Patent Application
20070221527
The present invention relates generally to cutting blades, in particular a package for storing and handling cutting blades.
In the meat-processing industry the productivity and overall yield of a meat-processing plant depends on a number of factors, including the efficiency of the equipment being used, particularly the sharpness of the blades utilized to cut the meat. The cutting blades have a tendency to wear after being used for a period of time, making it necessary to regularly replace them in order to maintain the desired productivity and yield. Meat cutting equipment is typically designed to utilize cutting blades that can be quickly removed and replaced with new ones as the need arises.
A meat processing plant will usually keep a number of new blades on hand in order to facilitate their rapid replacement in the cutting equipment as they dull. The processing plant will also typically have a number of used blades that must be stored or disposed of in a safe manner. Storing and handling both new and used cutting blades can be problematic, since they pose a safety risk to workers due to their sharpness.
It is also important to store and handle new cutting blades so that they are not contaminated by incidental contact with inappropriate materials, since the blades are intended for use in food processing. A further concern is that contact of the blades with certain contaminants may cause premature blade wear or failure.
Accordingly, there is a need for a way to package newly-manufactured cutting blades so that they can be safely handled with little or no damage or contamination. There is a further need for a way to package used cutting blades for handling and storage.
The present invention is a combination hot and cold seal package for cutting blades that comprises a first flexible layer having a substrate that includes an aqueous-based acrylic adhesive that is applied in a pattern of spaced-apart strips. A second flexible layer likewise includes a substrate having an aqueous-based acrylic adhesive that is applied to the film in a pattern corresponding to that of the first layer. The first and second layers are assembled such that the strips of the first and second layers are aligned with each other. Pressure is applied to the aligned assembly, causing the adhesive strips to bond together. Spaces between the strips define adhesive-free pockets for retaining cutting blades. A heat seal is applied to the packaging along edges transverse to the strips, sealing off open ends of the pockets. Perforations are provided in the packaging, generally bisecting the interior adhesive strips. The perforations allow select portions of the package to be opened and the blades to be dispensed individually.
An aspect of the present invention is a flexible package. The flexible package comprises a first flexible layer having a first substrate with a first group of longitudinal spaced-apart adhesive strips disposed thereupon and a second flexible layer having a second substrate with a second group of longitudinal spaced-apart adhesive strips disposed thereupon. The second group of adhesive strips are generally aligned with and joined to the first group of adhesive strips to form a plurality of generally monolithic longitudinal spaced-apart seal strips. A first transverse heat seal is formed along a first edge defined by the first and second flexible layers, and a second transverse heat seal formed along a second, opposing edge defined by the first and second flexible layers. At least one series of longitudinal perforations bisect at least one seal strip, and at least one series of transverse perforations are oriented generally parallel to and proximate one of the first and second heat seal. One or more objects are detachably and releasably retained by the package, the objects being disposed and retained between the first and second flexible layers and located between the seal strips.
Another aspect of the present invention is a method for packaging objects. The method comprises the steps of applying a first group of longitudinal spaced-apart adhesive strips to a first substrate to form a first flexible layer and applying a second group of longitudinal spaced-apart adhesive strips to a second substrate to form a second flexible layer. Objects to be packaged are placed upon the first substrate, in void areas between the first group of adhesive strips. The first and second groups of spaced-apart adhesive strips are aligned with each other and joined together to form a plurality of generally monolithic longitudinal spaced-apart seal strips. A first transverse heat seal is formed along a first edge defined by the first and second flexible layers. A second transverse heat seal is formed along a second, opposing edge defined by the first and second flexible layers. At least one seal strip is bisected with a series of longitudinal perforations, and at least one series of transverse perforations are made that are oriented generally parallel to and proximate one of the first and second heat seal. The objects are detachably and releasably contained by the package, the objects being disposed and retained between the first and second flexible layers and located in void areas between the seal strips.
Further features of the inventive embodiments will become apparent to those skilled in the art to which the embodiments relate from reading the specification and claims with reference to the accompanying drawings, in which:
Referring to
Substrates 18, 24 may be any suitable flexible material, such as polypropylene, polyethylene and polyester. In one embodiment a low density polyethylene (LDPE) about 0.005 inches thick is utilized for substrates 18, 24. Substrates 18, 24 may be clear or opaque.
Adhesive 16a, 16b may be any cold seal adhesive of suitable thickness that adheres to substrates 18, 24 and exhibits suitable cohesive properties. Cold seal cohesive adhesive 16a, 16b is configured to seal with pressure alone. Accordingly, when cohesive adhesives 16a and 16b come into contact with each other they will adhere to one another, forming a seal. In one embodiment adhesive 16a, 16b is an aqueous-based acrylic adhesive about 0.0003 to 0.001 inches thick. Adhesive 16a, 16b may be selectively applied to substrates 18, 24 to form adhesive strips 20, 26 by any conventional process, including screen printing, spraying, blade coating and roll-coating. In one embodiment of the present invention adhesive strips 20, 26 are each applied continuously along the length of corresponding rolls of substrates 18, 24 respectively, the first and second layers 12, 14 respectively each being cut to a predetermined length.
With reference to
With reference now to
In use, package 10 protects cutting blades 30 from environmental contamination or damage during handling while protecting a user from injury due to contact with the blades. When a cutting blade 30 is needed, the user separates a portion of package 10 along a selected series of longitudinal perforations 42, detaching a selected number of blades from the package as shown in
Envelope 48 may be made from any suitable material such as, for example, polypropylene, polyethylene and polyester and is preferably generally clear so that its contents may be viewed without the need to open it. Fastener 52 may be any conventional type of releasable fastener including, without limitation, snaps, clasps, adhesives and hook-and-loop.
While this invention has been shown and described with respect to a detailed embodiment thereof, it will be understood by those skilled in the art that changes in form and detail thereof may be made without departing from the scope of the claims of the invention. For example, the flexible packaging described herein may be utilized to contain objects other than cutting blades. Examples include, without limitation, hardware, commercial goods and food products.
