"METHOD OF ALIGNING AND RECTIFIING PREFORMS BY CENTRIFUGATION AND ASSOCIATED DEVICE"

专利摘要:
The invention relates to a method of alignment in a queue and straightening of preforms (12), the method being intended to be applied to axisymmetric preforms (12) having a support annular face (18), the method comprising: a first step of discharging preforms (12) in bulk on a rotating horizontal plate (24); a second step of aligning the preforms (12) against a fixed peripheral guardrail (28) by the centrifugal force produced by the rotation of the rotating plate (24); - A third step of successive recovery of the preforms (12) aligned by tilting of the body (14) of the preform under the face (18) of the support of the preform (12); characterized in that during the second alignment step, the main axis (A) of the preforms (12) is oriented substantially tangentially to their direction of movement. The invention also relates to a device (10) for implementing the method.
公开号:FR3035088A1
申请号:FR1553372
申请日:2015-04-16
公开日:2016-10-21
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:

[0001] FIELD OF THE INVENTION The invention relates to a method of alignment in a queue and straightening of preforms, in particular preforms of thermoplastic material intended to be used. formed in a final container by a forming station, the method being intended to be applied to axisymmetric preforms having an annular support face and a body of diameter less than the diameter of said support face, the method comprising: a first step of bulk preform spills on a rotating horizontal platter; a second step of aligning the preforms against a fixed peripheral guardrail by the centrifugal force produced by the rotation of the turntable, the preforms being driven in displacement by the turntable along said railing against which they are held by the centrifugal force; each preform aligned with the guiding rail having a main axis oriented substantially horizontally; a third step of successive recovery of the aligned preforms by tilting of the body of the preform under the support face of the preform until the main axis of the preform is vertical, the preform being supported by its support face between two opposite points of support. The invention also relates to a device for aligning a queue and rectifying preforms, the device being intended to be applied to axisymmetric preforms having an annular support face and a body of diameter 3035088 2 smaller than the diameter of said face. support device, the device having a centrifuge bowl comprising: - a horizontal circular plate rotating about a vertical axis; A fixed peripheral guardrail for retaining the preforms projected by the centrifugal force; - A preform weir that pours the bulk preforms on the turntable towards a first receiving portion of the railing.
[0002] BACKGROUND OF THE INVENTION The method and the associated device are intended to be implemented in an installation for manufacturing containers made of thermoplastic material and in particular polyethylene terephthalate (PET) by forming, in particular by blowing or stretch-blow molding. , 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.
[0003] According to a well-known technique, such containers are produced in two main stages. In a first step, the 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 via 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 surface which protrudes radially outwardly relative to the remainder 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 outwardly 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 injection-molded at a first location and are blow-molded to the final shape of the container at a second location on a specific manufacturing facility. Such technology enables the blow molding operation to be carried out as close as possible to the bottling site, the injection operation being able to be performed at any location. Indeed, it is relatively easy and inexpensive to transport reduced size preforms, while transport containers after blowing has the disadvantage of being economically uneconomic because of their very large volume. In the case where the injection station and the manufacturing facility by forming are two completely independent machines, the preforms are generally delivered in bulk.
[0004] The blowing station therefore has a preform feed device which is equipped with a single-file alignment and preform straightening device. The present invention relates to such a device. According to a first alignment and preform rectification device known from the state of the art, the preforms are discharged in bulk in a tray. They are taken from this tray by a lift belt which, in turn, comes pour the preforms, at a preset rate, to the top end of orienting rollers, also called alignment rollers. These two alignment rollers are inclined relative to the horizontal and they are substantially parallel to each other. The two rollers are rotated in opposite directions and are spaced from each other so as to leave an interval which is slightly larger than the size of the bodies of the preforms. The spacing of the two alignment rollers is such that the transverse space between the two rollers is smaller than the size of the support flange at the base of the neck. The orienting rollers are configured in such a way that, under the effect of gravity, the preforms are forced between the two rollers. Thus, by simple gravity, each preform tends to be disposed between the two rollers, so as to be supported by its flange on the rollers while having the body hanging down between the two rollers. The opposite rotational movement of the two rollers and their inclination ensures, on the one hand, the alignment of the straightened preforms in a queue and, on the other hand, the sliding of the preforms towards the bottom of the orienting rollers where they are then retrieved in a slideway. scroll itself connected to the blowing system. The preforms thus aligned and straightened are accumulated in the feed chute which generally feeds a heating furnace to bring the preforms to a suitable temperature to be formed. Such a feeding device has the advantage of being able to align and straighten the preforms at a rate compatible with the rate of the manufacturing facility.
