Patent Grant
6922977
This invention pertains to packaging machines, and more particular to blister packaging machines where blisters packages are filled and fastened or sealed shut.
Blister packages are used to individually package a variety of different products. Blister packages typically comprise two pieces which are referred to as a blister on one side (e.g. a plastic carton often having a formed cavity to receive product) and a card on the other side (e.g. a panel of plastic, cardboard, or other suitable material and which is often planar).
Blister packaging machines such as those made by Alloyd Co., Inc are used to fully or substantially automate the process of forming blister packages. Using a blister packaging machine, the steps for forming a blister package typically include placing a blister in a nesting tray, placing product into the cavity in the blister, placing a card on the blister, fastening the card to the blister to enclose the product, and then outputting formed blister packages off the machine.
The common implementation of a blister packaging machine comprises a rotary turntable that rotates individual nesting trays through different stations along an endless circular path. There are two different types of blister packaging machines that are commercially available, including a six station blister packaging machine such as Model 6SC1216 made and sold by Alloyd Co., Inc. and an eight station blister packaging machine such as Model 8SC 1216 made and sold by Alloyd Co., Inc. Eight station blister packaging machines provide for more options and features for the blistering packaging process. However, to provide this additional room to accommodate additional features, eight station blister packaging machines have required a larger rotary turntable, which in turn requires a larger footprint in a manufacturing plant. Eight station machines also inherently include some extra expense to provide additional features and options.
Due to these space and cost drawbacks, many manufacturers often will purchase and employ six station blister packaging machines. In six station blister packaging machines, the available space is a lot tighter and it is more difficult to accomplish the necessary blister packaging operations on a single machine. As a result, some operations such as offloading formed blister packages from nesting trays and loading new blisters into nesting trays are performed at the same station. Because the formed blister packages are output off the rotary turntable to the outside of the machine, the blister packaging offloading operation and components are provided at the outside of the machine. As a result, the blister loading operation is performed at the inside of the machine. With this arrangement, the blister magazine, which holds individual blisters, is positioned on the inside of the machine toward the center of the turntable. Unfortunately, this requires workers to load the magazine from the inside of the machine. Therefore, temporary shutdown of the machine may be needed to refill the magazine. Further, because the load end of the magazine is facing toward the inside of the machine, this requires workers to lean over the rotary turntable to fill the blister magazine. These drawbacks have long existed without a suitable solution.
One embodiment of the invention provides a blister packaging machine with a load and offload mechanism at the same station that allows for easier filling of the blister magazine from the outside of the machine rather than from the inside of the machine.
An embodiment of the present invention is directed toward a blister packaging machine of the type that comprises a rotary turntable having a plurality of nesting trays arranged around the rotary turntable that are adapted to receive individual blisters. A plurality of stations are arranged around the turntable such as product filling stations for placing product into the blisters. A card placing mechanism is arranged at one of the stations downstream of the product filling stations to place a card on the blister. A fasten mechanism fastens and may seal the placed card to the blister to form a blister package.
In accordance with an embodiment of the present invention, a blister magazine projects radially outward from a pick end toward a load end such that the magazine can be filled from the outside of the machine. Blisters are picked from the magazine at the pick end while blisters can be loaded into the magazine from the outside of the rotary turntable at the load end. A load mechanism includes a first pick head carried upon a first pivot body. The first pivot body moves about a first pivot axis between a first pick position proximate the pick end and a second offload position proximate a proximate one of the nesting trays, such that movement of the load mechanism is adapted to transfer blisters from the magazine to the nesting trays. An offload mechanism is arranged at the same station as the load mechanism. The offload mechanism includes a second pick head carried upon a second pivot body. This second pivot body moves about a second pivot axis between a second pick position proximate the proximate one of the nesting trays and an offload location radially outward of the rotary turntable for outputting formed blister packages from the machine.
Other aspects, objectives and advantages of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
Referring to
The machine 20 includes a stationary support frame 22 and a rotary turntable 24. Referring to
The rotary turntable 24 includes a plurality of nesting trays 32 mounted thereto that are spaced at equal angular intervals radially about the rotary turntable 24. The nesting trays 32 are configured to receive and support individual blisters 34. The number of nesting trays 32 depends upon the number of stations provided by the blister packaging machine 20. Because six stations are shown on the disclosed embodiment, six nesting trays 32 are mounted to the rotary turntable 24 such that one nesting tray 32 is disposed at each different station at any given time (other than when the machine is indexing positions).
