Exemplary embodiments pertain to the art of packaging systems and, more particularly, to a process section of a packaging machine.
In-line continuous motion packaging machines are set up to process a particular package format. For example, a particular machine may be set up to process unsupported articles, articles supported on a pad, or articles supported on a tray. The machine may be adaptable for different package sizes, but typically not for different package types. More specifically, a packaging machine may include various changeover points that are adaptable for different package sizes. Different packaging sizes may accommodate different types, sizes, numbers and shapes of articles to be packaged in a particular packaging format.
Multi-format packaging machines are growing in popularity. A typical multi-format packaging machine will include a tray forming section. When in a tray package format, the tray forming section constructs a tray about a number of articles that may be subsequently wrapped with plastic. When in a pad package format or in an unsupported package format, the tray forming section is not needed. When not in use, the tray forming section may be lowered or removed from the packaging machine and replaced with a flight section. Lowering and/or removing the tray forming section is a labor intensive effort that requires many man hours and the use of material handling devices such as forklifts, jacks, and/or cranes, and the like. Further, once removed, there is a need to store the tray forming section which reduces available storage and work space about the machine.
Disclosed is a processing section of a packaging machine including a conveyor configured to be driven by a first drive member, and at least one additional conveyor including at least one tray folding member configured to selectively extend about and ride on the conveyor. The at least one additional conveyor is configured to be driven by a second drive member that is distinct from the first drive member.
Also disclosed is a system including a conveyor configured to be driven by a first drive member, and an additional conveyor configured to selectively extend about and ride on the conveyor, the at least one additional conveyor configured to be driven by a second drive member that is distinct from the first drive member.
The following descriptions should not be considered limiting in any way. With reference to the accompanying drawings, like elements are numbered alike:
A detailed description of one or more embodiments of the disclosed apparatus and method are presented herein by way of exemplification and not limitation with reference to the Figures.
A processing section of a packaging machine is indicated generally at 2 in
Product transport system 16 includes a first arm member 18 arranged on a first side of support member 10 and a second arm member 20 arranged on a second side of support member 10. First arm member 18 extends from a first end 22 to a second end 23. First end 22 includes a first pulley 24 and second end 23 includes a second pulley 25. First and second pulleys 24 and 25 may include a plurality of gear teeth (not separately labeled). First arm member 18 supports a first drive 28. Second arm member 20 extends from a first end 30 to a second end 31. First end 30 includes a first pulley 32 and second end 31 includes a second pulley 33. First and second pulleys 32 and 33 may include gear teeth (not separately labeled). Second arm member 20 supports a second drive 36. A bar 38 extends between first and second drives 28 and 36. Bar 38 moves along support member 10 to motivate products toward processing portion 6. It should be understood that the first and second drives may take the form of belts, chains, and the like that may carry and/or motivate bar 38 along support member 10.
First arm member 18 is coupled to a first adjustment assembly 40 and second arm member 20 is coupled to a second adjustment assembly 42. First and second adjustment assemblies 40 and 42 allow first and second arm members 18 and 20 to pivot about corresponding ones of first ends 22, 30. In this manner, bar 38 may be phased forward and/or rearward. For example, when in a tray processing configuration, as shown in
In an unsupported article processing configuration, such as shown in
As shown in
As will be detailed more fully below, additional conveyors 57-60 selectively extend about and ride on outer surface 47 of conveyor 46. More specifically, in the tray processing configuration first and third additional conveyors 57 and 59 define a first pair of additional conveyors 62 arranged on a first lateral side (not separately labeled) of conveyor 46, and second and fourth additional conveyors 58 and 60 define a second pair of additional conveyors 64 arranged on a second, opposing lateral side (not separately labeled) of conveyor 46. When in the unsupported or pad supported processing configuration, first and second pairs of additional conveyors 62 and 64 are shifted laterally outwardly of conveyor 46.
First additional conveyor 57 includes a first plurality of tray folding members 67 and second additional conveyor 59 includes a second plurality of tray folding members 68. Tray folding members 67 and 68 are arranged in aligned pairs that move along conveyor 46. Tray folding members 67 and 68 are pivotable and operated to fold a leading edge flap (not separately labeled) of a support tray blank (also not separately labeled) upward. More specifically, as articles supported on the tray blank are transferred to processing system 6 from lead-in system 4, tray folding members 67 and 68 interact with and fold the leading edge flap upward. It should also be understood that the additional conveyor could include other structure or could be devoid of any additional structure.
Third additional conveyor 59 includes a third plurality of tray folding members 69 and fourth additional conveyor 60 includes a fourth plurality of tray folding members 70. Tray folding members 69 and 70 are arranged in aligned pairs that move along conveyor 46. Tray folding members 69 and 70 are pivotable and operated to fold a trailing edge flap (not separately labeled) of the support tray blank upward. More specifically, as articles supported on the tray blank are transferred from lead-in system 4 to processing system 6, tray folding members 69 and 70 interact with and fold the trailing edge flap upward. Tray folding members 69 and 70 also assist in providing a motivational force to move the articles supported on the support tray blank onto conveyor 46.
