The COVID19 pandemic has identified a litany of merchant processes and products where health safety is a concern for the merchant, the merchant's employees, and the merchant's customers. Face-to-face merchant to customer interactions have been reduced with revised processes and common touched surfaces are now regularly sanitized.
Consumers have changed their behaviors as well and are frequenting those merchants that are health safety conscious. In fact, demand for online ordering (food and products) has exploded during the pandemic so much so that merchants cannot keep up with the demand.
Many merchant offered services and products now include safety labels as proof to the consumers that their food service items, products, or hotel rooms have not been tampered with and/or have been sanitized. However, these safety labels can create additional issues for the merchants.
For example, a dine-in restaurant, which previously did a few carryout orders a week requiring a few labels is now experiencing nearly all carryout orders with little to no dine-in customers requiring a plentiful supply of label media. This means that the staff is now primarily focused on food preparation and packaging for delivery or pickup. Handling of food items requires safety gloves be worn by the staff but the food packager can waste a pair of safety gloves each time an order is packaged because the glove sticks to the adhesive on the back of the label when the label is separated from its liner.
A glove stuck to a label may rip/tear the label when the packager attempts to separate the glove from the label adhesive, or the glove may rip/tear leaving a piece of the glove on the label. This usually requires the label to be reprinted (especially when the label is a safety label that includes tamper evident features, which intentionally weaken portions of the label so that the label cannot be taken off and reapplied to the food packaging after the label was initially applied to the packaging).
This is not only wasteful but time consuming and expensive for the merchant.
In various embodiments, labels and rolls of labels with separation features are provided.
Specifically, and in an embodiment, a label-liner combination with a separation feature is provided.
As used herein the term “media” may be used synonymously and interchangeably with the phrase “print media.” Print media comprises a substrate for which at least one side includes a deposited print coating or image coating. The substrate of the media may comprise a paper-based material and/or a synthetic-based material. The print coating enables dot matrix or laser-based printing of custom indicia. The image coating enables thermal imaging either through direct thermal heat or through terminal transfer heat selectively applied on the surface of the media having the image coating. The media also may include preprinted branding or designs that is Ultra-Violet (UV) flexo printed during the manufacturing process.
A “liner” comprises a backing or a sheet of material to which the print media (label) is initially adhered to. Typically, the “liner” or “release liner” is a paper-based and/or a plastic based film applied to the backside of the print media during manufacture of a label-liner combination and designed to prevent adhesive coated on the backside of the print media from prematurely adhering to an object before a label associated with the print media is affixed to an object during application. A front side of the liner may also be coated with a release agent or release coating, which prevents the adhesive on the backside of the print media from adhering and/or prematurely activating until the label is separated from the label-liner combination for application.
One or more “labels” may be manufactured using a single sheet of liner as a roll of label-liner combinations or one or more labels may be manufactured using individual sheets of a liner (as used herein and below, the phrase “label-liner combination” may be used synonymously and interchangeably with the phrase “liner-label” combination).
Referring now to the label-liner combination 100 (“combination 100”) of
The label 120 may or may not comprise die cuts or back cuts 121 within the substrate of the print media. (“Die cuts 121” may also be referred to as “back cuts 121” and/or “perforations 121.”) These die cuts 121 provide tamper evident features for label 120 by weakening the substrate of the label 120 along the die cuts 121 such that when the label 120 is removed from liner 120 and adhered to an object (bag, box, door slits, toilet seats, bottle lids/caps, etc.) the label 120 is damaged (torn or ripped) along the die cuts 121, which provides visual evidence that the object was opened or used. This is particularly useful during the COVID19 pandemic by providing intended recipients of the object or users of the object with verifiable visible evidence that the object was not tampered with or used by anyone after the label 120 was initially applied.
Liner 110 comprises a die cut made within the liner substrate representing die cut portion 111 in liner 110. The die cuts associated with portion 111 is aligned to one or more edges of both the liner 110 and the label 120. This provides a unique glove-friendly separation feature for the label 120 of combination 100. When label 120 is separated from liner 110 for application by a merchant, the user grabs or provides a slight push downward (using a thumb or gloved thumb) at a corner associated with die cut portion 111 causing an edge of label 120 to be removed from the combination 100 with a separated portion 111 remaining affixed to that edge of label 120 after label 120 removal from combination 100. This leaves a hole or an aperture in the remaining liner 110 that is wound by the printer for subsequent discard or recycling.
The user can then apply the label 120 to an object by grasping the removed label 120 in the gloved hand while pinched between two fingers or a finger and a thumb (digits of a hand) from a front side of label 120 and a backside of the liner 110 corresponding to removed portion 111 of liner 110. The backside of the removed label 120 that does not correspond to the attached portion 111 comprises adhesive, such that as the user handles the removed label 120 there is no contact between the adhesive and the user's hand (gloved or ungloved). The label 120 can then be applied to the desired object and using the control hand a small area 113 of portion 111 that extends beyond an outer edge of label 120 can be grasped and used to peel portion 111 off of the label 120. The entire label separation from combination 100 and label application process can be achieved with one user's hand without any portion of the user's gloved or ungloved hand coming in contact with the adhesive coating on the backside of label 120.
This provides a superior feature (via portion 111) to combination 100, which is presently not available in the industry and which is especially relevant during the COVID19 pandemic as discussed above.
The size (dimensions), location, and orientation of die cuts for portion 111 relative to the edges of the liner 110 and edges of the label 120 are of import for a variety of reasons.