The machine includes a plurality of stations arranged around the blister packaging machine 20. Three of the stations are product filling stations 36 where workers or machines can load or fill product into the cavities of blisters 34 situated in the nesting trays 32. Other stations provide for a card placing mechanism 38, a fasten mechanism 44, a blister load mechanism 50 and a blister package offload mechanism 52.
The card placing mechanism 38 is arranged downstream of the product filling stations 36. The card placing mechanism 38 operates to pick cards 40 from a card magazine 42 and places the cards 40 over the top of the blister 34 to enclose the product inside the cavity of the blister 34. The card placing mechanism 38 may be arranged at its own station 39 as is shown, immediately downstream of the product filling stations 36.
The fasten mechanism 44 such as a hot seal press or other suitable mechanism (the actual fasten mechanism used depends upon the type of blisters and cards used) is also arranged downstream of the product filling stations 36. The fasten mechanism 44 is adapted to secure the card 40 to the blister 34 to form the blister package 46. In the disclosed embodiment, the fasten mechanism 44 is disposed at its own station 45 immediately downstream of the card placing station 39.
A combination load/offload station 48 is arranged downstream of the product filling stations 36. Because the rotary turntable 24 provides an endless circular path, this station 48 is at the end of the blister packaging process for a formed blister package 46 and is also simultaneously at the beginning of the blister packaging process for a new blister 34. The load/offload station 48 comprises a load mechanism 50 adapted to load blisters 34 into the nesting trays 32. The load/offload station 48 also comprises an offload mechanism 52 adapted to offload completed blister packages 46 from the nesting trays 32 into a collection bin 47. Therefore, two different machine operations are performed at a single station on the machine.
To facilitate loading of new blisters 34 into the nesting trays, the load/offload station 48 also includes a blister magazine 54 that is adapted to hold blisters 34 in a ready pick position. In accordance with an embodiment of the present invention, the blister magazine 54 projects radially outward from a pick end 56 toward a load end 58. The pick end 56 of the blister magazine 54 presents individual blisters 34 to the load mechanism 50 for a pick and placement operation. The load mechanism 50 is operable to pick blisters 34 and place the blisters 34 in the nesting trays 32.
The load end 58 of the magazine 54 provides an entrance to the blister receptacle of the magazine 54 that holds blisters 34. Advantageously, the load end 58 is strategically arranged in a more ergonomic location, in which the load end 58 faces toward the outside of the machine rather than the inside of the machine. The load end 58 is also outboard of the rotary turntable 24. With this arrangement, the load end 58 can be readily reached for manual reloading without bending over the rotary turntable 24 and without having to shutoff the machine 20. As blisters 34 contained the blister magazine 54 are depleted, a worker can easily fill new blisters 34 into the blister magazine 54 without having to shut down the machine with greater comfort and ease. The blisters 34 naturally slide down via gravity from the load end 58 toward the pick end 56.
The load mechanism 50 and offload mechanism 52 are structurally configured and arranged to work one inside of the other to provide clearance for the novel and improved ergonomic orientation of the blister magazine 54. By working one inside of the other and with controlled movements, the movements of the load mechanism 50 and offload mechanism 52 do not interfere with each other while at the same time providing both blister loading and blister package offloading functions at the same station.
Referring to
During operation, the pick head 62 is pivoted to place the front end (the suction end) of the pick head 62 toward the pick end 56 of the blister magazine 54 to pick new blisters. The pick head 62 is also pivoted the reverse direction to place the front end of the pick head 62 toward the nesting tray 32 (disposed at the load/offload station during a cycle) to drop. individual blisters 34 into the nesting trays 32. In a preferred embodiment, this is accomplished automatically as the pivot arms 68 cyclically oscillate back and forth between the blister magazine 54 and the nesting trays 32. More specifically, a third stationary hinge 72 mounted on the frame 22 defines a further pivot axis that pivotally supports a guide arm 74 at one end. At the other end, the guide arm 74 acts on the pick head 62 through a linear slide bushing such that the guide arm 74 is slidably mounted to the pick head 62. During rotation of the pivot arms 68 between pick and load positions (see FIG. 3), the guide arm 74 automatically acts upon the pick head 62 to automatically pivot the pick head 62 toward the nesting trays 32 when proximate thereto and the pick end 56 of the blister magazine 54 when proximate thereto.
