1. Field of the Invention
This invention generally relates to keys, and to devices for holding keys.
2. Related Art
Keys for locks have been ubiquitous for centuries. Many types of devices for holding keys have been developed that use rings, clips, chains, wallets, enclosures, and other structures to join keys together. In spite of all of the work that has been done to provide devices that organize keys for storage and convenient access, many people still tend to either mount their keys on a simple key ring, or use a wallet having rings for mounting keys. Both of these two types of key holding devices are generally perceived as disorganized and cumbersome. Meanwhile, keys generally have a chaotic variety of shapes and sizes, further contributing to the disorganization of a typical person's keys. A continuing need exists for standardized keys, and for a device for holding keys that facilitates organization of an end user's keys for secure storage and convenient use.
In an example of an implementation, a key organizing device is provided, including a housing, a cover, and a slider. The housing includes a cavity, two housing ends, an end opening, a back wall, and a slider opening. The two housing ends are spaced apart in a longitudinal direction. The end opening is located at one of the housing ends. The back wall is located at the other housing end. The slider opening extends in the longitudinal direction. The cover is removeably attached over the end opening. The slider includes a finger pad and a key mount. The key mount is positioned inside the cavity and connected to the finger pad through the slider opening. The slider is configured for attachment and detachment of a key through the end opening upon removal of the cover. In examples, the key organizing device may further include one or more of the following features.
The key mount of the key organizing device may include spaced-apart first and second key mounting plates, the first key mounting plate having a mounting post projecting toward the second key mounting plate. The second key mounting plate may include a plate opening in spaced-apart alignment with the mounting post. The key mount may be configured for guiding the mounting post into and out of a head aperture of a key, and for guiding a key head of a key into and out of the key mount. The key mounting plates may be configured for sliding over a ramp between two guide ridges on a key head. The mounting post may be configured for sliding across a notch in a key head.
The key organizing device may include a key removeably attached to the key mount. The key may include a key blade, a key head connected to the key blade, the key head having an edge, a head aperture in the key head spaced apart from the edge, the key head including a ramp and two guide ridges, and the ramp being between the two guide ridges. The key may include a key blade, a key head connected to the key blade, the key head having an edge and a head aperture, the head aperture including a notch in the edge. The key may include a ridge over at least a part of the edge, and the ridge may be configured for receiving the first or second key mounting plate. The notch in the key head may be configured for sliding of the mounting post across the notch into the head aperture.
The housing in the key organizing device may include spaced-apart first and second housing base walls respectively having first and second interior surfaces facing each other in the cavity, and the slider may include first and second glide plates respectively contacting the first and second interior surfaces, where the slider is configured for gliding on the first and second glide plates over the first and second interior surfaces.
The key organizing device may include two first interior walls spaced apart on the first interior surface and projecting toward the second interior surface, the first interior walls guiding the slider along a path in the longitudinal direction in alignment with the slider opening. The key organizing device may include two second interior walls spaced apart on the second interior surface and projecting toward the first interior surface, the second interior walls guiding the slider along a path in the longitudinal direction in alignment with the slider opening.
Each of the first interior walls in the key organizing device may include a first interior wall edge facing one of the second interior walls, and each of the second interior walls may include a second interior wall edge spaced apart by a gap from and facing one of the first interior walls. The slider in the key organizing device may include a guide projection configured to glide along at least one of the first interior wall edges in the gap. The slider may include a tensioning member configured to press the guide projection against the at least one first interior wall edge. The at least one first interior wall edge in the key organizing device may include a notch configured for receiving the guide projection. The slider opening in the key organizing device may define key-retracted and key-extended end-positions for the path of the slider, and the notch may be located at a notch point along the first interior wall edge configured for reversibly locking the slider in an end-position. The finger pad of the slider in the key organizing device may be configured for pushing the guide projection out of the notch upon depression of the finger pad toward the housing. The tensioning member may include a spring element. The tensioning member may be interposed between the key mount and the finger pad. The tensioning member may be configured for compression between the finger pad and the key mount upon depression of the finger pad toward the housing. The slider may include a finger pad guiding member configured for guiding the finger pad in a fixed path upon depression of the finger pad toward the housing. The key organizing device may include a pin protruding from the key mount, the pin defining the fixed path.
