WO2017157685A1 - Palette pour porter un conteneur de produits - Google Patents

Palette pour porter un conteneur de produits Download PDF

Info

Publication number
WO2017157685A1
WO2017157685A1 PCT/EP2017/054947 EP2017054947W WO2017157685A1 WO 2017157685 A1 WO2017157685 A1 WO 2017157685A1 EP 2017054947 W EP2017054947 W EP 2017054947W WO 2017157685 A1 WO2017157685 A1 WO 2017157685A1
Authority
WO
WIPO (PCT)
Prior art keywords
insert
platform
base
shaft
puck
Prior art date
Application number
PCT/EP2017/054947
Other languages
English (en)
Inventor
Dean QUICK
Stuart Michael Ruan Jones
Neil Anthony Litten
George Edward SYKES
Original Assignee
Unilever Plc
Unilever N.V.
Conopco, Inc., D/B/A Unilever
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Unilever Plc, Unilever N.V., Conopco, Inc., D/B/A Unilever filed Critical Unilever Plc
Publication of WO2017157685A1 publication Critical patent/WO2017157685A1/fr

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G17/00Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface
    • B65G17/30Details; Auxiliary devices
    • B65G17/46Means for holding or retaining the loads in fixed position on the load-carriers, e.g. magnetic
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G2201/00Indexing codes relating to handling devices, e.g. conveyors, characterised by the type of product or load being conveyed or handled
    • B65G2201/02Articles
    • B65G2201/0235Containers
    • B65G2201/0261Puck as article support