[0005] However, this known device is very bulky both horizontally and vertically. Indeed, to ensure the effective recovery of the preforms, the rollers are generally of great length. Such devices can for example measure more than 5 m in height.
[0006] A less bulky alignment and straightening device having a centrifuge bowl has already been proposed. The preforms are thrown loose on a turntable forming the bottom of the bowl. The preforms are then sprayed by centrifugal force against a peripheral railing. A vertical space reserved between the guardrail and the turntable allows the passage of the body of the preforms while retaining them by their collar. The preforms are thus aligned at the periphery of the bowl, their main axis having a substantially radial orientation under the effect of the centrifugal force. The preforms thus have an axis that extends substantially orthogonal to both the direction of gravity and the direction of movement of the preforms.
[0007] The preforms thus aligned and oriented in a similar manner are then guided to a tangential outlet of the bowl under the effect of the rotational movement of the turntable. Before their exit or after their exit, the preforms are straightened so that their main axis is oriented vertically so as to be supported by a slideway, generally horizontal, along which they are no longer subjected to centrifugal force. . The preforms are supported by their collar which rests on two support points diametrically opposed. These two points of support are aligned orthogonally to the direction of movement of the preforms. Therefore, the tilting of the preform causes its oscillation roll between the two rails of the slide. The main axis of the preform tilting in the same plane as the 25 points of support, the preform may be guided only by a fulcrum, or jump out of contact with the rails. Such a movement, if it is not controlled, may cause the preform to slide, which at best will fall off the slide, or at worst, will stop by stopping the previous scrolling of the preforms. Such blockage is likely to cause the temporary shutdown of the entire manufacturing facility. The straightening of the preforms requires the presence of body guides of complex shape and adapted to the morphology of each preform model to allow permanent and stable guidance of each preform during their straightening. Such guide pieces are complex and expensive to make. In addition, when the manufacturing facility is intended to be used with different preform models depending on the container to be obtained, it is necessary to have suitable guide parts for each of the models that can be used. The cost of the device is increased. In addition, the operations of changing guiding parts involved in each change of preform model are long and tedious. The extended downtime of the device due to this change is costly for the manufacturer. BRIEF SUMMARY OF THE INVENTION The invention proposes a method of the type described above, characterized in that during the second alignment step, the main axis of the preforms is oriented substantially tangentially to their direction of travel 20 to their recovery. According to another characteristic of the method, the straightened preforms are rotated about their main axis by friction against an outer edge of the turntable, the preforms being thus displaced around the bowl in the direction of rotation of the turntable by rolling against the peripheral railing. The invention also proposes a device of the type described above for the implementation of the method according to the teachings of the invention, characterized in that on a first determined angular sector of the bowl including the receiving portion, the railing being sufficiently close to the tray to retain the body of the preforms on the turntable and 3035088 7 inside the bowl against the centrifugal force produced by the rotation of the turntable. According to other features of the device: at least at the periphery of the first determined sector of the bowl, the rail extends vertically above the turntable; on a second angular sector of the bowl, arranged downstream of the first angular sector in the direction of rotation of the turntable, the bowl has a peripheral interstice formed by radially spacing the railing from the outer edge of the turntable of a distance between the diameter of the body and the diameter of the support face to allow tilting of the body of the preforms under the level of the turntable through said gap, the support face being intended to be supported jointly by the tray turning and by the railing; - The guardrail has a supporting rail of the support surface which extends at least on the second angular sector of the bowl, the rail extending at the same level as the turntable 20 to externally delimit the gap; the outer edge of the turntable and / or the guardrail comprise a tread which has a coefficient of friction adapted to allow rolling without slipping of the preform against the tread; The device comprises a conveyor which is connected tangentially to the turntable to an outlet passage of the rectified preforms open in the guardrail downstream