The present disclosure is directed to products, systems and methods for applying a tag or other label/indicia to an item, particularly an item with a circular, elliptical or irregular cross-section. The tag may take various forms, including those described in commonly assigned U.S. Pat. Nos. 9,262,710 and 8,490,882. The contents of the foregoing '710 and '882 patents are incorporated herein by reference. The tags may be secured to a variety of items, e.g., hoses, pipes, equipment, powered industrial units, and the like. The disclosed products, systems and methods allow the tag/label/indicia to be secured permanently relative to the item in an easy and efficient manner. In addition, the securement mechanism is generally susceptible to only a single use and is disabled and/or ineffectual if the securement is “reversed/undone” and reuse of the securement mechanism is attempted.
In industrial environments, there is a widespread need to secure tags/labels/indicia to items having industrial use. Despite efforts to date, there remains a need in industrial applications to securely attach tags/labels/indicia with respect to such items. For example, traditional mechanisms for securing a tag/label relative to a unit in an industrial environment may involve a grommet and a mechanical fastener. However, when using such conventional securement mechanisms, the tag frequently and disadvantageously hangs off the item in a way that it could get caught and pulled off. In addition, rope and hose manufacturers/users desperately need a marking system that avoids metal fasteners because of the damage they can do to the fibers.
In addition, current default tags in the industry are generally stainless steel or other metal tag systems. In the oil & gas, petrochemical, and offshore marine industries, these conventional metal tags are a problem because, inter alia, the tag and fastening system can conduct electricity, can cause a spark and can cause a serious injury when falling from a height. With reference to the risk of injury, on a national basis, dropped and falling objects on job sites cause an average of 116 injuries a day.
Further, conventional “peel and stick” label systems, i.e., label systems that are pressure sensitive, suffer from numerous disadvantages in industrial practice. For example, adhesive-based label systems frequently are subject to shelf-life limitations, are susceptible to oil/solvent interactions that negatively impact adherence, may be susceptible to UV degradation, and provide securement that is neither secure (i.e., subject to removal) nor versatile (e.g., not effective for many items in an industrial setting).
Beyond the challenges associated with effectively securing a tag/label/indicia relative to an item in an industrial environment, it is also noteworthy that industrial items can range in diameter from inches to feet—so it is difficult to find an attachment system that works across the noted variability. It is further noteworthy that needs for secure tagging of items arises in non-industrial applications and environments, e.g., consumer environments/applications, medical environments/applications, educational environments/applications, residential environments/applications, and sporting/athletic environments/applications.
These and other challenges and limitations associated with conventional securement systems are addressed and overcome by the products, systems and methods disclosed herein.
The disclosed products, systems and methods generally include (i) a tag, label or other indicia for use in industrial applications, and (ii) a securement mechanism that includes first and second cooperative elements. Of note, the disclosed products, systems and methods advantageously facilitate “no tool installation,” i.e., securement of the tag, label or other indicia is readily achievable without the need for an additional/ancillary tool of any type (beyond the securement mechanism itself). Rather, the securement mechanism is easily achieved with a mere “tap” of the first cooperative element relative to the second cooperative element. The ability to secure a tag, label or indicia relative to an item as disclosed herein is highly advantageous from numerous perspectives, including specifically safety, cost, durability, convenience/flexibility and speed.
The disclosed systems/methods have wide ranging applicability in both industrial and non-industrial applications and environments. Exemplary non-industrial applications and environments include, but are not limited to, consumer environments/applications, medical environments/applications, educational environments/applications, residential environments/applications, and sporting/athletic environments/applications. However, use of the disclosed systems/methods is not limited by or to such exemplary environments/applications, but the use is unlimited in scope and application.
The cooperative first/second elements associated with the present disclosure generally take the form of at least one strap that is configured to be extended around the item to which the tag/label/indicia is to be secured, and a second element that may be engaged directly to the tag/label/indicia or that may be associated with a second strap. In implementations where both the first and second cooperative elements are associated with straps, the two straps generally cooperate to extend around the relevant item with an area of overlap where securement/engagement takes place.
The securement mechanism employs an advantageous hook-and-loop fastening mechanism wherein the hook is a “mushroom” style hook. More particularly, a first component of the disclosed securement mechanism includes an engagement region featuring mushroom style hooks—as contrasted with conventional fish hook shaped fasteners. A second component of the disclosed securement mechanism includes an engagement region featuring a deep and dense pile loop.
Of note, in conventional hook-and-loop engagement systems, the fish hook shaped fasteners are designed to “bend straight” (or substantially straight) to release the loop when separation is effectuated and, after separation, the fish hook shaped fasteners return to the original fishhook shape. In addition, separation of the fish hook shaped fasteners from a conventional loop region does not materially damage the loops and they remain effective for re-engagement with the fish hook shaped fasteners after initial disengagement. Thus, conventional hook-and-loop systems allow for the same components to be used repeatedly.