Definitions

  • the present disclosure relates to a puck for holding a product container in an orientation for product filling, capping, labeling, and/or other processing as the container moves along an automated line and, in particular, to a puck that includes a removable insert in which a product container is received and held.
  • Pucks for holding product containers herein alternatively referred to as “carrier pucks” or “pucks” are used, typically in automated production lines, to hold containers in a desired orientation, e.g., an upright position.
  • carrier pucks typically in automated production lines, to hold containers in a desired orientation, e.g., an upright position.
  • Use of a puck simplifies movement of a container along a production line and is of assistance in regulating line operations.
  • a container In automated operations, a container is commonly inserted in a puck in an inbound staging area.
  • the container-bearing puck then moves through one or more processing stations where different operations are performed, among others, one or more of the following: the container may be filled with one or more materials, the container may be subjected to pre- and/or post-filling procedures or treatments, for example, heating and/or cooling, the container may have a tamper-resistant seal and/or a cap affixed thereto, one or more labels or other container indicia may be applied, and/or the container may undergo one or more quality control operations, for example, weight and/or label verification, and the like.
  • the puck and container When processing is complete, the puck and container are moved to an outbound staging area, the container is removed from the puck and the puck is rerouted back to the inbound staging area, or other designated station. It is not uncommon for an automated production line to have hundreds of pucks in use at a single time. Many of the pucks used commercially are designed for containers of a particular configuration, i.e., they are container specific. In instances where a production line employs different container configurations for different production runs, having a puck that is adaptable for use with containers of a variety of different shapes and sizes can help reduce production costs, including downtime for puck changeovers.
  • US Pat. No. 8,695,791 discloses a carrier puck that includes a circular lower body on which is mounted an upper body. As therein illustrated, the upper body is mounted to the lower body via a pair of opposing bayonet side mountings.
  • JP5659780 discloses a carrier puck having inner and outer holder components. As illustrated, the inner holder includes a moveable interior wall that can be adjusted to brace a container within the inner holder.
  • pucks having a base and a separate component for holding a container, more particularly a removable insert is limited by several real-world considerations.
  • the environment created by automated production can be hard on pucks. In use, there is a tendency for pucks to collide with one another. These collisions can occur with considerable force given the speed at which many automated production operations are run, with collision force being increased when containers are filled and the weight of the container-bearing pucks increased.
  • a puck having a removable insert should withstand the rigors of automated processing without premature release or displacement of the insert. Conversely, to accommodate container changeover, the puck should facilitate engagement and disengagement of the removable insert. There remains a need for pucks that provide a balance between these competing requirements.
  • One aspect of this invention is to provide a carrier puck for use in an automated production line, the carrier puck having a removable insert for receiving and holding a product container. Another aspect of this invention is to provide a carrier puck that provides robust engagement of a removable insert. Another aspect of this invention is to provide a carrier puck that resists premature release of a removable insert. A further aspect of this invention is to provide a carrier puck that provides engagement of a removable insert that withstands the vertical pull forces of container removal. Another aspect of this invention is to provide a carrier puck that allows for expeditious engagement and disengagement of a removable insert.
  • A) a removable insert comprising:
  • the retaining clip comprising
  • the shaft extends into the platform aperture
  • the spring grip extends beneath the platform and engages with the shaft
  • the base sidewall includes a port that provides access to the release tab.
  • FIG. 1 a perspective view from above of one embodiment of a puck of the present invention
  • FIG. 2 is a simplified sectional view of the puck of FIG. 1 ;
  • FIG. 3 is perspective view from above of the puck of FIG.1 without the insert
  • FIG. 4 is a perspective view from below of the puck of FIG. 1 ;
  • FIG. 5a is a close-up view of the locking mechanism of the puck of FIG. 1 , with the retaining clip in a locked position;
  • FIG. 5b is close-up view of the locking mechanism of the puck of FIG. 1 , with the retaining clip in an unlocked positon.
  • the puck of the subject invention combines a number of elements that together enable the production of a container-holding/transport device having a removable insert and a separate base. By changing out the removable insert, the puck is adaptable for use with containers of different configuration.
  • the subject puck comprises, a removable insert (alternatively referred to as "insert”), a base and a retaining clip that fastens the insert to the base.
  • the insert comprises a sidewall and bottom wall that together generally define a cavity, the insert cavity, for holding a container.
  • a cavity for holding a container.
  • the removable insert includes a shaft that extends downward from the insert bottom wall.
  • the shaft is configured to align with the platform aperture. Depending upon the position of the platform aperture, the shaft may extend downward from what is generally the center of the insert bottom wall or may extend downward form the insert bottom wall from a position offset from center.
  • the shaft includes at least one locking member, for example, a locking ridge, notch or channel.
