This invention relates generally to security devices, and more particularly to security devices for temporarily securing objects to stationary anchor objects.
Ski resorts typically have storage areas (e.g., ski racks, lockers, etc.) for storing skis and other related equipment while guests are taking a break (e.g., having lunch, using the restroom, etc.) from skiing. During this time, such equipment is vulnerable to theft. It is, therefore, desirable to secure such equipment in place during breaks.
There are many securing devices available. For example, padlocked chains can be used to lock ski equipment to stationary objects (i.e. ski racks). As another example, some ski racks include locking mechanisms.
Although many securing devices exist, they have disadvantages. For example, padlocked chains are heavy and inconvenient for the skier to carry when not in use. Furthermore, padlocked chains are relatively expensive. As another example, locking ski racks are expensive and, therefore, are not always available at many ski resorts.
What is needed, therefore, is a device for securing ski equipment and other equipment to stationary objects that is more convenient to carry, less expensive than current devices, and usable where locking ski racks are not available.
The present invention overcomes the problems associated with the prior art by providing a lightweight portable security tether. The invention facilitates locking valuable items to stationary anchor objects.
The security tether includes an intermediate flexible substrate, a first loop, and a second loop. The first loop is fixed to a first end of the intermediate flexible substrate and is switchable between a closed position and an open position. The first loop also includes a lock to retain the first loop in the closed position when engaged. The second loop is a fixed, closed loop coupled to a second end of the intermediate flexible substrate opposite the first end. The second loop is configured to allow the first loop to pass therethrough to create a secondary loop to encircle an anchor object. The first loop can be closed around an object to be secured, thereby securing the object to be secured to the anchor object when the lock is engaged.
In a particular embodiment, the security tether further includes a set of instructions to a user. For example, the instructions can include indicia describing a process for securing the object to be secured to the anchor object. In one exemplary embodiment, the instructions are affixed to the intermediate flexible substrate. Exemplary instructions can instruct the user to position the intermediate flexible substrate around at least a portion of an anchor object, to pass the first loop through the second loop thereby attaching the intermediate substrate to the anchor object, to position the first loop around an object to be secured, and to engage/lock the lock.
In another particular embodiment, the intermediate flexible substrate includes a cord.
In yet another particular embodiment, the intermediate flexible substrate includes a strap. In a more particular embodiment, the intermediate flexible substrate, the first loop, and the second loop are formed from a single unitary strap. In another more particular embodiment, the intermediate flexible substrate is formed from woven nylon. In an alternative embodiment, the intermediate flexible substrate is formed from a woven aramid such as, for example, Kevlar.
In a particular embodiment, the lock is a number combination lock. In a more particular embodiment, the number combination lock is an insert buckle. In an alternative embodiment, the lock is a key lock.
In another particular embodiment, the first loop is formed by fastening the second end of the intermediate flexible substrate to the intermediate flexible substrate via stitching. In some embodiments, grommets can be used in place of, or in combination with, the stitching.
In one embodiment, the security tether functions as a sling for carrying a pair of stacked skis. In a more particular embodiment, the first loop is adapted to receive a first end of the pair of stacked skis, and the second loop is adapted to receive an opposite second end of the pair of stacked skis.
A method for manufacturing a security tether is also disclosed. The method includes the steps of providing an intermediate flexible substrate, forming a first loop fixed to a first end of the intermediate flexible substrate, and forming a second fixed, closed loop coupled to a second end of the intermediate flexible substrate opposite the first end. The first loop is switchable between a closed position and an open position and includes a lock to retain the first loop in the closed position when engaged. The second loop is configured to allow the first loop to pass therethrough to create a secondary loop to encircle an anchor object. The first loop is also closable around an object to be secured, thereby securing the object to be secured to the anchor object when the lock is engaged.
A particular method further includes providing instructions including indicia of a process for securing the object to be secured to the anchor object. A more particular method includes affixing the instructions to the security tether.
The security tethers of the invention thus include means for selectively fastening the first loop around an object to be secured, thereby securing the object to be secured to an anchor object.
The present invention is described with reference to the following drawings, wherein like reference numbers denote substantially similar elements:
The present invention overcomes the problems associated with the prior art by providing a lightweight security tether for locking an object to a stationary anchor object. In the following description, numerous specific details are set forth (e.g., substrate materials, fastening means, objects to be secured, etc.) in order to provide a thorough understanding of the invention. Those skilled in the art will recognize, however, that the invention may be practiced apart from these specific details. In other instances, details of well-known manufacturing practices (e.g., stitching of materials, applying grommets, etc.) and components have been omitted, so as not to unnecessarily obscure the present invention.
