The present invention relates to an arrangement for creating perforations in a roll of wrapping film (such as a plastic wrapping film for packaging foodstuffs) as it is being unwrapped and, more particularly, to the utilization of a rotating needle apparatus for creating perforations in a film as it is being unrolled.
Stretch wrap films of the prior art are used in connection with a wide variety of overwrap packaging applications. In many applications, these films are required to be air and moisture vapor permeable materials. Techniques have been developed to introduce through-holes (i.e., perforations) into the film for such a purpose. In order to make a thin film with perforations, the prior art generally included a stretching apparatus to thin-out the film and a separate “punching” apparatus for introducing perforations into the stretched film. One exemplary method of producing such films is disclosed in U.S. Pat. No. 6,296,469 issued to M. Suzuki et al. on Oct. 2, 2001. In the Suzuki et al. apparatus, a pair of punching rollers is used which sandwich the film between the rollers.
U.S. Pat. No. 4,765,120, issued to T. E. Phillips on Aug. 23, 1988 discloses a device for perforating a film while wrapping a load. In particular, the Phillips arrangement includes electrodes positioned proximate to the film and an arrangement for generating an arc across the electrodes to form the perforations in the film. Such an arrangement is not considered to be well-suited for situations where the presence of constant arcing may damage the product being wrapped, the wrapping machine and/or other products/machines in the general area of the arcing equipment.
Another type of perforating apparatus is disclosed in U.S. Pat. No. 5,802,945, issued to F. Brinkimeier et al. on Sep. 8, 1998, which describes the use of a series of “needles” to introduce perforations into a roll of film. In order to be able to create a variety of perforation patterns and/or holes of varying diameter in the film, a needle roller arrangement is used that includes several separate needle rollers arranged in a freely rotatable manner in a rotary frame. One of the needle rollers interacts with a brush roller for perforating a film which passes between the brush roller and the needle roller.
U.S. Pat. No. 5,935,681 issued to H. K, Paulett on Aug. 10, 1999 discloses another arrangement for forming “air permeable” stretch film, where in this case the film comprises separate first and second layers of polymeric film (linear low density polyethylene) which is capable of stretching at least 150% beyond its original length. The layers will naturally cling together to form a laminate. Perforations are formed in the laminate by applying a “hot pin” to the laminate, whereby the polymeric film is melted. As the melt hardens, the perforations become defined by the welds, or reinforcements, which add strength to the film.
Laser-based systems have also been developed for creating perforations of a known, controlled sized along a roll of wrapping film (usually a plastic material, although other film materials may be used). See, for example, U.S. Pat. No. 6,730,874 issued to E. Varriano-Marston on May 4, 2004. In operation, a roll of plastic film is fed into a laser perforation apparatus, where the film is unrolled and perforated and thereafter taken up on an output reel. The laser-perforated roll is then ready for use at the food packaging machine.
One problem with many of these film perforation arrangements is that the perforating apparatus is generally not co-located with the items being wrapped; delays may occur in obtaining the perforated film at the plant where the wrapping is taking place. Further, the need to completely unroll and then re-roll the plastic film during the prior art perforation processes tends to create stress across and along the film, creating folds, offsets in the wrapped layers, and the like, which may lead to tears or other problems during the actual wrapping process.
Thus, a need remains in the art for an improved arrangement for creating perforations in the film used to wrap food products.
The need remaining in the prior art is addressed by the present invention, which relates to an apparatus for creating perforations in a roll of film as it is being unwrapped and, more particularly, to the utilization of a rotating needle apparatus for creating perforations in a film as it is being unrolled
In accordance with the present invention, a rotating perforation apparatus containing a plurality of needle points (or other piercing features) is positioned to contact the film while it is being unrolled and is in a ‘tensioned’ state (in some embodiments, immediately prior to contacting the element to be wrapped). In one embodiment, the rotating perforation apparatus is disposed along a bar which contacts a film roller and makes the perforations in the film as it travels across the film roller. As long as the film roller is formed of a pliable material, the needles will pierce the film and create the desired perforations. The size and placement of needles can be adjusted to provide the required pattern of perforations, as well as dictate the size of the actual perforations.
