Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
  • B62M—RIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
  • B62M3/00—Construction of cranks operated by hand or foot
  • B62M3/02—Construction of cranks operated by hand or foot of adjustable length
  • B62M3/04—Construction of cranks operated by hand or foot of adjustable length automatically adjusting

Definitions

• This invention is a continuation-in-part of my application Serial No. 901,363, filed April 28, 1978.
• This invention relates to bicycles. More particu ⁇ larly, this invention is related to bicycle pedal assemblies.
• This invention provides for an effective means of increasing the efficiency of a bicycle pedal assembly in changing human energy into a driving force on the bicycle's chain. This is accomplished by attaching the pedal to a pedal guide that telescopes on the pedal arm as the pedal arm rotates around the pedal axle. The motion of the pedal guide is controlled by a cam ring which rotates around the cam plate.
• this invention fulfills the needs of the prior art by providing an apparatus for telescoping the pedal of a pedal assembly during the rotation of the pedal around a pedal assembly axle, the apparatus comprising a spindle housing; an axle shaft; said axle shaft being rotatably located within said spindle housing; a cam plate located on said axle shaft such that said cam plate is stationary with respect to said spindle housing; a cam ring circum- ferentially spaced from said cam plate; a pedal arm; a telescopable pedal guide having a lead bolt as one element; and a sprocket that is fixably attached to said pedal axle; said lead bolt being slidably
• Fig. 3 is a perspective view of a guide bearing surface of the embodiment illustrated in Fig. 1.
• Fig. 4 is a plan view, partially sectionalized for clarity, of the embodiment illustrated in Fig. 1.
• Fig. 5(a), 5(b) and 5(c) are a continuation ex ⁇ ploded view of a second embodiment of this invention.
• Fig. 6 is a top plan view, partially sectionalized, of the embodiment illustrated in Fig. 5.
• Pedal guides 1 and 39 are comprised of hollow cylinders 3 and 43, pedals 5 and 41, and lead bolts 7 and 45, respectively.
• Pedals 5 and 41 are affixed on the opposite side and towards the opposite ends of hollow cylinders 3 and 43 from where lead bolts 7 and 45 are located.
• Hollow cylinders 3 and 43 have an interior diamter greater than the diameter of pedal arms 13 and 51, respectively. This enables pedal guides 1 and 39 to be easily slipped off pedal arms 13 and 51 after disconnecting lead bolts 7 and 45 from the rest of the bicycle assembly.
• the linear motion of pedal guides 1 and 39 along pedal arms 13 and 51 is not restricted by pedal arms 13 and 51, enabling pedal guides 1 and 39 to telescope on pedal arms 13 and 51 with respect to pedal axle 19.
• Pedal arms 13 and 51 are comprised of rods 15 and 53 and axle end housings 17 and 55, respectively.
• Rods 15 and 53 are of a diameter such that the interior faces of hollow cylinders 3 and 43, respectively, can slide on them during the telescoping motion of pedal guides 1 and 39 on pedal arms 13 and 51, respec ⁇ tively.
• Axle end housings 17 and 55 are located at one end of rods 15 and 53 and have holes therein to receive the ends of pedal axle 19 and bolts 57 and 59.
• Ball bushings 111 and 113, 115 and 117 are placed on rods 15 and 53, respectively, one located under each end of pedal guides 1 and 39 to help minimize the friction of the relative linear sliding motion between pedal guides 1 and 39 and pedal arms 13 and 51.
• Oil seals 119 and 121, 123 and 125 are placed on the ends of ball bushings 111 and 113, 115 andll7, respectively, such that oil seals 119 and 121, 123 and 125 are on both ends of pedal guides 1 and 39, in order to keep lubricating oil between pedal guides 1 and 39 and pedal arms 13 and 51.
• Holes are located in hollow cylinders 3 and 43 so that oil caps 107 and 109, respectively, may be inserted. This enables one to inject lubricating oil between hollow cylinders 3 and 43 and rods 15 and
• Axle shaft 19 has located thereon spindle housing 12, spindle bearings 23 and 25, spacers 27 and 29, and guide plates 35 and 37, respectively.
• the ends of axle shaft 19 are fastened into axle end housing 17 and 55 by bolts 57 and 59, washers 61 and 63, and nuts 65 and 67, respectively.
• Bolts 57 and 59 engage slots at each end of axle shaft 19 to lock axle shaft 19 in place.
• Spindle bearings 23 and 25 are placed on axle shaft 19 between spindle housing 12 and pedal axle 19, one at each end of spindle housing 12, to allow axle 19 to rotate with respect to spindle housing 12.
• Spacers 27 and 29 are located on pedal axle 19, one on each end of spindle housing 12, between spindle housing 12 and guide plates 35and 37. This configuration of the elements enables axle shaft 19 to rotate in spindle housing 12 while spindle housing 12 remains stationary with reference to the nonrotating parts of the rest of the bicycle.