  • the shaft is of a generally tubular shape and is proximate to an aperture (the "insert aperture") in the bottom wall of the insert.
  • the insert bottom wall further includes an insert recess.
  • the insert recess may, for example, be provided as a depression concavity, hollow, or sink in the insert bottom wall.
  • the insert recess includes an insert aperture.
  • the shaft is in the form of an insert collar that extends downward from the insert bottom wall proximate to the insert aperture.
  • the insert may also include an upper rim (alternatively referred to as "insert rim” or “rim”) that extends outward from the insert.
  • the rim generally defines the perimeter of the upper end of the insert.
  • the rim extends outward from the insert sidewalk
  • the rim may be continuous or may include one or more gaps or regions of discontinuity, i.e., the rim may be discontinuous.
  • the rim includes one or more container easement areas to assist in maneuvering a container into the insert. Container easement areas may take the form of concavities or indentations in the rim that reduce the clearance height of the puck.
  • the rim includes a downwardly extending skirt (alternatively referred to as "rim skirt").
  • rim skirt may extend downward from the rim as a full skirt; alternatively, the rim skirt may extend downward from one or more portions of the rim.
  • one or more container support arms may extend upward from the insert rim and/or insert sidewalk
  • the insert is provided with first and second support arms positioned on opposing sections of the insert rim and/or insert sidewalk
  • first and second support arms may be desirable to taper or otherwise configure the insert sidewall and, when present, features such as support arms, to enable the inserts to be stacked or nested one within the other.
  • the insert includes one or more projections that extend outward from the insert sidewall and engage with an interior surface of the base side wall and/or an interior structure of the base. The inclusion of such projections may help to stabilize and/or support the removable insert in the base.
  • the insert includes one or more spacers that extend downward from the insert bottom wall and engage with the platform.
  • the spacers allow for a gap between the insert bottom wall and the platform; such gap may be of assistance in separating the removable insert from the base.
  • the base comprises a sidewall and a bottom wall that together generally define a cavity, the base cavity, for holding the removable insert.
  • the base has a perimeter (the "base perimeter") that, in one embodiment, is generally defined by the base sidewall. In an orientation where the upper end of the base is at the top and the lower end of the base is at the bottom, the base sidewall is, in one embodiment, generally parallel to the central vertical axis (CVA) of the base.
  • the base sidewall is of varying height; i.e., the sidewall is higher in some places and lower in other places.
  • the height of the base sidewall at a given location is commonly the vertical distance between the top of the base sidewall and the bottom of the base sidewall.
  • the base sidewall may have a stepped or castellated appearance.
  • the insert includes an insert rim and the base sidewall includes an upper end (in one embodiment such upper end is an upper edge) that engages with the insert rim.
  • the configuration of the upper end of the base sidewall and the insert rim may be such that these components fit together in complementary fashion, i.e., the insert rim mates with the upper end, in one embodiment the upper edge, of the base sidewall.
  • Providing a base sidewall of varying height and a mating insert rim, particularly a rim, at least a portion of which includes a downwardly extending skirt, may aid in interlocking the insert to the base and/or distributing load to the base sidewall.
  • a mating configuration of the insert rim and base sidewall may assist in aligning the removable insert with the base and, particularly when the base sidewall is of varying height, may contribute to a robust base/insert attachment.
  • the base further includes a platform.
  • the platform may extend upward from the base bottom wall and/or inward from the base sidewall.
  • the platform includes a platform aperture and, optionally, a platform recess in which the platform aperture is located.
  • the platform recess may be provided, for example, as a depression, concavity, hollow or sink in the platform.
  • the interior platform comprises a platform top wall and a platform sidewall.
  • the platform comprises a platform top wall and a platform sidewall, with the platform aperture located in the platform top wall, and the platform top wall optionally comprising a platform recess in which the platform aperture is located.
  • the platform is positioned interior to the base sidewall and below the upper end thereof. In one embodiment, the platform is positioned in what is generally the center of the base perimeter. In one embodiment, the platform may be formed as a ledge that projects inward from the base sidewall. In one embodiment, the platform is closer to the base bottom wall than to the upper end of the base sidewall. In one embodiment, the platform defines a space that opens into the bottom of the base. In one embodiment, the platform forms a portion of the base bottom wall
  • the platform further comprises a downwardly extending platform collar proximate to the platform aperture.
  • the inclusion of a platform collar may help to stabilize the insert in the base.
  • the platform collar includes at least one reveal section that provides the spring grip with access to the shaft.
  • the shaft When the insert and base are assembled, the shaft extends into the platform aperture and, when present, the platform collar.
  • the insert bottom wall includes an insert recess
  • the platform includes a platform recess and the insert recess extends into the platform recess. Configuring the puck with an insert recess that extends into a platform recess may contribute to robust engagement of the insert and base.
  • the puck further comprises a retaining clip that fastens the removable insert to the base.
  • the retaining clip comprises a spring grip that extends beneath the platform and engages with the shaft. In one embodiment the spring grip engages with the shaft at or proximate to a locking member of the shaft. In one embodiment, the spring grip engages with the shaft above a locking ridge.