Advantageously, the pick head 62 and pivot arms 68 of the load mechanism 50 are driven by the same actuator 26 and by the same shaft 28 that drives the geneva type drive. As illustrated, the movement of the pick head 62 and pivot arms 68 are mechanically linked through a timing mechanism to the actuator mechanism 26 that drives the rotary turntable 24 such that the pivoting movements of the pick head 62 are synchronized with the indexing movement of the rotary turntable 24. Referring to the timing and actuating transmission mechanisms, the pivot arms 68 are driven by a crank arm 76 which is driven by a endless chain gear train 78 (1:1 gear ratio) by the output shaft 28 to offset the crank arm 76 from the output shaft 28. A vertically extending actuation rod 80 that is pivotally connected to the crank 76 at one end and the pivot body 64 at the other end. The crank 76 vertically drives the actuation rod 80 upwardly and downwardly to convert rotary motion to linear motion. This also cyclically accelerates and decelerates the pick head 62 with the pick head coming to a virtual stop at the ends of the oscillating movement (i.e. the moving speed of the pick head 62 generally follows a SIN wave). As a result, the pick head 62 is operable to pick a new blister 34 and drop off a formed blister package 46 when at a virtual standstill position.
The offload mechanism 52 includes a second pick head 84. The second pick head 84 may include a vacuum or suction device or other suitable gripping device such that the pick head 84 is operable to pick, hold and then release formed blister packages 46. This pick head 84 is carried upon another pivot body 86 that is pivotally mounted to the frame 22 via a hinge 88 (e.g. a shaft extending horizontally between a pair of bushing mounts) for pivoting movement about horizontal pivot axis about the hinge 88. The hinge 88 for the second pivot body 86 may be located below the hinge 66 of the first pivot body 64. The second pivot body 86 includes a plurality of extension arms 90 that are spaced between the laterally spaced pivot arms 68 of the first pivot body 64, such that the second pick head 84 and pivot body 86 can work inside of the first pivot body 64 without contact or interference.
The movement of the second pivot body 86 and pick head 84 are shown in
All references, including publications, patent applications, and patents, cited herein are hereby incorporated by reference to the same extent as if each reference were individually and specifically indicated to be incorporated by reference and were set forth in its entirety herein.
The use of the terms “a” and “an” and “the” and similar referents in the context of describing the invention (especially in the context of the following claims) are to he construed to cover both the singular and the plural, unless otherwise indicated herein or clearly contradicted by context. The terms “comprising,” “having,” “including,” and “containing” are to be construed as open-ended terms (i.e. meaning “including, but not limited to,”) unless otherwise noted. Recitation of ranges of values herein are merely intended to serve as a shorthand method of referring individually to each separate value falling within the range, unless otherwise indicated herein, and each separate value is incorporated into the specification as if it were individually recited herein. All methods described herein can be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context. The use of any and all examples, or exemplary language (e.g., “such as”) provided herein, is intended merely to better illuminate a preferred embodiment of the invention and does not pose a limitation on the scope of the invention unless otherwise claimed. No language in the specification should be construed as indicating any non-claimed element as essential to the practice of the invention.
Preferred embodiments of this invention are described herein, including the best mode known to the inventors for carrying out the invention. Variations of those preferred embodiments may become apparent to those of ordinary skill in the art upon reading the foregoing description. The inventors expect skilled artisans to employ such variations as appropriate, and the inventors intend for the invention to be practiced otherwise than as specifically described herein. Accordingly, this invention includes all modifications and equivalents of the subject matter recited in the claims appended hereto as permitted by applicable law. Moreover, any combination of the above-described elements in all possible variations thereof is encompassed by the invention unless otherwise indicated herein or otherwise clearly contradicted by context.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3195284 | Crane, Jr. | Jul 1965 | A |
| 3946537 | Hair et al. | Mar 1976 | A |
| 5329750 | Bagley et al. | Jul 1994 | A |
| 5379572 | Giovannone | Jan 1995 | A |
| 5404693 | Giovannone | Apr 1995 | A |
| 5522505 | Giovannone | Jun 1996 | A |
| 5600939 | Giovannone | Feb 1997 | A |
| 5623816 | Edwards et al. | Apr 1997 | A |
| 6604342 | Appelbaum | Aug 2003 | B1 |
| Number | Date | Country | |
|---|---|---|---|
| 20040261371 A1 | Dec 2004 | US |
