The present disclosure relates generally to a multi-tool and, more specifically, relates to a multi-tool for use with a bicycle.
In the following detailed description, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific examples in which the disclosure may be practiced. It is to be understood that other examples may be utilized and structural or logical changes may be made without departing from the scope of the present disclosure. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present disclosure is defined by the appended claims.
As disclosed herein, plates 100 and 200 are pivotally connected such that sides 102 and 201 of respective plates 100 and 200 oppose or face each other in a closed position. In one example, in the closed position, plates 100 and 200 nest or overlap with each other. As such, edges 103 and 203 of respective plates 100 and 200 are substantially aligned, and edges 104 and 204 of respective plates 100 and 200 are substantially aligned (see, e.g.,
In one implementation, a thickness T1 of handle portion 110 of plate 100 is less than a thickness T2 of joint portion 120 of plate 100 (see, e.g.,
In the illustrated example, joint 14 includes a bolt 20 and a nut 22. In addition, in one implementation, joint portions 120 and 220 of respective plates 100 and 200 have respective and corresponding holes 122 and 222 formed therethrough. As such, in one implementation, bolt 20 and/or nut 22 extend into and/or pass through holes 122 and 222, and are threaded together to pivotally couple plates 100 and 200. In one implementation, bolt 20 is a chainring bolt and nut 22 is a T-nut. As such, bolt 20 and/or nut 22 may be used to replace a chainring bolt and/or nut on a bicycle.
In one implementation, joint 14 includes a washer 24 interposed between joint portions 120 and 220 of respective plates 100 and 200. As such, washer 24 helps to space apart or position plates 100 and 200 relative to each other and provides a bearing surface for pivotal movement of plates 100 and 200 relative to each other. In one implementation, washer 24 is fit within corresponding and respective recesses 124 and 224 formed within respective joint portions 120 and 220 concentric with respective holes 122 and 222. In one example, washer 24 is formed of a polymer material, including, for example, an acetal, such as Delrin, or a polyamide, such as Nylon.
In the illustrated example, head portions 130 and 230 extend from an end of respective plates 100 and 200. In one implementation, head portions 130 and 230 each have respective jaw sections 132 and 232 and respective tips 134 and 234. Jaw sections 132 and 232 oppose each other and, as disclosed herein, together form gripping jaws 18 of multi-tool 10 (see, e.g.,
In one example, tips 134 and 234 are configured to disengage and/or engage or remove and/or install a chain link of a roller chain, such as a master link for a roller chain of a bicycle, including, for example, a Quick-Link by Shimano. More specifically, as disclosed herein, tips 134 and 234 are sized and shaped such that tips 134 and 234 may engage teeth receiving openings formed by spaced link plates of a roller chain. In one implementation, tips 134 and 234 are sized and shaped as single or individual teeth. As such, tips 134 and 234 have respective ends 135 and 235 and respective faces or engaging surfaces 136, 137 and 236, 237 (see also
In the illustrated example, head portions 130 and 230 of respective plates 100 and 200 include respective shoulders 138 and 238. In one implementation, as disclosed herein, shoulders 138 and 238 limit or stop rotation of plates 100 and 200 relative to each other.
In one example, handles 12 are magnetically attracted to each other. More specifically, in one implementation, handle portions 110 and 210 include respective magnetic elements 31 and 32. As such, as disclosed herein, magnetic elements 31 and 32 provide a magnetic closure to and magnetically couple handle portions 110 and 210 of respective plates 100 and 200.
In one example, magnetic elements 31 and 32 are attached to, secured to, or positioned on or in opposing sides of respective handle portions 110 and 210. For example, magnetic element 31 of handle portion 110 is attached to, secured to, or positioned on or in side 102 of plate 100, and magnetic element 32 of handle portion 210 is attached to, secured to, or positioned on or in side 201 of plate 200. In the illustrated example, magnetic elements 31 and 32 are attached to, secured to, or positioned on or in opposing sides of respective handle portions 110 and 210 within respective recesses or cavities 112 and 212.
In one example, magnetic element 32 is or includes a magnet, and magnetic element 31 is or includes a magnet or is or includes an element (i.e., keeper) formed of a material to which a magnet may be attracted (e.g., a ferrous material). Magnetic elements 31 and 32 each may be a disk, plate, strip, or sheet, and each may be of a circular, rectangular, or other shape.
