connect the gap (34) of the alignment and straightening device with the rails (58 ) straight through the outlet passage (32), the bifurcation rails (74) being curved with a curvature opposite to that of said final portion.
    [9" id="c-fr-0009]
    9. Arrangement according to the preceding claim, characterized in that the rails (74) of bifurcation are capable of being replaced in order to adapt their radius of curvature and their spacing as a function of the dimension of the outgoing preforms (12).
    20A
    20C
    1812
    I .14
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    同族专利:
    公开号 | 公开日
    EP3529181A1|2019-08-28|
    CN109843761A|2019-06-04|
    WO2018046873A1|2018-03-15|
    CN109843761B|2021-06-22|
    EP3529181B1|2021-02-24|
    FR3057860B1|2020-10-23|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3392816A|1965-11-23|1968-07-16|Albro Fillers & Eng|Method of and apparatus for unscrambling articles in bulk|
    US3910407A|1970-11-30|1975-10-07|Pneumatic Scale Corp|Closure handling and orienting apparatus|
    US5421678A|1993-06-28|1995-06-06|Aidlin; Samuel S.|Method and apparatus for conveying bottles|
    EP0645323A1|1993-09-22|1995-03-29|Vtz Engineering + Services Ag|Conveying apparatus for the transport of hollow bodies|
    EP0837017A1|1996-10-18|1998-04-22|VT Zurich Marketing Pte. Ltd.|Conveyor-device for conveying hollow articles|
    WO2001004029A1|1999-07-09|2001-01-18|Netra Systems|Anticontamination device for transporting containers and pneumatic conveyor equipped with same|
    JP2009107838A|2007-10-10|2009-05-21|Suntory Liquors Ltd|Synthetic resin bottle conveying device|
    EP2048097A1|2007-10-11|2009-04-15|Krones AG|Pre-form sorting apparatus|
    US20120315123A1|2011-06-08|2012-12-13|Illinois Tool Works Inc.|Conveying and alignment nozzle|
    FR3028254A1|2014-11-10|2016-05-13|Sidel Participations|BRUSH CONVEYOR FOR TRANSPORTING PREFORMS|CN110395437A|2019-08-05|2019-11-01|沈燕|A kind of food product packaging machines product automatic putting collating unit|
    WO2020249416A1|2019-06-11|2020-12-17|Sidel Participations|Preform accumulation circuit comprising at least two brush conveyors arranged in series|CN2505452Y|2001-08-21|2002-08-14|慧萌高新科技有限公司|Supplying and conveying device for prism small parts|
    FR2899884B1|2006-04-12|2008-06-13|Sidel Participations|DEVICE FOR SUPPLYING PREFORMS WITH LARGE CADENCE|
    JP4373488B1|2009-01-29|2009-11-25|関東電子株式会社|Spring feeder|FR3082839A1|2018-06-22|2019-12-27|Sidel Participations|PNEUMATIC PREFORM CONVEYOR WITH OFFSET NOZZLES|
    FR3093714A1|2019-03-14|2020-09-18|Sidel Participations|"Empty start process for a distribution assembly for straightened and aligned preforms equipped with a pneumatic conveyor"|
    FR3101622A1|2019-10-03|2021-04-09|Sidel Participations|Preform accumulation conveyor with an arcuate path|
    FR3102761A1|2019-11-05|2021-05-07|Sidel Participations|Accumulation circuit for aligned and straightened preforms|
    法律状态:
    2017-09-20| PLFP| Fee payment|Year of fee payment: 2 |
    2018-04-27| PLSC| Search report ready|Effective date: 20180427 |
    2018-09-19| PLFP| Fee payment|Year of fee payment: 3 |
    2019-09-19| PLFP| Fee payment|Year of fee payment: 4 |
    2020-09-17| PLFP| Fee payment|Year of fee payment: 5 |
    2021-09-22| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1660173|2016-10-20|
    FR1660173A|FR3057860B1|2016-10-20|2016-10-20|Arrangement for packing preforms in a row in a conveyor|FR1660173A| FR3057860B1|2016-10-20|2016-10-20|Arrangement for packing preforms in a row in a conveyor|
    CN201780064715.5A| CN109843761B|2016-10-20|2017-10-20|Accumulation device for accumulating preforms in a line in a conveyor|
    PCT/FR2017/052894| WO2018046873A1|2016-10-20|2017-10-20|Arrangement for pressing together queuing preforms in a conveyor|
    EP17797682.6A| EP3529181B1|2016-10-20|2017-10-20|Arrangement for pressing together queuing preforms in a conveyor|
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