• Guide plates 35 and 37 are flat circular plates having slots therein. Two of these slots are radial slots into which guide bearing surfaces 103 and 105, respectively, are fastened. Guide bearing surfaces 103 and 105 provide a surface on which guide bearings 77 and 95, respectively roll.
• the other slots in guide plates 35 and 37 have the functions of making the apparatus lighter for greater energy efficiency, and of lessening the material costs.
• Lead bolts 7 and 45 retain thereon guide bearings 77 and 95, spacers 79 and 93, washers 83 and 89, cam bearings 82 and 84, washers 83 and 89, and nuts 85 and 87, respectively.
• Guide bearings 77 and 95 are located on lead bolts 7 and 45 and allow guide plates 35 and 37 to rotate with respect to lead bolts 7 and 95, respectively.
• Cam bearings 84 and 82 are located directly on lead bolts 7 and 45. As illustrated in
• cam bearings 84 and 82 permit cam rings 32 and 34 to rotate with respect to lead bolts 7 and 45.
• Guide bearing surfaces 103 and 105 have an edge extending inward to retain guide bearings 77 and 95 thereunder.
• Cam plates 31 and 33 are flat plates that are placed on spindle housing 12, having slots therein to minimize their weight and holes therein to receive axle shaft 19.
• One of cam plates 31 and 33 is located at each end of spindle housing 12.
• Cam plates 31 and 33 have peripherally located thereon ring bearings 127 and 129 and cam rings 32 and 34, respectively.
• Ring bearings 127 and 129 are located between cam plates 31 and 33 and cam rings 32 and 34. The use of ring bearings 127 and 129 allow cam plates 31 and 33 to remain stationary with respect to spindle housing 12 while cam rings 32 and 34 rotate with lead bolts 7 and 45, respectively.
• Cam rings 32 and 34 rotate because they engage lead bolts 7 and 45 which rotate when pedal arms 13 and 51 are rotated as the bicycle is being ridden.
• Chain sprocket 97 is fixedly attached to (in this embodiment by screws 98) one of guide plates
• Chain sprocket 97 has a gap therein to receive guide bearing surface 103 which also has means to engage and drive the bicycle chain.
• One way to simplify this invention would be to remove ball bushings 111, 113, 115, and 117, oil seals 119, 121, 123, and 125, and oil caps 107 and 109. If these items were removed, cylinders 3 and 43 could be of one constant dimension instead of having two dimensions as illustrated in Fig. " 1, and the interior surfaces of cylinders 3 and 43 would directly interface the exterior surfaces of pedal arms 15 and 53. However, the frictional problems would increase and more energy would be needed to operate the apparatus.
• a second embodiment of this invention is illu ⁇ strated by Figs. 5(a), 5(b), 5(c), and 6.
• This embodi ⁇ ment is similar to the first embodiment with the follow ⁇ ing differences.
• Lead bolts 7 and 45 are removably attached to pedal guides 1 and 39 instead of being fixably attached thereto.
• One end of lead bolts 7 and 45 is threaded to screw into guide rod holders 133 and 135, which are a part of pedal guides 1 and 39, respectively.
• Guide rod holders 133 and 135 are located at a right angle with pedals 5 and 41 near the opposite ends of pedal guides 1 and 39 from pedals 5 and 41.
• Lead bolts 7 and 45 have as an element thereof washers 137 and 139, respectively, which, when the apparatus is assembled, are located between guide rod holders
• Ball bushings 141 and 143 are also located on lead bolts 7 and 45, respectively, and have the function of ensuring that lead bolts 7 and 45 easily rotate with respect to guide rod plugs 145 and 147, respectively.
• Guide rod plugs 145 and 147 radially surround guide bearings 77 and 95 and ball bushings 141 and 143 and, screw into nuts 149 and 151, which are a part of cam rings 32 and 34, respectively.
• lead bolts 7 and 45 remain stationary with respect to and rotate with pedal guides 1 and 39 and guide rod plugs 145 and 147 remain stationary with respect to and rotate with cam rings 32 and 34.
• hollow cylinders 3 and 45 have a constant diameter instead of having two diameters as in the first embodiment. This makes it possible to place three ball bushings in between pedal guides 1 and 39 and pedal arms 13 -and 51. Ball bushings 114 and 116 are placed on rods 15 and 53, respectively, in between all bushings 111 and 113, 115 and 117, thus further reducing the friction between pedal guides 1 and 39 and pedal arms 13 and 51 as the apparatus operates.
• Axle end housings 17 and 55 and pedal axle 19 are of a slightly different shape in this embodiment.
• Axle end housings 17 and 55 have an interior wall with a hole therethrough to receive pedal axle 19.
• Pedal axle 19 is threaded on both ends so that nuts 153 and 155, respectively, can be placed thereon to fasten pedal axle 19 to pedal arms 1-3 and 51.
• Axle plugs 157 and 159 are then screwed into the outside of axle end housings 17 and 55, respectively, to protec the assembly from dirt, water, grime, etc.
• cam bearing surfaces 161 and 163 have been added.