of the determined second sector; - The conveyor is formed by a horizontal slide 30 formed of an outer rail which extends the rail of the guardrail and an inner parallel rail which extends tangentially the outer edge of the turntable, the rails being spaced apart so as to support a preform straightened by its support face; The straightened preforms which are transferred onto the conveyor are moved by a blower device. BRIEF DESCRIPTION OF THE FIGURES Other features and advantages of the invention will become apparent upon reading the following detailed description for the understanding of which reference will be made to the accompanying drawings, in which: FIG. perspective view which schematically shows a preform alignment and rectification device comprising a centrifuge bowl according to the teachings of the invention; FIG. 2 is a front view showing a preform adapted to be used with the device of FIG. 1, the axis of the preform being here oriented vertically; FIG. 3 is a view from above showing the centrifuge bowl of FIG. 1; FIG. 4 is a radial sectional view of an alignment sector of the centrifuge bowl of FIG. 1 showing the peripheral guardrail and turntable of the centrifuge bowl and an aligned preform; FIG. 5 is a perspective view showing a weir of the device of FIG. 1; Fig. 6 is a top view showing a part of the alignment sector of the centrifuge bowl, as well as the various steps of the path of a preform poured into the centrifuge bowl; FIG. 7 is a radial sectional view of a rectifying section of the centrifuge bowl of FIG. 1 showing the peripheral railing and turntable of the centrifuge bowl and an aligned and rectified preform; Figure 8 is a diagrammatic view in a radial direction showing 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; FIG. 10 is a view similar to that of FIG. 8 which shows the preform of FIG. 8 being straightened at the beginning of the rectifying sector of the centrifuge bowl of FIG. 1; Figure 11 is a top view of Figure 10; Fig. 12 is a view similar to that of Fig. 10 showing the preform of rectified Fig. 10 in the rectifying sector of the centrifuge bowl of Fig. 1; FIG. 13 is a view from above of FIG. 12; FIG. 14 is a view from above showing an area of the centrifuge bowl of FIG. 1 straddling the rectifying area and a sorting area and having a primary stripping wheel moving a preform away from it misaligned; FIG. 15 is a radial sectional view of the bowl passing through the axis of rotation of the primary unraveling wheel which represents the primary unraveling wheel of FIG. 14; Fig. 16 is a top view showing a downstream portion of the sorting section of the centrifuge bowl of Fig. 1 and having a secondary stripper wheel moving a misaligned preform away; - Figure 17 is a radial sectional view of the bowl passing through the axis of rotation of the secondary winding wheel which represents the secondary winding wheel of Figure 16.
[0008] DETAILED DESCRIPTION OF THE FIGURES In the rest of the description, elements having identical structure or similar functions will be designated by the same references. In the remainder of the description, the following local orientations will be adopted in a nonlimiting manner for each preform present in the centrifuge bowl of the device: radial radial "R" directed from the inside to the outside from the axis of rotation 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 below upwards in the opposite direction 15 of the Earth's gravity. FIG. 1 shows a device 10 for aligning a line and for preform straightening 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 by stretch blow molding. An example of a preform 12 intended to be used with the device 10 is illustrated in FIG. 2. Such a preform 12 is made of thermoplastic material, here in PET. It is conventionally obtained by injection molding. It has a substantially axisymmetric shape around a principal axis "A" vertically represented in FIG. 2. It comprises a body 14 in the shape of an elongated tube along the principal axis "A" having a closed axial end and which presents its opposite end, shown at the top in FIG. 2, an axially open neck 16. The preform 12 also comprises an annular support face 18 which is oriented axially toward the closed end of the preform 12, which projects radially relative to the remaining body 3035088 11, and which is arranged above a center "G" of gravity of the preform 12. The term "annular" means that the support face is around the preform 12 is continuous , either discontinuously. In the latter case, the annular face 5 is for example formed of disjoint segments which are around the preform which are nevertheless close enough that the preform can be supported between two diametrically opposed supports regardless of the position of the preform around its main axis.
[0009] In the example shown, the base of the neck 16, at the junction with the body 14, has a flange which extends radially projecting from the rest of the preform 12. The underside of the flange thus forms said face 18 support. Alternatively, the flange may 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, for example by means of a plug. The outer diameter "D1" of the support face 18, in this 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 end section The closed body 14 here has a minimum outer diameter "D3". The neck 16 has its definitive shape, while the body 14 is intended to be stretched during a subsequent forming operation to form the body of the finished container. In addition, the weight of the body 14 of the preforms 12 used 30 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 face 18 of support with reference to Figure 2. Thus, a preform 12 supported by its support face 18 