This application is related to U.S. patent application Ser. No. 13/781,680 filed on Feb. 28, 2013, the entirety of which is hereby incorporated by reference.
Bicycles are a popular form of transportation. As the highways become more congested and green technologies are encouraged, more individuals are deciding to use their bicycles for commuting. As a mode of transportation, bicycles are relatively simple devices. However, there are times when bicycles must be serviced. In some instances, repair is necessary when a bicycle is away from the individual's residence or bicycle shop.
In one non-limiting aspect, a bicycle service kit includes: a main body extending vertically from a base; at least one slot formed at an upper end of the main body; and at least one cable positioned in the slot, the cable including a head portion held within an interior of the main body, the head portion having a dimension larger than a width of the slot, the cable including a free end configured to be attached to a bicycle tool.
In another non-limiting aspect, a bicycle service kit includes: a circular main body defining an open interior; a shelf formed in the open interior of the main body, the shelf defining a plurality of slots; at least one cable positioned in at least one of the slots, the cable including a head portion held within the open interior of the main body, the head portion having a dimension larger than a width of the slot, the cable including a free end configured to be attached to a bicycle tool; and a front cover coupled to close the open interior of the main body.
The present disclosure relates generally to bicycle service kits. In example embodiments, the bicycle service kits provide a plurality of components that allow one to service (e.g., repair and/or maintain) a bicycle or similar device. In some examples, the bicycle service kits are configured to allow the bicycle service kits to be located in an urban environment, such as along a bicycle path, so that riders can conveniently perform service as required while using the bicycles.
Referring now to
The bicycle service kit 100 includes an example main body 110 having a first end 112 and a second end 114. In this example, the main body 110 is a cylindrical tube, although other shapes can be used, such as rectangular, oblong, etc. shapes or other structures can comprise the main body 110.
In one example embodiment, the main body 110 is hollow and forms slots 116 at the first end 112. In this example, two slots 116 are formed on opposite points along the main body 110. However, more or fewer slots 116 could be used.
Positioned within the slots 116 is a plurality of cables 136 with a plurality of tools 138 affixed thereto. See
In this example, the cables 136 are positioned within the slots 116 during assembly. See
When the cables 136 have been inserted into the slots 116, a cap 118 is positioned on the first end 112 of the main body 110, and a bolt 120 is used to couple the cap 118 to the first send 112. The bolt 120 includes a special head that resists removal without a special tool. In this manner, the cables 136 are secured so that tampering of the cables 136 is not possible, since the cap 118 cannot be easily removed.
Such a configuration is advantageous to protect the cables 136 from detachment and/or tampering of the cables 136. In other embodiments, the tools 138 may be connected to retractable cables that, when not in use, retract into an interior portion of the main body 110. The tools 138 may also include magnets thereon to hold the tools to the main body 110 when not being used or to prevent them from interfering with use of other tools.
In one alternative, the first end 112 can be rotatably-mounted to the main body 110 so that the first end 112 can be rotated about an axis of the main body 110. For example, the slots 116 on the first end 112 can be rotated into the 3, 6, and 9 o'clock positions to optimize how the cables 136 with the tools 138 from the main body 110. In a same or another alternative, the first end 112 can include one or more supports that extend upward from the main body 110 to allow a height at which the first end 112 is positioned to be adjusted. In this manner, the bicycle service kit 100 can be configured to service bikes of different sizes and accommodate users of different heights.
The second end 114 of the main body 110 defines a base 115 upon which the bicycle service kit 100 can be mounted. For example, the base 115 includes a plurality of holes 126 through which bolts 122 can be extended to affix the bicycle service kit 100 to the ground.
For example, a process for installing the bicycle service kit 100 is shown in
At step 3, the bicycle service kit 100 is replaced and leveled. One or more washers 128 can be positioned under the base 115 to level the bicycle service kit 100. Finally, at step 4, the bolts 122 are positioned through the holes 126 to affix the bicycle service kit 100 to the place of installation. In these examples, the bicycle service kit 100 is permanently affixed so that it is not meant to be moved by users of the bicycle service kit 100.
In the example shown, the main body 110 is formed from 2 inch sch. 40 pipe. The cap 118 is a 3/16″ inch plate. The base 115 is 8 inches in diameter and 0.25 inches in thickness. The cables 136 are 5/32 inch stainless steel cable. Other dimensions can be used.