The slider may include a guide projection configured to glide along a surface of at least one of the first or second interior walls. The two interior walls on the first or second interior surface may be spaced apart at a distance configured to press the guide projection between the two interior walls. The at least one of the interior walls may include a notch configured for receiving the guide projection. The slider opening may define key-retracted and key-extended end-positions for the path of the slider, and the notch may be positioned at a point along the at least one of the interior walls for reversibly locking the slider in an end-position. The finger pad may be configured for pushing the guide projection out of the notch upon deflection of the finger pad. The slider opening of the key organizing device may include at least two wide regions spaced apart along the longitudinal direction respectively allowing the guide projection to enter the notch at the key-retracted and key-extended end-positions, and at least one narrow region between the key-retracted and key-extended end-positions constraining the guide projection away from the at least one of the interior walls.
The slider opening of the key organizing device may be configured so that at a first point along the longitudinal direction the key mount can pass through the slider opening, and so that at a second point along the longitudinal direction the key mount cannot pass through the slider opening. The slider opening may include a slot edge, and may include a slider dampener on the slot edge. The slider dampener may include a resilient layer. The slider dampener may be configured for gripping the slider. The slider opening may be configured at a first point along the longitudinal direction so that the key mount can pass through the slider opening at the first point, and may be configured at a second point along the longitudinal direction so that the slider dampener grips the slider at the second point.
The key organizing device may include a key dampener at the end opening, the key dampener including a key slot configured for sliding engagement of a key blade. The key slot may have two spaced apart slot surfaces configured for sliding engagement of a key blade, the key slot also including two flexible slot ends.
The cover of the key organizing device may include a bezel having two spaced-apart tabs engaging the housing for removable attachment of the cover over the end opening. The key organizing device may include first and second housing elements configured for together forming the housing, each of the housing elements having a housing base wall, the slider opening being located in a housing base wall. Each of the first and second housing elements may include an end wall, and the end walls may be joined by a hinge and may together form the back wall.
The finger pad of the slider of the key organizing device may include a key identifier. The key identifier may include an identifier selected from a raised rib, a raised dot, a colored marker, or more than one of the foregoing.
The key organizing device may include key mounting plates having inside surfaces tapered in conformance with tapered ramps on the head of a key. The key mounting plates may be configured for resting against stop ridges on a key, and sliding over the tapered ramps and placing frontal edges of the key mount in contact with the stop ridges.
In another example of an implementation, a key is provided. The key includes a key blade, and a key head connected to the key blade. The key head has an edge. The key includes a head aperture located in the key head and spaced apart from the edge. The key head includes a ramp and two guide ridges. The ramp is between the two guide ridges. In examples, the key may further include one or more of the following features.
The head aperture may be configured for receiving a mounting post, and the key head may be configured for guiding the mounting post into and out of the head aperture. The key may be configured for removable attachment to a key mount including a mounting post and spaced-apart first and second key mounting plates, where the mounting post is on the first key mounting plate and projecting toward the second key mounting plate. The head aperture may be set in the ramp, and the key head may be configured for sliding of the key mounting plates over the ramp between the guide ridges.
A key is provided as a further example of an implementation, the key including a key blade, and a key head connected to the key blade. The key head has an edge and a head aperture. The head aperture includes a notch in the edge. In examples, the key may further include one or more of the following features.
The head aperture may be configured for receiving a mounting post of a key mount, and the key head may be configured for guiding the mounting post into and out of the head aperture. The key may be configured for removable attachment to a key mount including a mounting post and spaced-apart first and second key mounting plates, where the mounting post is on the first key mounting plate and projects toward the second key mounting plate. The key may include a ridge over at least a part of the edge, where the ridge is configured for receiving the first or second key mounting plate of a key mount. The notch may be configured for sliding of the mounting post across the notch into the head aperture.