by resting on two 3035088 12 diametrically opposed supports s will naturally orient by gravity neck 16 at the top. The example represented in FIG. 2 is not 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 protruding radially from the rest of the body 14, and having a center of gravity axially offset towards the body relative to said support face 18. Returning to FIG. 1, the device 10 mainly comprises a centrifuge bowl 20 and an exit conveyor 22 for the aligned and straightened preforms. The centrifuge bowl 20 has a horizontal circular plate 24 rotating about a central vertical axis "B". The rotating plate 24 thus has a circular outer edge 15 shown in FIG. 4. The upper face of the rotating plate 24 defines the inside of the centrifuge bowl 20 vertically downwards. Thus, the plate 24 forms the bottom of the bowl 20. The rotating plate 24 has an outer diameter much greater than the dimensions of the preforms 12.
[0010] The rotating plate 24 is rotated at constant speed, here in a clockwise direction as seen from above, for example by a motor (not shown) which is arranged under the rotating plate 24. The rotational speed is, for example, controlled so that the outer edge of the rotating plate 24 moves between 2 and 3 m / s. The rotating plate 24 is here carried by a support table 26. The support table 26 has legs that are advantageously adjustable in height to adjust the attitude of the turntable 24.
[0011] The centrifuge bowl 20 is delimited radially outwardly by a fixed peripheral guard 28 which is here fixed to the support table 26. This railing 28 has the primary function of retaining the projected preforms 3035088 13 outside by the centrifugal force produced by the rotation of the turntable 24, and for second function to guide the movement of the preforms 12 to a passage 32 of out of the bowl 20.
[0012] The preforms 12 are intended to be poured in bulk on the turntable 24 via a fixed weir 30. Weir 30 is here arranged in the center of the rotating plate 24. Weir 30 is designed to dump the preforms 12 in bulk, radially towards a first portion 28A for receiving the guardrail 28. The weir 30 is here in the form of a chute supplied with preforms 12 from above. via a conveyor belt (not shown). The top of the weir 30 nevertheless has a relatively low height, for example about 40 cm above the plate 24.
[0013] 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 "B" axis of the turntable 24. A first angular alignment sector 20A said preforms 12 faces the outlet of the weir 30. This angular alignment sector 20A includes the portion 28A for receiving the guardrail 28. A second angular rectifying sector 20B 20A Aligned preforms 12 are arranged directly downstream of the first angular alignment sector 20A. In a nonlimiting manner, it here extends globally to 180 °. A third angular sector 20C for sorting incorrectly aligned preforms is arranged directly downstream of the second rectifying angular 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 of the preforms 12 is open in the guardrail 28 so as to guide the preforms 12 correctly aligned and straightened towards the conveyor 22. The conveyor 22 passes here behind the portion 28A for receiving the guardrail 28. The denomination of each of these sectors 20A, 20B, 20C provides an indication of their function. It will be understood later that non-aligned preforms 12 at the first angular sector 20A may nevertheless be aligned and straightened at the second angular sector 20B according to the circumstances.
[0014] Over the entire periphery of the first angular alignment sector 20A, an operating clearance is reserved between the rail 28 and the rotating plate 24. This clearance allows rotation of the rotating plate 24, but it is however small enough to retain the entire body of the preform 12 inside the bowl 20. This clearance is thus smaller than the minimum diameter "D3" of the body 14 of The preform 12. As shown in FIG. 4, on this aligning sector 20A, the rail 28 extends vertically above the rotating plate 24, so that the outer edge of the rotating plate 24 is arranged at a desired angle. outside the centrifuge bowl. During the operation of the device 10, as represented in FIGS. 5 and 6, during a first spill step, the preforms 12 dumped in bulk by the spillway 30 are projected radially against a portion 28A for receiving the guardrail 28 beneath it. 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 rotating plate 24. At the same time, the rotating plate 24 also begins to drive in its rotation the preforms 12 tangentially downstream. In a second alignment step, the preforms 12 are held inside the bowl 20 by the guardrail 28, then, after one or more bounces against the guardrail 28, the preforms 12 progressively lose speed according to the radial direction. They are then constantly held radially against the guardrail by centrifugal force. The path followed by the same preform 12 in FIG. 6 has been represented since its arrival via the weir 30 to its stable position against the railing 28. The preforms 12 are then driven in purely tangential displacement in a clockwise direction by the In this configuration, the preforms 12 naturally occupy the most stable position in which their main axis "A" is oriented in a direction tangent to the rotating plate 24. Most of the preforms 12 present in the angular alignment sector 20A of the bowl 20 are thus aligned tangentially against the rail 28, their main axis "A" being oriented substantially tangentially to their direction of travel. The tangential difference between two successive aligned preforms 12 is random because the rotating plate 24 is perfectly flat and does not have any 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 each other. The preforms 12 thus optimally occupy the entire peripheral length of the bowl 20.