  • the retaining clip further comprises a release tab.
  • the release tab is accessible from a port in the base sidewalk Pushing the release tab inward forces the spring grip open and releases the retaining clip from the insert, allowing the insert to be removed from the base.
  • the shaft is accessed by the spring grip through one or more reveal sections in the platform collar.
  • the spring grip comprises opposing locking arms.
  • the base further comprises a spreader that extends beneath the platform and with which opposing locking arms of the spring grip engage when the release tab is pushed inward.
  • the spreader is configured as a ridge or ledge that extends downward from the platform.
  • the spring grip and release tab are fabricated as a single component.
  • the retaining clip is fabricated from metal. It may be desirable to design the puck with one or more features that minimize the potential for premature engagement of the release tab.
  • the retaining clip may be positioned such that the release tab is away from regions most likely to bear the force of puck collisions, for example, leading and trailing ends of the puck; the tab may be recessed inward from the access port and/or protected by one or more guards; and/or the release force of the retaining clip may be engineered to be relatively high.
  • the retaining clip may be engaged in synchronous manner with insert placement or removal. Mare particularly, as the retaining clip is being accessed from the insert sidewall, a suitable tool for lifting the insert onto or off the base may be in place and engaged with the insert. This is of assistance in reducing insert changeover times, particularly in systems where insert changeover is frequent.
  • the inclusion of an insert recess and/or the configuration the shaft as a generally tubular structure provides a site of access for a lifting tool to engage with the insert.
  • Pneumatic grippers are examples of tools for lifting the insert onto or off the base.
  • Pneumatic grippers include, but are not limited to, pneumatic picking heads.
  • a pneumatic picking head includes a bellows that that can be inserted into and expanded in the insert such that the expanded bellows conforms to an interior surface of the insert, enabling the insert to be lifted and otherwise moved.
  • Mechanical grippers include, but are not limited to, tools with mechanically expandable fingers or other picker configurations.
  • the puck includes components that may be molded from plastic materials.
  • Plastic materials that may be considered for molding puck components include, for example, polyacetal, polyamide, polyarylate, polyarylsulfone, polyolefin, polyester, butadiene-styrene and acrylonitrile-styrene-butadiene copolymers, and the like.
  • Moldable components include the base, removable insert and, in some instances, the retaining clip. Material selection depends on factors that include configuration of a component and the mechanical and/or physical requirements thereof, e.g., hardness, impact strength, modulus, flexural strength, dimensional stability, chemical and/or heat resistance and the like, as well as requirements related to mold design and/or mold fill.
  • the material employed in the base of the puck will typically need to provide sufficient toughness and impact strength to withstand the collision forces and other requirements of an automated production line, it may be desirable that the material from which the insert is fabricated is more elastic and flexible, with tactile characteristics that enable it to better grip a container.
  • the use of thermoplastic resins is of particular interest.
  • the insert and/or base are fabricated from a polyolefin such as, for example, polyethylene or polypropylene.
  • the puck may be configured for use with containers for a variety of consumer, commercial, industrial and institutional products.
  • Non-limiting examples of such products are personal care products, household care products, beverages and other foodstuffs, pharmaceuticals, neutraceuticals, automotive products, marine products, veterinary products, industrial products, and the like.
  • the puck is adaptable to many different sizes and configurations, depending upon factors that include, for example: the dimensions, configuration and weight of the container the puck is intended to hold; the material the container is intended to hold and the fill volume thereof; the center of gravity of the container and its contents; and production line considerations, including, for example, line bends, curves, gradients, drops, discontinuities, speeds, collision forces, guide rail dimensions, and the like, as well as puck positioning, transport and handling requirements related thereto.
  • the puck comprises a base having a length of from 50mm to 300mm and a width of from 50mm to 300mm. In another embodiment, the puck comprises a base having a length of from 70 to 200 mm and a width of from 50 to 200mm. In yet another embodiment, the puck comprises a base having a length of from 80 to 150mm and a width of from 50 to 120mm. In yet another embodiment the puck comprises a base having a length of from 90 to 150mm and a width of from 70 to 1 10mm. Larger or smaller base dimensions are possible, depending upon the containers with which the pucks are to be used. In one embodiment, the base has a generally rectangular perimeter.
  • FIGS. 1 and 2 One exemplary embodiment of a puck 10 of the present invention is shown in FIGS. 1 and 2. As illustrated, puck 10 includes base 20, removable insert 60, and retaining clip 100. As shown in one or more of FIGS. 1 to 3, base 20 includes base sidewall 22, platform
  • Base sidewall 22 includes upper end 40 which includes upper edge 42.
  • Base sidewall 22 forms what is generally the perimeter of base 20.
  • the perimeter of base 20 is generally rectangular in shape, with eased corners.
  • the base sidewall comprises a pair of opposing short walls and a pair of opposing long walls.
  • Base sidewall 22 includes access port 23.
  • platform 24 extends upward from base bottom wall 26 and includes platform sidewall 27, platform top wall 28, platform recess 30 and platform aperture 50.
  • Platform 24 further includes platform collar 56 that extends downward from platform top wall 28 proximate to platform aperture 50.