In a further example of an implementation, a key is provided. The key includes a key blade, and a key head connected to the key blade. The key head has an edge and two sides. The key includes a head aperture located in the key head and spaced apart from the edge. The key head includes a tapered ramp on each side, the tapered ramp narrowing toward the edge in a direction passing through the head aperture.
The head aperture may be configured for receiving a mounting post, and the key head may be configured for guiding the mounting post into and out of the head aperture. The key may be configured for removable attachment to a key mount including a mounting post and spaced-apart first and second key mounting plates, where the mounting post is on the first key mounting plate and projecting toward the second key mounting plate, and where each of the first and second key mounting plates is configured for resting over a tapered ramp. The key may include first and second stop ridges. The tapered ramps may terminate at the stop ridges.
Other systems, methods, features and advantages of the invention will be or will become apparent to one with skill in the art upon examination of the following figures and detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims.
The invention can be better understood with reference to the following figures. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention. Moreover, in the figures, like reference numerals designate corresponding parts throughout the different views.
Key organizing devices, and keys, are provided. In an example, an implementation of a key organizing device includes a housing, a cover, and a slider. The housing includes a cavity, two housing ends, an end opening, a back wall, and a slider opening. The two housing ends are spaced apart in a longitudinal direction. The end opening is located at one of the housing ends. The back wall is located at the other housing end. The slider opening extends in the longitudinal direction. The cover is removeably attached over the end opening. The slider includes a finger pad and a key mount. The key mount is positioned inside the cavity and connected to the finger pad through the slider opening. The slider is configured for attachment and detachment of a key through the end opening upon removal of the cover.
The two housing ends 204, 206 of the key organizing device 100 are spaced apart in a longitudinal direction indicated by the arrow 306. The end opening 208 is located at one of the housing ends 204. The back wall 302 is located at the other housing end 206. The slider opening 304 extends in the longitudinal direction indicated by the arrow 306.
The key organizing device 100 may, for example, include a first housing element 308 and a second housing element 310, together configured to form the housing 102. The first housing element 308 may include an end wall 312, and the second housing element 310 may include an end wall 314. The end walls 312, 314 may be joined by a hinge 316 and may together form the back wall 302. The hinge may include a slot 318 for utilization in attaching the key organizing device 100 to other fixed or moveable objects.
Referring to
The second glide plate 1410 of the example 1302 of a slider may contact the first interior surface 1308. The second glide plate 1310 of the example 1304 of a slider may contact the second interior surface 1408. The examples 1302, 1304 of sliders may accordingly be configured for gliding on the first glide plates 610, 704 and second glide plates 1310, 1410 over the first and second interior surfaces 1308, 1408.
The first housing element 308 may include a first hinge element 1314 having a recessed aperture (not shown) for a bolt 1316, a second hinge element 1318 having an aperture (not shown) for a bolt 1320, and a ring plate 1322. The second housing element 310 may include a first hinge element 1414 having a recessed aperture (not shown) for the bolt 1320, a second hinge element 1418 having an aperture (not shown) for the bolt 1316, and a ring plate 1422. Upon assembly of the first and second housing elements 308, 310 to form the housing 102, the bolt 1316 may be inserted into the first hinge element 1314 and the second hinge element 1418, and the bolt 1320 may be inserted into the first hinge element 1414 and the second hinge element 1318. The bolts 1316, 1320 may be threaded (not shown) and may have hex-recess drive heads 324. The ring plates 1322, 1422 may have apertures 1323, 1423 respectively, together forming the slot 318. In another example (not shown) the first and second hinge elements 1314, 1318, 1414, 1418 may be omitted, and the first and second housing elements 308, 310 may be adhered together, such as by ultrasonic welding or a suitable adhesive composition.
The first interior surface 1308 of the first housing base wall 1306 may, for example, have two first interior walls 1502, 1504 spaced apart on the first interior surface 1308 and projecting toward the second interior surface 1408 of the second housing base wall 1406, the first interior walls 1502, 1504 guiding the example 1302 of a slider along a path in the longitudinal direction of the arrow 306 in alignment with the slider opening 1202. The second interior surface 1408 of the second housing base wall 1406 may, for example, have two second interior walls 1602, 1604 spaced apart on the second interior surface 1408 and projecting toward the first interior surface 1308 of the first housing base wall 1306, the second interior walls 1602, 1604 guiding the example 1302 of a slider along a path in the longitudinal direction of the arrow 306 in alignment with the slider opening 1202.