In one implementation, handle portion 210 of plate 200 includes a storage area 214. In the illustrated example, storage area 214 includes a recessed region 215 formed in side 201 of plate 200 and one or more than one hole 216 formed through plate 200 within recessed region 215. In one implementation, storage area 214 is configured to receive and store a chain link for a roller chain, such as a master link for a roller chain of a bicycle, including, for example, a Quick-Link by Shimano. More specifically, as disclosed herein, recessed region 215 is configured to receive and store a link plate of a roller chain and hole 216 is configured to receive a link pin extended from the link plate.
In one example, hole 216 includes a corresponding recess 217 at side 202 of plate 200. In one example, recess 217 includes a countersink, counterbore, spot face or other recess. In one implementation, recess 217 includes a spherical countersink. In other examples, recess 217 may include a beveled or chamfered countersink.
In one example, recessed region 215 includes an array of recessed regions 215 and corresponding holes 216 each configured to receive a respective link plate and corresponding link pin. In one implementation, the array of recessed regions 215 are contiguous and the corresponding holes 216 are staggered. In the illustrated example, the array of recessed regions 215 and corresponding holes 216 includes four recessed regions 215 and four corresponding holes 216 configured to receive two chain links (i.e., two pairs (or two sets) of mating chain link plates).
In the illustrated example, handle portion 210 of plate 200 includes a dished section 218 formed at or extended from an end of handle portion 210. As such, in one implementation, handle portion 210 may be used as a tire lever. More specifically, as disclosed herein, dished section 218 may be used as a tire lever spoon for removing a tire from and/or installing a tire on a wheel rim, such as a wheel rim of a bicycle.
In the illustrated example, handle portion 110 of plate 100 has an opening 114 formed therethrough at or adjacent an end of handle portion 110. As such, in one implementation, handle portion 110 may be used as a wrench. More specifically, as disclosed herein, opening 114 is sized and shaped such that handle portion 110 may be used as a tool for loosening and/or tightening or removing and/or installing a valve core of a valve stem of an inner tube or a wheel rim, such as an inner tube or a wheel rim of a bicycle. In one implementation, opening 114 is an enclosed opening. In one implementation, opening 114 is Y-shaped. In one example, each leg or arm of the Y-shape may be used as a wrench.
In the illustrated example, in the closed position, plates 100 and 200 nest or overlap with each other. More specifically, in the closed position, edges 103 and 203 and edges 104 and 204 of respective plates 100 and 200, as extended along respective handle portions 110 and 210 and extended along respective joint portions 120 and 220, are substantially aligned with each other.
In one implementation, tips 134 and 234 of respective head portions 130 and 230 are oriented at an angle relative to respective plates 100 and 200. More specifically, in one example, axes 139 and 239, extended through ends 135 and 235 of respective tips 134 and 234, are oriented at respective angles A1 and A2 relative to edges 103 and 204 of respective plates 100 and 200.
In one implementation, plates 100 and 200 are pivotally coupled at joint 14 such that joint portions 120 and 220 overlap with each other. More specifically, in one example, shoulders 106 and 206 are correspondingly positioned on sides 102 and 201 of respective plates 100 and 200, and plates 100 and 200 are pivotally coupled, such that, in a closed position of multi-tool 10, joint portions 120 and 220 nest with each other.
In the illustrated example, in the closed position, plate 200 extends beyond plate 100. More specifically, an end 219 of handle portion 210 of plate 200 extends beyond an end 119 of handle portion 110 of plate 100. As such, in one example, in the closed position, dished section 218 of handle portion 210 extends beyond end 119 of plate 100.
In the illustrated example, from a closed position to an open position, handle portion 110 of plate 100 is rotated or pivoted relative to handle portion 210 of plate 200 about joint 14. More specifically, handle portion 110 of plate 100 is pivoted, for example, away from handle portion 210 of plate 200, as represented by arrow R1. As such, jaw section 132 of head portion 130 is pivoted relative to jaw section 232 of head portion 230. More specifically, jaw section 132 of head portion 130 is pivoted, for example, away from jaw section 232 of head portion 230, as represented by arrow R2. Thus, in the illustrated example, gripping jaws 18 are in an example of an open position. In an open position, gripping jaws 18 may be used to grip or hold an object, for example, a bolt, nut, or other object.