It is an advantage of the present invention that a conventional film roller (which is a mechanically-driven apparatus) is used to effectuate the unrolling of the film from its stock “roll”. Therefore, in performing the perforation process of the present invention, the rotating perforation apparatus is “free-wheeling” (i.e., not driven) such that when it is placed against the driven film roller, the rotating perforation apparatus will naturally counter-rotate against the driven film roller and allow for the needle points to rotate against the film at essentially the same speed as the film is unrolling-eliminating the possibility of tears or jams occurring during the perforation step.
In one embodiment, the apparatus of the present invention may be used in an in-line fashion, applying perforations immediately prior to the film being placed over the item(s) being wrapped. Alternatively, the apparatus of the present invention may be used to form a large roll of perforated film which is thereafter used to wrap various items. Indeed, in one embodiment discussed in detail below, the needle points may be arranged along the perforation apparatus such that different sections of the film will receive different perforation patterns (including, perhaps, not forming perforations along selected widths of the film). The ability of the perforation method of the present invention to modify the perforation pattern is especially well-suited when used with the “large roll” of film, which may then be cut into smaller sections, each section have a different, pre-defined perforation pattern.
In a preferred embodiment, the perforation apparatus includes a plurality of “rings”, each ring have a number of needle points disposed around the periphery thereof. The rings are inserted along a cylindrical support bar, which then forms the rotating perforation apparatus. The rings and support bar may further include a keying arrangement to ensure for alignment between the plurality of rings inserted along the bar (the alignment of the rings thus defining the perforation pattern that will be formed in the film). The rings may be re-configured in their placement to achieve different perforation patterns and, in one embodiment, may be interspersed with rings not including any needles, allowing for sections of a film to not be perforated as it passes between the driven film roller and the rotating perforation apparatus.
Other and further embodiments and advantages of the present invention will become apparent during the course of the following discussion and by reference to the accompanying drawings.
Referring now to the drawings, where like numerals represent like parts in several views,
In the view of
The rotation of support bar 30 against driven roller 16 will therefore bring needle points 28 into contact with film 14 as it passess over roller 16 (see
In the particular embodiment of the present invention shown in
It is to be understood that there exist many other arrangements for attaching rotating perforation apparatus 20 to a film unrolling apparatus (such as apparatus 10), where these attachment arrangements may be either permanent or removable. As long as perforation apparatus 20 is free to rotate against a driven film roller with a pliable surface, the action of creating perforations in an unrolling film will take place in accordance with the teachings of the present invention.
While needle points 28 may be directly formed on the support bar, a preferred embodiment of the present invention utilizes a perforation member 26 consisting of a plurality of separate rings 40 which may be placed alongside one another to form member 26.
It is to be understood that various other arrangements may be used to hold the needle points in position. Indeed, while the preferred embodiments may utilize removable needles, it is possible to utilize a perforation element with permanently-fixed needle points, where the entire element is then replaced when necessary.
As mentioned above, the arrangement of the present invention is capable of providing “in-line” perforation of wrapping film - that is, creating perforations in the film as it is being unrolled and presented to the product-to-be-wrapped. Alternatively, the arrangement of the present invention may be used to create rolls of perforated film which are then inventoried and used at a later date/location to wrap product. In the latter case, an extended width stock roll may be perforated, and then “sliced” into smaller widths which are used for various products. Advantageously, the perforation apparatus of the present invention may be configured to modify the perforation pattern across the width of the film, thus creating the ability to apply a number of different perforation patterns, each pattern associated with a different “slice” when the extended width stock roll is separated into its separate components.
It is to be understood that various other combinations of needle point patterns and blank spacings may be used in creating any desired perforation pattern along the perforation apparatus of the present invention. For example,
Indeed, the scope of the present invention is seen to include any type of in-line arrangement disposed adjacent to a driven roller associated with unrolling a wrapping film, allowing for perforations to be made in the film as it is passing over the driven roller, eliminating the need for a separate “perforating” process to be employed. While various ones of the preferred embodiments of the present invention have been described above, it is to be understood that the spirit and scope of the present invention is only to be limited by the claims appended hereto.
This application is a continuation of U.S. application Ser. No. 12/217,576, filed Jul. 7, 2008, which claims the benefit of US Provisional Application No. 61/066,042, filed Feb. 14, 2008.
Number | Date | Country | |
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Parent | 12217756 | Jul 2008 | US |
Child | 14315116 | US |