In a similar manner, the first interior surface 1308 of the first housing base wall 1306 may, for example, have two first interior walls 1506, 1508 spaced apart on the first interior surface 1308 and projecting toward the second interior surface 1408 of the second housing base wall 1406, the first interior walls 1506, 1508 guiding the example 1304 of a slider along a path in the longitudinal direction of the arrow 306 in alignment with the slider opening 304. The second interior surface 1408 of the second housing base wall 1406 may in a similar manner, for example, have two second interior walls 1606, 1608 spaced apart on the second interior surface 1408 and projecting toward the first interior surface 1308 of the first housing base wall 1306, the second interior walls 1606, 1608 guiding the example 1304 of a slider along a path in the longitudinal direction of the arrow 306 in alignment with the slider opening 304.
Referring to
The first interior walls 1502 and 1504 may be spaced apart at a distance defined by the arrow 1514, configured to press the guide projection 706 of the example 1302 of a slider between the first interior walls 1502, 1504. The second interior walls 1602 and 1604 may be spaced apart at a distance defined by the arrow 1614, configured to press the guide projection 706 of the example 1302 of a slider between the second interior walls 1602, 1604. For example, these configurations of the first interior walls 1502, 1504 and of the second interior walls 1602, 1604 may press the guide projection 706 of the example 1302 of a slider against the surface 1510 of the first interior wall 1502 or against the surface 1610 of the second interior wall 1602. The first interior walls 1506, 1508 or the second interior walls 1606, 1608 or all of these four interior walls 1506, 1508, 1606, 1608 may likewise be configured to press the guide projection 706 of example 1304 of a slider between the first interior walls 1506, 1608, or between the second interior walls 1606, 1608, or between all of these four interior walls 1506, 1508, 1606, 1608.
The first interior wall 1502 may include a notch 1516 or a notch 1518 configured for receiving the guide projection 706 of the example 1302 of a slider, or the first interior wall 1502 may include both of the notches 1516, 1518. The second interior wall 1602 may include a notch 1616 or a notch 1618 configured for receiving the guide projection 706 of the example 1302 of a slider, or the second interior wall 1602 may include both of the notches 1616, 1618. The notch 1516 or 1616 or both of notches 1516 and 1616 cooperating together may form a key-retracted end-position for the path of the slider 1302 in the longitudinal directions indicated by the arrow 306. The notch 1518 or 1618 or both of notches 1518 and 1618 cooperating together may form a key-extended end-position for the path of the slider 1302 in the longitudinal directions indicated by the arrow 306.
Likewise, the first interior wall 1508 may include a notch 1520 or a notch 1522 configured for receiving the guide projection 706 of the example 1304 of a slider, or the first interior wall 1508 may include both of the notches 1520, 1522. The second interior wall 1608 may include a notch 1620 or a notch 1622 configured for receiving the guide projection 706 of the example 1304 of a slider, or the second interior wall 1608 may include both of the notches 1620, 1622. The notch 1520 or 1620 or both of notches 1520 and 1620 cooperating together may form a key-retracted end-position for the path of the slider 1304 in the longitudinal directions indicated by the arrow 306. The notch 1522 or 1622 or both of notches 1522 and 1622 cooperating together may form a key-extended end-position for the path of the slider 1304 in the longitudinal directions indicated by the arrow 306. As further examples, one or more of notches 1524, 1526, 1528, 1530, 1532, 1624, 1626, 1628, 1630, and 1632 may be included in the key organizing device 100, configured for receiving the guide projection 706 of one of the examples 1302, 1304 of sliders, or of other sliders (not shown).