In the illustrated example, handle portion 110 of plate 100 is pivoted relative to handle portion 210 of plate 200 by approximately 90 degrees of rotation. As such, jaw section 132 of head portion 130 is pivoted relative to jaw section 232 of head portion 230, by approximately 90 degrees of rotation. In other examples, handle portion 110 of plate 100 may be pivoted relative to handle portion 210 of plate 200 by other degrees of rotation including, for example, degrees of rotation between approximately 0 degrees and approximately 90 degrees. In addition, in examples, handle portion 110 of plate 100 may be pivoted relative to handle portion 210 of plate 200 by greater than 90 degrees of rotation. Although handle portion 110 of plate 100 is illustrated as being pivoted relative to handle portion 210 of plate 200, handle portion 210 of plate 200 may be pivoted relative to handle portion 110 of plate 100, or handle portion 110 of plate 100 and handle portion 210 of plate 200 may both be pivoted relative to each other.
In one implementation, shoulders 138 and 238 of respective head portions 130 and 230 provide stops to limit pivoting or rotation of plates 100 and 200 relative to each other. For example, in the illustrated example, edge 104 of plate 100 engages or contacts shoulder 238 of plate 200 and/or edge 203 of plate 200 engages or contacts shoulder 138 of plate 100 such that rotation of plates 100 and 200 relative to each other is limited or stopped.
In one example, as handle portion 110 of plate 100 and handle portion 210 of plate 200 are brought into proximity of each other, for example, as handle portion 110 of plate 100 is pivoted relative to handle portion 210 of plate 200 and toward the closed position of
In the illustrated example, roller chain 60 includes and/or is formed by alternating, overlapping pairs of laterally spaced link plates 62. In one example, alternating, overlapping pairs of spaced link plates 62 are pivotally interconnected by link pins 64 extended through cylindrical rollers 66 provided between spaced link plates 62 at overlapping, opposite ends of spaced link plates 62. As such, laterally spaced link plates 62 form alternating teeth receiving openings 68.
As illustrated in the example of
As such, as illustrated in the example of
As illustrated in the example of
In one example, chain link 50 includes a pair of corresponding link plates 51 and 52 having respective link pins 53 and 54 extending therefrom. As such, link pins 53 and 54 engage corresponding link pin slots 56 and 55 formed in respective link plates 52 and 51 to assemble chain link 50.
As illustrated in the example of
As illustrated in the example of
In one implementation, magnetic element 32 is positioned within recessed region 215 of storage area 214 such that link plates 51 and 52 each overlap at least a portion of magnetic element 32 when link plates 51 and 52 are positioned within recessed region 215. As such, link plates 51 and 52 are attracted by magnetic element 32 such that magnetic element 32 helps to retain or hold link plates 51 and 52 within recessed region 215 of storage area 214. In addition, in the closed position, plate 100 covers storage area 214 such that plate 100 helps to retain or hold link plates 51 and 52 within recessed region 215 of storage area 214.
In one example, holes 216 of storage area 214 include corresponding recesses 217 at side 202 of plate 200 such that respective ends of link pins 53 and 54 protrude into or through respective recesses 217. As such, recesses 217 help provide access to link pins 53 and 54 for removal of link plates 51 and 52 from storage area 214, for example, by pressing link pins 53 and 54 from side 202 of plate 200. In one example, recesses 217 include a countersink, counterbore, spot face or other recess. In one implementation, recesses 217 include a spherical countersink. In other examples, recesses 217 may include a beveled or chamfered countersink.
In the illustrated example, two chain links 50 (each including a pair of corresponding link plates 51 and 52 having respective link pins 53 and 54 and respective link pin slots 55 and 56) are stored within storage area 214. The number of chain links stored within storage area 214, however, may vary.
A multi-tool as disclosed herein includes multiple features and provides multiple uses, including, for example, installing and/or removing a chain link of a roller chain, gripping jaws, chain link storage, magnetic closure, tire lever, and valve core removal.
Although specific examples have been illustrated and described herein, it will be appreciated by those of ordinary skill in the art that a variety of alternate and/or equivalent implementations may be substituted for the specific examples shown and described without departing from the scope of the present disclosure. This application is intended to cover any adaptations or variations of the specific examples discussed herein. Therefore, it is intended that this disclosure be limited only by the claims and the equivalents thereof.
This application claims priority under 35 U.S.C. § 119(e) to U.S. Provisional Patent Application Ser. No. 62/641,585 filed on Mar. 12, 2018, and incorporated herein by reference.
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Number | Date | Country | |
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20190275651 A1 | Sep 2019 | US |
Number | Date | Country | |
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62641585 | Mar 2018 | US |