Tether 100 includes an intermediate flexible substrate 102, a first loop 104, and a second loop 106. In this example, substrate 102, first loop 104, and second loop 106 are formed from a unitary woven nylon strap. First loop 104 is formed at a first end of substrate 102 and includes a combination locking insert buckle 108, which allows loop 104 to be fastened and locked around objects. Second loop 106 facilitates the mounting of tether 100 to anchor objects. Furthermore, second loop 106 is formed by permanently fastening the second end of substrate 102 in a looped fashion via stitching 110 and a grommet 112 (e.g., a metal grommet). Likewise, stitching 110 and grommets 112 are used to permanently fasten buckle 108 to substrate 102.
In the example embodiment, first loop 104, second loop 106, and substrate 102 are formed from a single length of weather resistant nylon material. In alternative embodiments, first loop 104, second loop 106, and intermediate strap 102 can be formed separately and assembled. In alternate embodiments the first loop 104, second loop 106, and/or substrate 102 can be formed from any of a variety of materials (e.g., canvas, woven aramid, steel reinforced fabric, rope, steel cable, etc.) sufficiently light to maintain the convenient portability of tether 100. Additionally, first loop 104, second loop 106, and substrate 102 can be any of a variety of colors or patterns (e.g. fluorescent orange, rainbow, etc.) and can be embroidered or otherwise altered to provide improved functionality or aesthetics. Thus, tether 100 can be customized, based on the preferences of a user, allowing the user to easily distinguish their own skis from many others that might be on a rack at any given time.
Female component 202 includes a strap receiving end 208 through which substrate 102 is routed and then secured via stitching 110 and grommet 112. Furthermore, female component 202 includes a set of side cutouts (receivers) 210 and a set of number wheels 212. Cutouts 210 receive and seat tabs 206 when buckle 108 is in the closed position. Additionally, cutouts 210 allow access to tabs 206 when male component 200 is inserted into female component 202.
To close buckle 108, male component 200 is inserted into complimentary female component 202, such that tabs 206 are engaged with cutouts 210. Prongs 205 are flexible and provide a biasing force to maintain the engagement between tabs 206 and side cutouts 210. Buckle 108 can be opened when a user applies an inward force to (e.g., pinches) tabs 206, thus unengaging tabs 206 and side cutouts 210 and allowing male component 200 to slide out of female component 202. However, female component 202 will only permit tabs 206 to be squeezed together if number wheels 212 are aligned to the proper combination which, in this example, is the number combination “01”. Otherwise, male component 200 remains locked into female component 202, thus locking loop 104.
In the example embodiment, buckle 108 is a two number combination lock. In alternative embodiments, a three, four, etc. number lock, or a letter combination lock could be substituted for buckle 108. In addition, buckle 108 could be replaced with a keyed lock or any other type of lock that is lightweight and prevents buckle 108 from being opened by anyone without the key/combination. Thus, buckle 108 provides means for selectively fastening the first loop around an object to be secured.
The locking of skis 300 to pole 302 via tether 100 using the girth hitch configuration is described as follows. First, substrate 102 is wrapped partially around pole 302. Then, loop 104 is pulled through loop 106 thereby fastening tether 100 to pole 302 in the girth hitch configuration as shown. Next, loop 104 is unlocked and opened. Loop 104 is then wrapped around skis 300 (positioned in the bottom-to-bottom configuration shown), and buckle 108 is fastened by inserting male component 200 into female component 202 (shown in
The locking of skis 300 to pole 302 via tether 100 using the alternative configuration shown in
Instructions 600 can be provided with security tether 100 in various ways. For example, instructions 600 can be formed on a label 610 that is then affixed to a portion of security tether 100, such as substrate 102, by sewing, gluing, etc. Indeed, instructions 600 can even be printed directly on substrate 102. Alternatively or additionally, instructions 600 can be printed on an insert 612 that is included in packaging with security tether 100. As still another option, instructions 600 can be printed on a tag that is attached to security tether 100, for example, by sewing or with a plastic tie.
The description of particular embodiments of the present invention is now complete. Many of the described features may be substituted, altered or omitted without departing from the scope of the invention. For example, alternative intermediate substrate types (e.g., woven Kevlar strap, braided rope, steel cable, reinforced rope, etc.), may be substituted for the woven nylon strap. As another example, alternative locking devices (e.g. key locks) may be substituted for the number combination locking buckle. These and other deviations from the particular embodiments shown will be apparent to those skilled in the art, particularly in view of the foregoing disclosure.
This application is a continuation of co-pending U.S. patent application Ser. No. 15/443,141, filed on Feb. 27, 2017 by the same inventor, which claims the benefit of co-pending U.S. Provisional Patent Application Ser. No. 62/301,356, filed Feb. 29, 2016 by the same inventor, each of which is incorporated by reference herein in its entirety.
Number | Date | Country | |
---|---|---|---|
62301356 | Feb 2016 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 15443141 | Feb 2017 | US |
Child | 16410470 | US |