In distinct contrast, the mushroom style hooks of the first component of the present disclosure trap the loops of the second component under the many mushroom shaped heads of the fastener. With movement(s) of the first/second components, the loop(s) become more entwined in the mushroom hook(s) so that the bond gets stronger with time. By virtue of their shape, the mushroom style hooks are strong and do not bend or give way to release the loop if/when disengagement is attempted or a separation force is applied, thus forming a permanent bond therebetween. The only way to separate the two components is to significantly damage the loop(s) by ripping one end out or by tearing off the mushroom head (or both), thereby allowing the loop to release from the mushroom head, i.e., allowing disengagement of the first component from the second component. This release/disengagement is not possible with normal human strength and would require a force from a machine to tear the two components apart. Once separated, the damage to both components is significant so that another secure bond or attachment is not possible. Thus, the mushroom style hook/woven loop members of the present disclosure cooperate to form a secure bond when engaged, but are ineffective to create a secure bond a second time because the act of separation necessarily damages the loop and mushroom hook structures, making them ineffective for reengagement.
Of note, the disclosed mushroom hook-and-loop fastening mechanism may be fabricated from a fire retardant material, thereby enhancing the safety of the disclosed products/systems.
In exemplary embodiments of the present disclosure, one component of the fastening system is adhered or otherwise attached/joined to a tag/label/indicia, whether directly to a surface thereof or extending therefrom, e.g., by stitching of a strap that bears the noted component of the fastening system to the tag/label/indicia. Thus, the first component of the fastening system is generally adhered and/or otherwise attached/joined to the tag/label in a strategic manner, whereby the tag/label/indicia may be secured to an item by engaging the first component of the fastening system with the other component of the fastening system.
To assist those of skill in the art in making and using the systems and methods of the present disclosure, reference is made to the appended figures, wherein:
The disclosed system provides an advantageous solution for tagging/labeling a variety of items, including specifically synthetic ropes, fire hoses and other cylindrical shapes. The disclosed securement system may be employed to secure tags/labels/indicia of the types disclosed in commonly assigned U.S. Pat. Nos. 9,262,710 and 8,490,882, i.e., the tags make take the form of inspection tags, serial # and data tags and GHS tags using data matrix patented tags. Thus, according to the present disclosure, various modifications and/or refinements to the previously patented data matrix system may be incorporated/implemented, a range of adjustable, super durable tags/labels/indicia may be achieved that require no tools or metallic/additional fasteners and that can offer a “no tool” installation for any number of diameters. For example, laser etched modalities may be employed in connection with tags/labels/indicia according to the present disclosure.
The unique combination of materials and technology results in an original marking system that does what no other system can accomplish. It allows the user to permanently and securely mark a myriad of different products with an adjustable tag of common design/operation and without using any tools or additional fasteners. Additional benefits for the safety and inspection industries include the fact that once the tag/label/indicia is removed, it cannot be reused because the securement mushroom hooks and loops are ripped, thereby not allowing the tag/label/indicia to be moved to another item and ensuring compliance integrity. Benefits of the disclosed system/method thus include the following:
With reference to the accompanying figures,
As shown in
With particular reference to the underside of tag system 10 shown in
The top face of strap 14 and the exposed face of member 22 feature cooperative mushroom style hooks 23 on one of strap 14/member 22 and cooperating loops 15 on the other of strap 14/member 22. In this way, strap 14 may be wrapped around an item and secured relative to member 22 by pressing the mushroom style hooks 23 into engagement with the cooperating loops 15 (see
Turning to
The disclosed system/method is described with reference to exemplary embodiments and implementations thereof. However, the present disclosure is not limited by or to such exemplary embodiments and implementations.
The present application claims priority benefit to a non-provisional patent application entitled “Adjustable Tagging System” filed on Mar. 30, 2020, and assigned Ser. No. 16/834,564, which application in turn claimed priority benefit to a provisional patent application entitled “Adjustable Tagging System” filed on Apr. 5, 2019, and assigned Ser. No. 62/829,900. The entire contents of the foregoing non-provisional and provisional applications are incorporated herein by reference.
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8490882 | Margulis et al. | Jul 2013 | B2 |
9262710 | Margulis et al. | Feb 2016 | B2 |
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Entry |
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U.S. Appl. No. 62/829,900, filed Apr. 5, 2019. |
U.S. Appl. No. 16/834,564, filed Mar. 30, 2020. |
Number | Date | Country | |
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62829900 | Apr 2019 | US |
Number | Date | Country | |
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Parent | 16834564 | Mar 2020 | US |
Child | 17388892 | US |