For instance, when label 120 is imaged or printed on by a printer (thermal, laser, or dot matrix), the liner 110 remains in the printer and is automatically wound into a discard roll as each label 120 is removed from label-liner roll 130 (see
In another instance, when labels 120 comprise tamper-evident die cuts 121, the size, location, and orientation of die cuts for portion 111 relative to those tamper-evident die cuts are of import because removal of label 120 with portion 111 from combination 100 can result in a tear in the label 120 along one or more of the die cuts 121 causing label 120 to be unusable for its intended purpose. Consequently, remaining holes in liner 110 created when portions 111 are removed from combination 100 can cause destruction of a label 120 having tamper-evident die cuts 121.
Thus, dimensions (size), location, and orientation of the die cut portion 111 within a liner web directly correlates with the structural and operational integrity of a remaining waste portion of the liner web by a printer and also directly correlates to safe handling of label 120 when a user removes the label 120 and applies the label 120 to a surface (an opening of an object or the object itself).
Area 112 of used liner 110 is sufficient enough to ensure that both edges of the feed mechanism can grasp used liner 110 for feeding liner 110 into its discard roll after removal of portion 111.
Moreover, area 113 is sufficient enough that a user applying label 120 and removing label 120 with portion 111 can grasp area 113 while applying the label 120 to an object and peel portion 111 away from label 120 without tearing label 120 and without damaging any tamer-evident die cuts 121 during application of label 120 to an object.
In an embodiment, a first offset 115 between a first side of label 120 and a first side of liner 110 is greater than a second offset 114 between a second side of label 120 and second side of liner 110. This provides structural integrity to the waste liner in the waste liner after label 120 is removed from combination 100 with die cut portion 111 remaining attached to the removed label 120. In other words, the liner 110 or liner web (web or roll of liner 110) comprises a hole or aperture after portion 111 is removed with label 120. The distance or the offset 115 between the side of liner 110 and the side of label 120 is greater than the distance or offset 114 on the opposite side of liner 110 and label 120. This allows for added space 112 between an aperture edge of liner 110 that is defined when the portion 111 was removed and the side of the liner 110. This added space 112 when compared with 114 is greater which allows the waste liner to maintain integrity and remain in alignment when a printer's waste liner spooling mechanism winds the waste liner into a waste or recycle spool for subsequent discarding. In this embodiment, the alignment of a backside of label 120 is offset so as to not be centered onto the frontside of liner 110 when the combination 100 is formed or manufactured.
Although offsets 114 and 115 are not illustrated in
One now appreciates how label 120 provides a glove-friendly and handling feature, which permits each label 120 to be separated from a liner 110 along a remaining portion 111 of liner 110 without a user touching adhesive coated on a backside of label 120. Portion 111 provides a handling and non-adhesive component for separating label 120 and applying label 120 to an object. Area 113 allows removal of portion 111 after applying label 120 to the object without a user's gloved hand or ungloved hand engaging adhesive coated on the backside of label 120.
Moreover, the used portion of liner 110 can be fed back into a liner discard spool without causing printer malfunction because the used portion of liner 110 remains engaged with the fed mechanism and the dimensions, location, and orientation of a hole left in used liner 110 after portion 111 is removed ensures proper engagement and balance by the printer's feed mechanism.
In an embodiment, portion 111 is of a square shape, a rectangular shape, or a circular shape.
At 210, the press die cuts first portions 111 of a liner web of material 110.
At 220, the press applies an adhesive coating to a backside or print media.
In an embodiment, at 221, the press applies a thermally activated print coating to a frontside of the print media.
At 230, the press applies a release coating to a frontside of the liner web 110.
At 240, the press aligns each first portion 111 to overlap at least one edge of an individual label 120 defined in the print media.
At 250, the press affixes the backside of the print media to the frontside of the liner web 110 to form a roll 130 of combinations 100.
It is to be noted that the steps of the method 200 may be changed or arranged differently without departing from the embodiments discussed herein and above.
It is further to be noted that the press may utilize print media that was pre-manufactured with a layer or coating of the thermally activated print.
One now appreciates how label-liner combinations 100 provided as labels 120 and liners 110, in sheets and/or rolls 130 are manufactured and subsequently imaged by printers (dot matrix, laser, and/or thermal) with customized indicia for purposes of applying to surfaces associated with openings to items/objects and/or associated with packaging of objects. In some cases, labels 120 comprise tamper-evident die cuts 121, which cannot be removed from the corresponding surfaces of objects to which they are applied without being damaged, torn, or broken. Damaged labels 120 (torn or broken) provides visible evidence that the items/objects have been opened and/or that the objects have been accessed.
Further, the combinations 100 provide a health safety and glove friendly separation feature via die cut portions 111 ensuring that a user can remove label 120 and apply label 120 without digits of the user's operating hand touching adhesive coated on a backside of label 120 (portions 111 providing an adhesive-free region on a removed label 120 for handling).
Still further, dimensions, location, and orientation of portions 111 ensure that the waste liner comprising holes (for the removed portions 111) maintain proper structural integrity and alignment in the waste liner such that a printer's liner waste spool operations and waste spool infeed mechanism does not jam or otherwise malfunction while winding the waste spool after application.
The labels 120 and liners 110 in the combination 100 can be used in a variety of industry applications from package delivery, food preparation, hospitality, etc.
Although the present invention has been described with particular reference to certain preferred embodiments thereof, variations and modifications of the present invention can be affected within the spirit and scope of the following claims.