  • Platform collar 56 includes reveal sections 58.
  • bottom wall collar 25 extends downward from base bottom wall 26.
  • the inclusion of a bottom wall collar may be helpful in holding, positioning and/or orienting a puck, as it is not uncommon for a production line to include orientation tools that can be extended upward from a conveyor surface or production station to engage with the base of a puck.
  • the perimeter of bottom wall collar 25 shown in FIG. 4 is of similar shape to the perimeter of platform 24 shown in FIG. 3. Having the perimeter of the bottom wall collar generally correspond to the perimeter of the platform may simplify mold design; it should be appreciated that the perimeters of such components are not required to so correspond.
  • base sidewall 22 includes grip ports 86, guides ridges 92 and orientation slots 94.
  • Grip ports provide a site of access for an automated claw or similar implement to engage with and lift or otherwise move the puck from one location to another.
  • the presence of guide ridges is of particular interest when the production line includes guide rails in one or more regions thereof.
  • guide rails are a pair of opposing rails or bars that the puck fits between.
  • Orientation slots provide additional sites for gripping, holding and/or positioning the puck.
  • the base optionally includes one or more bumpers. The bumpers may function as end-pieces of the base and may be integral with or extensions of the base sidewall.
  • bumpers are positioned on opposing sections of the base sidewall as a leading bumper and trailing bumper; in such a configuration, the bumpers may be aligned such that when a plurality of pucks are facing end-to-end on a production line, the trailing bumper of a leading puck engages with the leading bumper of a trailing puck.
  • the bumpers are fabricated of a shock absorbing material such as an elastomeric resin or rubber. The inclusion of bumpers, particularly when fabricated of a shock absorbing material, may help to reduce line noise.
  • base sidewall 22 is shown as including bumpers 88.
  • the base includes a holder (not shown) for a radio-frequency identification detection (RFID) chip.
  • RFID chip can be used to incorporate information about a container that a puck holds. In use, it may serve as an identifying or tracking tag that allows for the wireless identification or monitoring of a container/puck in a production line.
  • removable insert 60 is shown to include insert sidewall 62, insert bottom wall 64 and shaft 66.
  • Removable insert 60 includes insert cavity 74 for holding a container (not shown).
  • Insert bottom wall 64 includes insert recess 83, shown as including insert aperture 84.
  • Shaft 66 is shown as an insert collar that extends downward from insert bottom wall 64 proximate to insert aperture 84.
  • shaft 66 includes first and second locking ridges 67, respectively shown as 67a and 67b.
  • Shaft 66 extends into platform aperture 50 and platform collar 56.
  • platform aperture 50 includes passage area 51 for locking ridges 67.
  • Insert 60 includes rim 80 which extends outward of insert sidewall 62. To assist in directing a container into the insert, the rim may angle into the insert cavity. As shown in FIG. 1 , rim 80 includes container easement areas 81 .
  • rim skirt 82 extends downward from rim 80.
  • rim 80 engages with upper end 40 and, more particularly, upper edge 42 of base sidewall 22.
  • a detection post may extend upward from the insert sidewall and/or rim.
  • a detection post may be included on the base.
  • a production line may be equipped with optical scanners to detect the post and monitor puck position, for example, the arrival at the puck at a processing station.
  • the insert bottom wall includes one or more drainage holes, not shown. Drainage holes may assist in removing product that misses or overflows from the container during filling or other processing. Where periodic washing or rinsing is part of a puck's maintenance regimen, drainage holes may be an aid to drying. When drainage holes are present, the bottom wall may be tapered to channel overflow to such holes.
  • Puck 10 further includes retaining clip 100 that fastens removable insert 60 to base
  • retaining clip 100 is shown to include release tab 104 and spring grip 102; as illustrated, spring grip 102 is configured as generally opposing locking arms shown as first locking arm 102a and second locking arm 102b. Spring grip 102 is shown to extend through platform sidewall 27 and to engage with shaft 66 above locking ridge 67. Release tab 104 is accessible from port 23 in base sidewall 22. Reveal sections 58, shown in FIG.4, provide spring grip 102 with access to shaft 66. As shown in FIGS. 5a and 5b, locking arms 102a and 102b each include a gripping section 105, respectively shown as 105a and 105b. In the locked position shown in FIG.
  • spring grip 102 more particulary gripping section 105 engages with insert shaft 66.
  • release tab 104 has been moved inward, forcing spring grip 102 open and gripping section 105 away from shaft 66, allowing for the removal of insert 60 from base 20.
  • Base 20 further includes spreader 70, shown as a ledge that extends downward from platform 24.
  • spreader 70 shown as a ledge that extends downward from platform 24.
  • moving release tab 104 inward engages locking arms 102a and 102b with spreader 70, moving the locking arms apart and disengaging gripping sections 105a and 105b from shaft 66.
  • Disengaging release tab 104 returns retaining clip 100 to a position as shown in FIG 5a.
  • a tool such as mechanized release peg may be used to apply a force that pushes release tab 104 inward, opening spring grip 102 for assembly or disassembly of insert 60 with base 20.
  • mechanized release peg may be used to apply a force that pushes release tab 104 inward, opening spring grip 102 for assembly or disassembly of insert 60 with base 20.
  • a puck as generally shown by the embodiment illustrated in FIG. 1 was produced.
  • the puck was tested for bottle stability using a swinging pendulum test rig that mimicked collision impact. Robustness and function of the puck were tested using a single head robotic test bed that was run over tens of thousands of cycles to replicate insert insertion and removal. The puck was found to perform effectively in such testing.