The first housing element may include slots 1534, and the second housing element may include slots 1634, configured for mutual alignment when the first and second housing elements 308, 310 are assembled together to form the housing 102. Aligned pairs of slots 1534, 1634 in the housing 102 may be utilized for holding, as examples, an indicia plate 326 or a decorative plate (not shown). Keyport™ is a trademark of Spuren Systems, LLC.
The example of the key organizing device 100 shown in
Referring to
The first and second housing elements 2108, 2110 may respectively include apertures 2214, 2314, together forming a slot 2112. In another example (not shown) the apertures 2214, 2314 may be integrated into a depression formed in a back wall 2113 of the key organizing device 2100.
In a similar manner, the first interior surface 2208 of the first housing base wall 2206 may, for example, have two first interior walls 2406, 2408 spaced apart on the first interior surface 2208 and projecting toward the second interior surface 2308 of the second housing base wall 2306, the first interior walls 2406, 2408 guiding the slider 2204 along a path in the longitudinal direction of the arrow 2114 in alignment with a slider opening 2509. The second interior surface 2308 of the second housing base wall 2306 may in a similar manner, for example, have two second interior walls 2506, 2508 spaced apart on the second interior surface 2308 and projecting toward the first interior surface 2208 of the first housing base wall 2206, the second interior walls 2506, 2508 guiding the slider 2204 along a path in the longitudinal direction of the arrow 2114 in alignment with a slider opening 2116.
Each of the first interior walls 2402, 2404, 2406, 2408 may include a first interior wall edge 2410 facing one of the second interior walls 2502, 2504, 2506, 2508, and each of the second interior walls 2502, 2504, 2506, 2508 may include a second interior wall edge 2510 spaced apart by a gap (not shown) from and facing one of the first interior walls 2402, 2404, 2406, 2408.
Referring to
The second interior wall 2502 may include a notch 2516 or a notch 2518 configured for receiving the guide projection 2409 of the slider 2202, or the first interior wall 2502 may include both of the notches 2516, 2518. The first interior wall 2408 may include a notch 2416 or a notch 2418 configured for receiving the guide projection 2409 of the slider 2204, or the first interior wall 2408 may include both of the notches 2416, 2418. The notch 2516 may form a key-retracted end-position for the path of the slider 2202 in the longitudinal directions indicated by the arrow 2114. The notch 2518 may likewise form a key-extended end-position for the path of the slider 2202 in the longitudinal directions indicated by the arrow 2114.
Referring to
The slider openings 2116, 2509 may include a slider dampener 2216, 2316 on the exposed slot edge 2212, 2312. For example, the slider dampener 2216, 2316 may include a resilient layer (not shown) on the exposed slot edge 2212, 2312. As another example (not shown), all or a part of the exposed slot edge 2212, 2312 may be formed of a resilient material attached to the first or second housing element 2108, 2110 to form the slider dampener 2216, 2316. The slider dampener 2216, 2316 may be configured for gripping the slider 2202, 2204. The slider openings 2116, 2509 may be configured at a first point 2128 along the longitudinal direction indicated by the arrow 2114 so that a key mount 2203, 2303 can pass through the slider openings 2116, 2509 at the first point 2128. The slider openings 2116, 2509 may be configured at a second point 2130 along the longitudinal direction indicated by the arrow 2114 so that the slider dampener 2216, 2316 grips the slider 2202, 2204 at the second point 2130. As another example, the first or second housing element 2108, 2110 may include a rectangular cutout 2219, 2319 filled by the slider dampener 2216, 2316. This cutout 2219, 2319 provides extra clearance through the slider opening 2116, 2509 for passage of the key mount 2203, 2303 by deflection of the slider dampener 2216, 2316.
The example 2600 of a slider may include a tensioning member 2614 configured to press the guide projection 2609 against the first interior wall edge 2410 or against the second interior wall edge 2510. The tensioning member 2614 may be interposed between the key mount 2604 and the finger pad 2602. The tensioning member 2614 may be configured for compression between the finger pad 2602 and the key mount 2604 upon depression of the finger pad 2602 toward the housing 2102. The tensioning member 2614 may include a spring element 2616. The finger pad 2602 may be configured for pushing the guide projection 2609 out of a notch 2416, 2418, 2516, 2518 upon depression of the finger pad 2602 toward the housing 2102.