Each of additional conveyors 57-60 are connected to a corresponding geared pulley such as shown at 71. Geared pulleys 71 are driven by a second drive member 72. Geared pulleys 71 interact with gear teeth (not separately labeled) provided on an underside (also not separately labeled) of each additional conveyor 57-60. In this manner, additional conveyors 57-60 maintain a desired relative alignment but also a desired timing relative to conveyor 46. In accordance with an aspect of an exemplary embodiment, first drive member 52 drives conveyor 46 at a first speed and second drive member 72 drives additional conveyors at a second speed. In accordance with another aspect of the exemplary embodiment, the first speed is distinct from the second speed. In accordance with another aspect of the exemplary embodiment, the first speed is less than the second speed.
Processing portion 6 also includes a first selectively deployable folding element 74 and a second selectively deployable folding element 75. First and second selectively deployable folding elements 74 and 75 are pivoted to fold corresponding first and second flap portions (not separately labeled) of the trailing edge flap of the support tray blank toward the leading edge flap. Processing portion 6 may also include a first selectively deployable compression assembly 90 and a second selectively deployable compression assembly 92. First and second selectively deployable compression assemblies 90 and 92 are arranged on lateral sides of conveyor 46 and, as will be detailed more fully below, operated to interact with the support tray blank to form a support tray (not separately labeled). First selectively deployable compression assembly 90 includes a first portion 96 and a second portion 97. Second portion 97 is arranged downstream of first portion 96. Similarly, second selectively deployable compression assembly 92 includes a first portion 99 and a second portion 100. Second portion 100 is arranged downstream of first portion 99.
First portion 96 of first selectively deployable compression assembly 90 includes a first angled lead-in section 104. Similarly, first portion 99 of second selectively deployable compression assembly 92 includes a first angled lead-in section 105. First angled lead-in sections 104 and 105 operate to fold corresponding first and second flap portions (not separately labeled) of the leading edge flap of the support tray blank toward the trailing edge flap. Second portion 97 of first selectively deployable compression assembly 90 includes a second angled lead-in section 107 and second portion 100 of second selectively deployable compression assembly 92 includes a second angled lead-in section 108. Second angled lead-in sections 107 and 108 operate to fold opposing side portions (not separately labeled) of the support tray blank toward one another and onto the first and second flap portions of corresponding ones of the leading edge flap and the trailing edge flap to establish a support tray form (also not separately labeled).
At this point, the support tray form is passed through a first plurality of compression members 111 provided on second portion 97 of first selectively deployable compression assembly 90, and a second plurality of compression members 112 is provided on second portion 100 of second selectively deployable compression assembly 92. Compression members 111 and 112 are positioned to urge the opposing side portions of the support tray blank onto the first and second flap portions of corresponding ones of the leading edge flap and the trailing edge flap to initiate a bonding process that forms the support tray. First and second selectively deployable compression assemblies 90 and 92 may be positioned relative to one another to accommodate a wide range of tray sizes. Further, additional compression members (not shown) may be arranged downstream of first and second selectively deployable compression assemblies 90 and 92 if a longer bonding time is desired.
Processing section 2 may also include a transfer plate 117 that bridges a gap (not separately labeled) between lead-in system 4 and processing portion 6. Transfer plate 117 is slidingly supported on one or more mounting rails 120 that extend substantially perpendicularly to a direction of movement of conveyor 46. It should be understood that additional transfer plates (not separately labeled) may also exist between processing section 6 and lead-off system 8. The additional transfer plates may be dropped into place across a gap (also not separately labeled) between processing section 6 and lead-off section 8 or slide into place on mounting rails (not shown). It should also be understood that the particular shape and arrangement of the mounting rails may vary. Mounting rails 120 allow for a rapid reconfiguration of processing section 2 between tray supported article processing, unsupported article processing, and pad supported article processing. In the tray processing configuration, transfer plate 117 includes a body 124 including a first tray slide 129 and a second tray slide 130. First and second tray slides 129 and 130 facilitate a transfer from lead-in system 4 and processing portion 6. Body 124 also supports first and second pairs of mounting elements 134 and 136. Each mounting element 134 and 136 includes a hook section 138 that may include a plurality of grooves 140. Grooves 140 reduce contact area between pairs of mounting elements 134 and 136 and mounting rails 120 to ease installation and removal of transfer plate 117. Of course, it should be understood that the number and form of the mounting elements may vary.
As noted above, processing section 2 is readily reconfigurable between the tray supported article processing configuration (
In addition to the outward shifting of additional conveyors 57-60, first compression assembly 90 is shifted to the first lateral side of conveyor 46 and second compression assembly 92 is shifted to the second lateral side of conveyor 46. In this manner, an unobstructed process flow path is established between lead-in system 4 and lead-off system 8. In addition, transfer plate 117 is replaced by a transfer plate 150 that is configured to lead unsupported articles from lead-in system 4 onto conveyor 46, as shown in
When reconfiguring from the unsupported article processing configuration (
At this point it should be understood that the exemplary embodiments provide a readily reconfigurable processing section for a packaging machine. More specifically, the processing section may be reconfigured, in thirty minutes or less between a tray supported article processing configuration, an unsupported article processing configuration and/or a pad supported article processing configuration. Moreover, reconfiguration may be done by one or more people without the need for support equipment such as cranes, jacks, forklifts, and the like.
While the invention has been described with reference to an exemplary embodiment or embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed as the best mode contemplated for carrying out this invention, but that the invention will include all embodiments falling within the scope of the claims.