Abstract

L'invention concerne une palette de support (10), laquelle palette comprend : un élément rapporté amovible (60) qui comprend une paroi latérale d'élément rapporté (62), une paroi inférieure d'élément rapporté (64), et un arbre (66) qui s'étend vers le bas à partir de la paroi inférieure d'élément rapporté ; une base (20) qui comprend une paroi inférieure de base (26), une paroi latérale de base (22), et une plateforme intérieure (24) qui comprend une ouverture de plateforme (50) ; et une attache de maintien (100) qui comprend un élément de prise à effet ressort (102) et une languette de libération (104) accessibles par l'intermédiaire d'un orifice (23) dans la paroi latérale de base ; l'arbre s'étendant dans l'ouverture de plateforme et l'élément de prise à effet ressort s'étendant en dessous de la plateforme et venant en prise avec l'arbre de façon à fixer l'élément rapporté amovible à la base.
PCT/EP2017/054947 2016-03-15 2017-03-02 Palette pour porter un conteneur de produits WO2017157685A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US201662308396P 2016-03-15 2016-03-15
US62/308396 2016-03-15

Publications (1)

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WO2017157685A1 true WO2017157685A1 (fr) 2017-09-21

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20130214469A1 (en) * 2012-02-08 2013-08-22 Tension International, Inc. Container carrier
US8695791B2 (en) 2009-09-04 2014-04-15 Flexlink Components Ab Carrier puck
JP5659780B2 (ja) 2010-12-22 2015-01-28 日本電気株式会社 コンピュータ、コア割り当て方法およびプログラム

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US8695791B2 (en) 2009-09-04 2014-04-15 Flexlink Components Ab Carrier puck
JP5659780B2 (ja) 2010-12-22 2015-01-28 日本電気株式会社 コンピュータ、コア割り当て方法およびプログラム
US20130214469A1 (en) * 2012-02-08 2013-08-22 Tension International, Inc. Container carrier

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