The bicycle service kit 100 can include a hot-dipped galvanized finish performed after fabrication. In addition, a plurality of TGIC powder-coated colors can be used to personalize the bicycle service kit 100.
Referring now to
The bicycle service kit 200 includes an example main body 210 having an open interior 220. See
The bicycle service kit 200 is configured to be mounted to a wall or other structure. In this example, the interior 220 of the main body 210 defines a plurality of openings 232 through which a screw, nail or other fastener can be placed to affix the main body 210 to the wall. In some examples, the main body 210 is mounted at a desired height from the ground, such as 54 inches. However, the height can be increased or decreased depending on the application.
Once in place on the wall or other structure, a plurality of the cables 136 is suspended from the main body 210. As shown in
Once the cables 136 are in place, a front cover 212 is positioned onto the main body 210 and affixed thereto with a tamper-resistant bolt 214. After the front cover 212 is attached, the cables 136 cannot be easily removed from the main body 210, since the front cover 212 closes off the slots 224 formed by the shelf 222. This makes the bicycle service kit 200 resistant to tampering.
In this example, the tools 138 suspended from the cables 136 of the bicycle service kit 200 include: Philips and flat head screwdrivers; 2.5, 3, 4, 5, 6, 8 mm Allen wrenches; Headset wrench; and Pedal wrench. More or fewer tools can be provided.
In this example, the main body 210 is a 6.308×0.154 inch tube, with a 3/16 inch plate. The bicycle service kit 200 can likewise be finished in a manner similar to that described above.
As shown in
Referring now to
In some examples, such as that depicted in
In some examples, the bicycle tool kits 100, 200 are used in conjunction with other components, such as an air pump. Such an air pump could be freestanding or affixed to a structure. The air pump can be used to service bicycle tires, and can include such features as a pressure gauge.
In other designs, one or both of the bicycle service kits 100, 200 include a QR code 192, such as affixed to a main body thereof. The QR code 192 can be read by computers and smartphones. The QR code can provide information, such as links to videos and/or instructions on bike maintenance. For example, the QR code can be read by a user's smartphone, and the result can be to provide the user with a video on how to change a flat tire on a bicycle, using the tools 138 provided by the bicycle service kit 100. Multiple QR codes or similar information can be provided.
There are various advantages associated with the bicycle service kits described herein. For example, the kits provide a self-contained unit that can be used to service many aspects of a bicycle. This includes both service of the mechanical aspects of the bicycle, as well as the tires (e.g., by providing air to the tires). This is accomplished with a minimal footprint associated with the bicycle service kits, since all components of the bicycle service kits are integrally-formed when installed.
In another advantage, the various components of the bicycle service kits are securely attached to minimize the possibility of tampering or damage to the components. For example, the cables are attached to the tools and the main body in such a manner to resist removal of the tools, while allowing maximum workability for the tools.
The various embodiments described above are provided by way of illustration only and should not be construed as limiting. Various modifications and changes may be made to the example embodiments and applications illustrated or described herein or below without departing from the true spirit and scope of the disclosure.
Number | Name | Date | Kind |
---|---|---|---|
3355136 | Staples | Nov 1967 | A |
3990279 | Brickel | Nov 1976 | A |
D281199 | Prawl | Oct 1985 | S |
4807453 | Bernier et al. | Feb 1989 | A |
5065921 | Mobley | Nov 1991 | A |
5094373 | Lovci | Mar 1992 | A |
5119649 | Spence | Jun 1992 | A |
5129559 | Holliday | Jul 1992 | A |
5190195 | Fullhart et al. | Mar 1993 | A |
5373978 | Buttchen et al. | Dec 1994 | A |
5513508 | Saunders et al. | May 1996 | A |
5752416 | Nien | May 1998 | A |
6006555 | Shu-Fen | Dec 1999 | A |
7337638 | Tierney | Mar 2008 | B1 |
8596102 | Loughlin et al. | Dec 2013 | B2 |
8627774 | Pearce | Jan 2014 | B2 |
20130219705 | Scholtz et al. | Aug 2013 | A1 |
Number | Date | Country | |
---|---|---|---|
20140263880 A1 | Sep 2014 | US |