Referring to
The example 3200 of a slider may include a tensioning member 3502 configured to press the lower guide projection 3304 against a first or second interior wall edge 2410, 2510 or against both of the wall edges 2410, 2510. The tensioning member 3502 may be interposed between the key mount 3204 and the finger pad 3202. The tensioning member 3502 may be configured for compression between the finger pad 3202 and the key mount 3204 upon depression of the finger pad 3202 toward the housing 2102. The tensioning member 3502 may include a spring element 3504. The finger pad 3202 may be configured for pushing the upper or lower guide projections 3302, 3304 out of a notch 2416, 2418, 2516, 2518 upon depression of the finger pad 3202 toward the housing 2102. The example 2800 of a slider may include a finger pad guiding member 3505 configured for guiding the finger pad 3202 in a fixed path in the directions indicated by the arrow 3506 upon depression of the finger pad 3202 toward the housing 2102. The example 2800 of a slider may include a pin 3508 protruding from the key mount 3204, the pin 3508 defining the fixed path in the directions indicated by the arrow 3506. The pin 3508 may engage a slot 3510 connected to the finger pad 3202, the slot 3510 configured for partially receiving the pin 3508.
The key organizing devices 100, 2100, 3600, 3800, 4000 may be fabricated from materials selected for suitable durability, functionality and appearance of the key organizing devices 100, 2100, 3600, 3800, 4000. For example, the housing 204, 2102, 3604, 3804, 4004 may be formed of a plastic, metal, or graphite material. As a plastic material, Lustran® 248 acrylonitrile-butadiene-styrene (“ABS”) may for example be utilized in forming the housings 204, 2102, 3604, 3804, 4004. An indicia plate 326 may be formed of the same material selected for the housing 204, 2102, 3604, 3804, 4004. Where the cover 104, 2104, 3606, 3802, 4002 of a key organizing device 100, 2100, 3600, 3800, 4000 includes tabs 2008, 4008, the cover 104, 2104, 3606, 3802, 4002 may be formed of a flexible material such as a plastic composition. Likewise, where the housing 204, 2102, 3604, 3804, 4004 of a key organizing device 100, 2100, 3600, 3800, 4000 includes tabs 2008, 4008, the housing 204, 2102, 3604, 3804, 4004 may be formed of a flexible material such as a plastic composition. Where the cover 104, 2104, 3606, 3802, 4002 or housing 204, 2102, 3604, 3804, 4004 does not include tabs 2008, 4008, then that cover 104, 2104, 3606, 3802, 4002 or housing 204, 2102, 3604, 3804, 4004 may instead be formed of a minimally-flexible material such as a metal composition. As an example of a metal composition, aluminum alloy 380 may be die-cast and utilized. The sliders 106, 2600, 3200 may be formed, for example, from a flexible material such as a plastic composition. As an example, DuPont Delrin 100T® may be utilized. The keys 320, 800, 2800, 4200, 4600 may, for example, be formed of a metal alloy. CDA 353 brass is an example of a suitable metal alloy for forming keys 320, 800, 2800, 4200, 4600. A slider dampener 2216, 2316, in a key organizing device 100, 2100, 3600, 3800, 4000 may be formed from a material having suitable flexibility and durability for frequent deformation as sliders 106, 2600, 3200 are deployed. For example, a polyurethane foam having Shore Durometer 50A+/−5 hardness may be utilized in forming a slider dampener 2216, 2316. A key dampener 1706 in a key organizing device 100, 2100, 3600, 3800, 4000 may be formed from a material having suitable flexibility and durability for frequent sliding engagement with keys 320, 800, 2800, 4200, 4600 as sliders 106, 2600, 3200 are deployed. As an example, Poron Quick-Recovery super-resilient open cell polyurethane foam, having a firmness of 8-14 pounds per square inch, a density of 15 pounds per cubic foot, a 100% stretch limit, and a tensile strength of 80 pounds per square inch may be utilized. Pins 3508 in sliders may be formed, for example, of a metal alloy such as 303 stainless steel. Exterior surfaces of key organizing devices 100, 2100, 3600, 3800, 4000 may have decorative surfaces, such as multiple-colored first and second housing elements 308, 310 for example.