[0015] At this stage, the preforms 12 are randomly oriented neck upstream or downstream without incidence for the rest of the process. The preforms 12 and aligned continue their peripheral movement in the rectifying sector 20B. The fact that the preforms 12 are held on the turntable 24 allows them to be held radially against the guardrail 28. Thus, the preforms 12 are stably guided by the rail 28 during their movement around the bowl 20.
[0016] As shown in FIG. 7, on the second angular rectifying sector 20B of the centrifuge bowl 20, the bowl 20 has a peripheral gap 34 formed by radially spacing the guard 28 from the outer edge of the rotating tray 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 this case of the flange. This gap 34 extends to the exit passage 32 of the preforms 12.
[0017] At least all along the second rectifying sector 20B, the rail 28 has a support rail 36 supporting the support face 18. The rail 36 extends radially inwards projecting at the same level as the upper face of the rotating plate 24 to delimit the gap 34 to the outside. The rail 36 extends here to the outlet passage 32. Thus, the preforms 12 are likely to be 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 rail 36, on the other hand, the body 14 of the preforms 12 while below the level of the plate 24 rotating through said gap 34. The two bearing points are aligned radially. The rail 36 supports the preforms 12 stably.
[0018] Thus, during a third straightening step, as represented 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 line along the railing 28. , their main "A" axis oriented tangentially. The aligned preforms 12 are arranged randomly at neck 16 upstream or neck 16 downstream without this having any influence on their recovery. When the body 14 of each preform 12 arrives above the gap 34, the body 14 begins to fall, as shown in FIGS. 10 and 11, thus making the preform 12 tilt about a radial axis passing through the bearing points of the support face 18, in this case of the collar, of the preform. The tilting continues until the axis "A" 5 principal of the preform 12 is vertical, possibly after some swinging around the radial axis. The preform 12 is then supported by its support face 18 resting jointly on the rail 36 and the turntable 24, as shown in Figures 12 and 13. The preform 12 is thus rectified, neck 16 at the top. The preform 12 is thus guided externally by the rail 36 of the guardrail 28, and is guided internally by the peripheral edge 25 of the turntable 24. During tilting, the main "A" axis of the preform 12 remains in a vertical plane tangent to the displacement. Due to the tilting of the main axis "A" in the direction of movement of the preforms 12, the support face 18 of each preform 12 remains permanently in contact with the turntable 24 on the one hand, and the rail 36 on the other hand, by its two points of support. Thus, each preform 12 is guided stably and effectively during its straightening. As shown in FIG. 11, a transition zone is provided at the upstream end of the angular rectifying sector 20B. In this transition zone, the gap 34 is widened progressively until reaching its final width. To do this, the rail 28 moves radially away from the axis "B" of rotation of the rotating plate 24. This allows the aligned preforms 12 to remain in constant contact with the rail 28 under the effect of the centrifugal force. The preforms 12 are thus stably guided in aligned position even during their straightening. If the guardrail 28 had a discontinuity, it could no longer fulfill its guiding role at this discontinuity. The preforms 12 properly aligned could then 3035088 18 tressauter to find itself poorly positioned, for example diagonally abutting against adjacent preforms and preventing their recovery. The preforms 12 thus straightened are rotated around their main axis by friction against the outer edge of the peripheral plate 24. The preforms 12 are thus displaced around the bowl 20 in the direction of rotation of the plate 24 rotating by rolling against the peripheral rail 28.
[0019] To improve this rolling phenomenon of the preforms 12 and thus increase the speed of advance of the preforms 12 around the plate 24, the outer edge of the rotating plate 24 advantageously comprises a rolling strip 38 which has a coefficient of friction adapted to allow the rolling without sliding of the body 14 of the preform 12 against the tread band 38. Such an arrangement is, for example, shown in FIG. 7. As a variant not shown of the invention which can replace the arrangement of FIG. 7 or be combined with this same arrangement, the guardrail is equipped with a similar tread. which is intended to come into contact with the body of rectified preforms. The straightened and aligned preforms 12 are thus conveyed to the third sorting sector 20C in which misaligned 12N preforms are redirected directly to the first alignment sector 20A by different sorting means such as stripping wheels 40, 42 and a Deflector 44. The sorting means enable the 12N preforms to be actively ejected incorrectly aligned to the angular alignment sector 20A to enable their direct return into the flow of the preforms arriving in bulk through the weir 30. The adverb "actively" means that the sorting means is capable of providing a pulse to the non-aligned 12N preforms to quickly return to the first angular sector 20A. As shown in more detail in FIG. 14, the first sorting means are thus formed by a first impeller 40 40 called the "main stripper wheel" which is arranged rotating in the bowl 20, above the plate 24 rotating around it. a fixed "C" axis. This is a vertical "C" axis. The space swept by the pallets 46 is thus cylindrical axis "C" vertical. The main debonding wheel 40 is arranged at an upstream end of the third angular sorting sector 20C. This main debonding wheel 40 allows to discard the non aligned 12N preforms which are always lying on the turntable 24 and pressed radially against the collars 16 of the preforms 12 properly aligned. These unaligned 12N preforms thus have at least one portion projecting radially towards the center of the turntable 24 relative to the necks 16 of the correctly aligned preforms 12. The space swept by the pallets 46 excludes the passage of the collars 16 preforms 12 aligned correctly, said passage 20 extending above the gap 34. In contrast, each pallet 46 sweeps a space that is located above the platen 24 rotating at a distance "D4" vertical less than the diameter "D3" minimum of a preform 12, and at a distance "D5" radial edge 25 of the turntable 24 which is smaller than the diameter "D3" minimum of 25 a preform 12 for ejecting the preforms 12N incorrectly aligned globally towards the center of the turntable 24, as shown in Figure 15. For this purpose, the main winding wheel 40 rotates against the direction relative to the turntable 24.
[0020] The sorting means also comprise a fixed deflector 44 which is arranged above the turntable 24 at a vertical distance smaller than that of the minimum diameter "D3" of the body 14 of the preforms 12 to guide the preforms 12N 3035088 ejected by the main debonding wheel 40 in the direction of the first sector 20A angular. Said non aligned 12N preforms are guided by the deflector 44 downstream of the outlet passage 32 in the direction of rotation of the rotating plate 24. This makes it possible to prevent non-aligned 12N preforms from being "locked" in this third angular sorting sector 20C. As shown in FIG. 3, the deflector 44 thus extends from the outer edge of the rotating plate 24, just downstream of the main winding wheel 30 in a spiral arm towards the center of the plate 24 rotating downstream of the passage 32 of exit. An interval is reserved radially between the downstream end of the deflector and the weir 30 to allow the return of preforms 12N ejected by the main winding wheel 15 to the first angular alignment sector 20A. The deflector 44 ensures that in the space defined between the downstream face of the baffle 44 and the guardrail 28, no incorrectly aligned 12N preforms are lying on the turntable 24.
[0021] The sorting means also comprise a second impeller 42, called a secondary scrubber wheel 42, which is interposed between the deflector 44 and the outlet passage 32 in the direction of rotation of the rotating plate 24. In the embodiment shown in FIG. 16, the secondary winding wheel 42 is more particularly arranged directly upstream of the outlet passage 32 so that the ejected preforms 12N are projected directly against the receiving portion 28A of the railing 28 without risking to reach exit 32.
[0022] This second impeller 42 with vanes is intended to eject the nested 12N preforms that run with the preforms 12 properly aligned, or 12N preforms lying on the collars 16 of the preforms 12 properly aligned.
[0023] The secondary scrubber wheel 42 rotates here about a vertical axis "E". The space swept by the vanes 16 is thus cylindrical with axis "E". Each pallet 46 scans a space which extends vertically above and near the neck of the correctly aligned preforms, at a distance "D6" below the minimum diameter of a preform 12N or at the neck height of said preform 12N . Each pallet 46 has at its free end a cutout 48 corresponding to the size of a neck 16 of preform 12 intended to be correctly aligned, as illustrated in FIG. 17. This allows not only to eject the nested preforms, but also to ensure that these preforms will be properly ejected without the possibility of passing under the pallets 46. As shown in the figures, the conveyor 22 is connected tangentially to the plate in the continuity of the passage 32 output of the preforms 12 rectified. The conveyor 22 comprises a horizontal slide formed of an outer rail which extends the rail 36 of the rail 28 and an inner parallel rail which tangentially extends the outer edge of the rotating plate 24. The rails are spaced so as to support a preform 12 straightened by its support face 18, in this case by its flange. This arrangement makes it possible to evacuate the preforms 12 straightened in a queue without ever ceasing to guide them. The conveyor 22 comprises a blower device (not shown) which makes it possible to move the preforms 12 straightened. For this purpose, the blower device comprises several vents 30 which blow air to the preforms 12 to push them downstream.
[0024] In a variant, the conveyor may be equipped with any other known means for moving aligned and rectified preforms. The constant guidance of the preforms at all stages of the process and during the transition between each of the steps ensures that the preforms 12 will be stably displaced. This allows in particular to rotate the turntable 24 at high speed to increase the flow of the preforms 12 without the risk of misaligning preforms 12 properly aligned. In addition, the preforms are not pushed by indexing elements. As a result, the preforms 12 move without risk of jamming and jamming. The device according to the invention can easily be adapted to different models of preforms. It is sufficient to replace guardrail segments 28 in order to adapt the width of the gap 34 to the size of the body 14 and the support face 18 of each model, as well as to replace the associated bearing strips 38. Such segments are easy to manufacture and quick to change.