Dimensions for the key organizing devices 100, 2100, 3600, 3800, 4000 and keys 320, 800, 2800, 4200, 4600 may be selected consistent with factors including utility and portability, as well as standardization. For example, key organizing devices 100, 2100, 3600, 3800, 4000 may be selected to hold six (6) keys 320, 800, 28004200, 4600, including three (3) keys 320, 800, 2800, 4200, 4600 having finger pads 402, 2602, 3202 exposed outside each of first and second housing elements 308, 310, 2108, 2110. Key organizing devices 100, 2100, 3600, 3800, 4000 configured with other arrangements of finger pads 402, 2602, 3202 and configured for holding different quantities of keys 320, 800, 2800, 4200, 4600 may also be fabricated. For example, a key organizing device 100, 2100, 3600, 3800, 4000 configured for holding six (6) keys 320, 800, 2800, 4200, 4600 may have overall dimensions including a width of about 1.17 inches, a height of about 0.67 inches, and a length of about 2.75 inches. Key slots 2002 may be, for example, about 1.0 inch tall and about 0.45 inch wide. Keys 320, 800, 2800, 4200, 4600 may, for example, be standardized with blades 902 having a thickness yyy within a range of between about 0.07 inch and about 0.10 inch, key heads 1002 having a width zzz of about 0.44 inch, and key head edges 906 having a thickness of about 0.1 inch. Keys 320, 800, 2800, 4200, 4600 and key organizing devices 100, 2100, 3600, 3800, 4000 may be mutually configured, for example, to provide a standardized deployment length for a key blade 902 in an extended position, such as about 1.9 inches. A key blade deployment length of 1.9 inches may provide at least about one-eighth of an inch of clearance between the key organizing device 100, 2100, 3600, 3800, 4000 and a lock (not shown) when a key 320, 800, 2800, 4200, 4600 is in use, to prevent scratching of the lock.
Keys 320, 800, 2800, 4200, 4600 may be configured for a wide variety of types of end-utilization, for example as keys 320, 800, 2800, 4200, 4600 for a vehicle, mailbox, deadbolt, house, office, or security lock. The key organizing device 100, 2100, 3600, 3800, 4000 may, for example, be utilized for holding a plurality of end-user selected keys 320, 800, 2800, 4200, 4600 or other implements configured for attachment into the key organizing device 100, 2100, 3600, 3800, 4000, such as a bottle opener, pen, knife, file, radio frequency identification fob, or bar code fob. Likewise, the keys 320, 800, 2800, 4200, 4600 may be configured for end-utilization in a wide variety of types of locks, or for holding non-key implements. While the foregoing description refers in some instances to the key organizing devices 100, 2100, 3600, 3800, 4000, and the keys 320, 800, 2800, 4200, 4600 as shown in the figures, it is appreciated that the subject matter is not limited to these structures, nor to the structures discussed in the specification. Other shapes and configurations of key organizing devices and keys may be fabricated.
Moreover, it will be understood that the foregoing description of numerous examples has been presented for purposes of illustration and description. This description is not exhaustive and does not limit the claimed invention to the precise forms disclosed. Modifications and variations are possible in light of the above description or may be acquired from practicing the invention. The claims and their equivalents define the scope of the invention.
This invention claims priority to U.S. Provisional Patent Application Ser. No. 60/845,887 filed Sep. 19, 2006, titled KEY ORGANIZATION DEVICE, and to U.S. Provisional Patent Application Ser. No. 60/845,998 filed Sep. 20, 2006, titled KEY ORGANIZATION DEVICE, both applications of which are incorporated in their entirety by reference in this application.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2007/078960 | 9/19/2007 | WO | 00 | 3/19/2009 |
Publishing Document | Publishing Date | Country | Kind |
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WO2008/036783 | 3/27/2008 | WO | A |
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