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. A method of alignment in a queue and straightening preforms (12), in particular thermoplastic preforms intended to be shaped into a final container by a forming station, the method being intended to be applied to axisymmetric preforms (12) having an annular support face (18) and a body (14) of diameter smaller than the diameter of said support face (18), the method comprising: - a first step of bulk preform discharges (12) on a tray (24); ) rotating horizontal; - A second step of aligning the preforms (12) against a fixed peripheral railing (28) by the centrifugal force produced by the rotation of the rotating plate (24), the preforms (12) being driven in displacement by the plate (24). rotating along said guardrail (28) against which they are held by the centrifugal force, each preform (12) aligned against the guardrail (28) having a main axis (A) oriented substantially horizontally; a third stage of successive recovery of the preforms (12) aligned by tilting of the body (14) of the preform under the support face (18) of the preform (12) until the main axis (A) of the preform is vertical, the preform (12) being supported by its face (18) support between two opposed support points; characterized in that during the second alignment step, the main axis (A) of the preforms (12) is oriented substantially tangentially to their direction of movement until their recovery.
[0002]
2. Method according to the preceding claim, characterized in that the preforms (12) rectified are rotated about their main axis (A) by friction against an edge (25) of the outer plate (24) rotating, preforms (12). ) being thus displaced around the bowl (20) in the direction of rotation 3035088 24 of the plate (24) rotating against the peripheral railing (28).
[0003]
3. Device (10) for aligning a queue and straightening preforms (12) for implementing the method according to any one of the preceding claims, the device (10) being intended to be applied to preforms (12) axisymmetric having an annular support face (18) and a body (14) of diameter smaller than the diameter of said support face (18), the device (10) having a centrifuge bowl (20) comprising: a horizontal circular plate (24) rotating about a vertical axis; - A fixed peripheral guardrail (28) for retaining the preforms (12) projected by the centrifugal force; - a weir (30) of preforms (12) which pours the preforms (12) in bulk on the plate (24) rotating towards a first portion (28A) for receiving the railing (28); characterized in that on a determined first angular sector (20A) of the bowl (20) including the receiving portion (28A), the guardrail (28) being sufficiently close to the tray (24) to retain the body (14) of the preforms (12) on the rotating plate (24) and inside the bowl (20) against the centrifugal force produced by the rotation of the rotating plate (24).
[0004]
4. Device according to the preceding claim, characterized in that at least at the periphery of the first sector (20A) determined bowl (20), the guardrail (28) extends vertically above the turntable (24) .
[0005]
5. Device according to any one of claims 3 to 4, characterized in that on a second sector (20B) angular 30 of the bowl, arranged downstream of the first sector (20A) angular in the direction of rotation of the plate (24) rotating, the bowl (20) has a peripheral gap (34) formed by radially spacing the guardrail (28) from the outer edge (25) of the tray (24) 3035088 rotating a distance between the body diameter (14) and the diameter of the support face (18) to allow tilting of the body (14) of the preforms (12) under the level of the plate (24) rotating through said gap (34), the face (18) 5 support being intended to be supported jointly by the turntable (24) and the guardrail (28).
[0006]
6. Device according to the preceding claim, characterized in that the guardrail (28) has a rail (36) for supporting the support face (18) which extends at least on the second sector (20B) angular bowl (20), the rail (36) extending at the same level as the plate (24) rotating to externally delimit the gap (34).
[0007]
7. Device according to the preceding claim, characterized in that the outer edge (25) of the plate (24) rotating and / or the guardrail (28) comprise a strip (38) bearing which has a coefficient of friction adapted to allow the rolling without sliding of the preform (12) against the strip (38) rolling.
[0008]
8. Device according to any one of claims 3 to 7, characterized in that it comprises a conveyor (22) which is connected tangentially to the plate (24) rotating to an outlet passage (32) of the preforms (12). rectified open in the guardrail (28) downstream of the second sector (20B) determined.
[0009]
9. Device according to the preceding claim, characterized in that the conveyor (22) is formed by a horizontal slide formed of an outer rail which extends the rail (36) of the guardrail (28) and an internal parallel rail which extends tangentially the outer edge (25) of the turntable (24), the rails being spaced apart so as to support a preform (12) 30 rectified by its face (18) support.
[0010]
10. Device according to the preceding claim, characterized in that the preforms (12) rectified which are transferred 3035088 on the conveyor (22) are driven by a blower device.

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同族专利:

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公开号 | 公开日

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FR3035088B1|2019-05-17|

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EP3283415B1|2021-09-22|

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US10351352B2|2019-07-16|

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CN107454867A|2017-12-08|

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CN107454867B|2020-07-10|

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EP3283415A1|2018-02-21|

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WO2016166459A1|2016-10-20|

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US20180086570A1|2018-03-29|

引用文献:

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DE602004001132T2|2003-02-03|2007-05-10|Lanfranchi S.R.L.|ALIGNMENT DEVICE FOR BOTTLE PREMISES FOR IMPLEMENTING THROUGH A BLOWING MACHINE|

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EP1690813A1|2005-02-09|2006-08-16|Nov Hau AG Engineering|Device and method for arranging in a same attitude elongated, prefferably cylindrical articles having a profiled contour|

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DE102005048126A1|2005-10-06|2007-04-26|Sig Technology Ltd.|Plastic bottle preform sorting process for blow molding plant involves centrifuging preforms on rotating table until they reach outer guide rail which aligns and separates them|

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EP2048097A1|2007-10-11|2009-04-15|Krones AG|Pre-form sorting apparatus|

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DE102011050843A1|2011-06-03|2012-12-06|Nov Hau Ag Engineering|Method and device for transporting objects to a station|

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US4401203A|1981-10-21|1983-08-30|Mcdonald Walter|Parts feeding bowl with orienting means|

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US6190094B1|1999-06-02|2001-02-20|Plastipak Packaging, Inc.|Pneumatic conveying apparatus|

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CN101652300A|2007-04-20|2010-02-17|西德尔合作公司|Pre-profiling base carrying method and pre-profiling base high speed turning device|CA2999707C|2015-09-30|2022-01-25|Suntory Holdings Limited|Preform coating device and preform coating method|

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CN111491744A|2017-12-25|2020-08-04|三得利控股株式会社|Preform coating apparatus|

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FR3080319B1|2018-04-20|2022-01-07|Sidel Participations|CONVEYING METHOD AND CONVEYING DEVICE OF ROTARY TYPE FOR PREFORMS MADE OF THERMOPLASTIC MATERIAL|

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US10988324B2|2018-04-20|2021-04-27|Greg Schombert|Food grade feeder device and system for rolls, sandwiches, odd shaped edibles and foodstuff|

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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"|

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FR3097214A1|2019-06-11|2020-12-18|Sidel Participations|Preform accumulation circuit comprising at least two brush conveyors arranged in series|

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FR3102702B1|2019-11-05|2021-11-05|Sidel Participations|Method of guiding a straightened preform in a gap of a device for aligning and straightening preforms and associated alignment and straightening device|

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CN110980144B|2019-12-31|2021-11-26|东北大学|Chain riveting machine capable of hanging label welding nails|

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CN111361960A|2020-03-19|2020-07-03|南通大学|Automatic feeding machine suitable for multi-specification aluminum electrolytic capacitors and feeding process thereof|

法律状态:
2016-03-22| PLFP| Fee payment|Year of fee payment: 2 |

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2016-10-21| PLSC| Search report ready|Effective date: 20161021 |

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2017-03-22| PLFP| Fee payment|Year of fee payment: 3 |

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2018-03-22| PLFP| Fee payment|Year of fee payment: 4 |

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2020-03-19| PLFP| Fee payment|Year of fee payment: 6 |

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2021-03-23| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1553372A|FR3035088B1|2015-04-16|2015-04-16|"METHOD OF ALIGNING AND RECTIFIING PREFORMS BY CENTRIFUGATION AND ASSOCIATED DEVICE"|

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FR1553372|2015-04-16|FR1553372A| FR3035088B1|2015-04-16|2015-04-16|"METHOD OF ALIGNING AND RECTIFIING PREFORMS BY CENTRIFUGATION AND ASSOCIATED DEVICE"|

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CN201680022006.6A| CN107454867B|2015-04-16|2016-04-12|Method for aligning and straightening preforms by centrifugation and related device|

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PCT/FR2016/050834| WO2016166459A1|2015-04-16|2016-04-12|Method for aligning and righting preforms by means of centrifugation, and associated device|

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US15/564,097| US10351352B2|2015-04-16|2016-04-12|Method for aligning and righting preforms by means of centrifugation, and associated device|

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EP16723406.1A| EP3283415B1|2015-04-16|2016-04-12|Method for aligning and righting preforms by means of centrifugation, and associated device|