• Cam bearing surfaces 161 and 163 are located in cam plates ball bushings 69 and 71, respectively.
• Cam plate ball bushings 69 and 71 are located on axle shaft 19.
• cam plates 31 and 33 remain stationary with respect to other non-rotating elements of the apparatus as pedal axle 19 rotates.
• Cam bearing surfaces 161 and 163 have an outer edge that protrudes into the hole in which cam plate ball bushings 69 and 71 are received to retain cam ball bushings 69 and 71 in place.
• cam bearing surfaces 161 and 163 have holes therein of sufficient size such that the threaded ends of screws 47 and 91, respectively, can pass throug but such that the heads of screws 47 and 91 cannot pass through.
• Cam plate ball bushings 69 and 71 are retained in their appropriate places, when the apparatus is assembled, by axle plate 21 and spindle plate 171. Spindle plate 171 is attached to cam bearing surface 163 by screws 91.
• Spindle ball bushing 165 is located on pedal axis 19 under spindle housing 12 and is held in place laterally by axle plates 21 and 73.
• Chain sprocket 97 in this embodiment, with slots therein to minimize the weight, holes therein to receive screws 75, and a hoi e in the center to receive pedal axle 19.
• Chain sprocket 97 is bolted to axle plate 73, which is located on axle shaft 19, by bolts 75 and nuts 76.
• Pedal axle 19 has also located thereon spacer 20 which separates chain sprocket 97 from axle end housing 55 by the proper distance.
• Chain guard 167 is fastened to spindle housing 12 by screws 169 and has the function of preventing a rider's clothing, etc., from getting tangled up in the chain. Chain guard 167 is also attached to cam plate 33 by screws 173 and 175. Cam plate ball bushing 71 is held in the proper hole in cam plate 31 by axle plate 171 which is attached to cam plate 31 by screws 91.
• OMPI OMPI and drive a chain attached thereto.
• the chain sprocket illustrated is, thus, generic to these types of devices, conventional bicycles being one preferred environment for this invention. If the disclosed apparatus is to be installed on an existing bicycle or other such device, some modification of the bicycle frame or other framework may be necessary in order to make the installation.
• pedal arms 13 and 51 are moving in a true circle with pedal axle 19 as the center of the-circle while pedal guides 1 and 39, pedals 5 and
• guide plates 35 and 37 are centrally located on pedal axle 19 and receive lead bolts 7 and 45 thru a slot therein.
• This slot is further defined by guide bearing surfaces 103 and 105, which are attached to guide plates 35 and 37 and interface with guide bearings 77 and 95, guide bearings 77 and 95 being located on lead bolts 7 and 45.
• guide bearings 77 and 95 move up and down the slot of guide bearing surfaces 103 and 105 which are rotating with guide plates 35 and 37, rotating on lead bolts 7 and 45.
• Bush bearings 84 and 82 are engaged by the proper holes in cam rings 32 and 34 and minimize the friction between cam rings 32 and 34 and lead bolts 7 and 45.
• Pedal axle 19 rotates under spindle bearings 23 and 25 while spindle housing 12 and cam plates 31 and 33 remain stationary with respect to the other non-rotating elements of the pedal assembly.
• guide bearings 77 and 95 and ball bushings 141 and 142 allow guide rod plugs 145 and 147 to rotate with respect to lead bolts 7 and 45 as lead bolts 7 and 45 and cam rings 32 and 34 rotate.
• Cam plate ball bushings 69 and 71 allow pedal axle 19 to rotate with respect to cam plates 31 and 33 and spindle ball bushing 165 enables pedal axle 19 to rotate with respect to spindle housing 12.
• cam plates 31 and 33 which control the elliptical motion of lead bolts 7 and 45, as described above, and thus, control the telescoping of pedals 5 and 41, are designed so that, at the start of the downward stroke of a pedal of a bicycle with this apparatus installed therein the maximum leverage that can be attained thru the use of this apparatus is attained. This increases the length of the downward stroke of the pedal so that the rider can exert more force on the pedal per rotation, thus increasing the pedal assembly's effi ⁇ ciency.
• This increase in force per rotation means that a bicycle with this apparatus installed therein will require less energy to be expended by the rider to ride afixed distance at a fixed speed than if the rider was riding a conventional bicycle that did not have this apparatus installed therein. Likewise, if a rider would exert equal energy on a bicycle with this apparatus installed therein and a conventional bicycle, the bicycle with this apparatus installed therein would go faster and farther than the conven ⁇ tional bicycle.

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• Engineering & Computer Science (AREA)
• Chemical & Material Sciences (AREA)
• Combustion & Propulsion (AREA)
• Transportation (AREA)
• Mechanical Engineering (AREA)
• Transmission Devices (AREA)
• Mechanical Control Devices (AREA)

Applications Claiming Priority (2)

Publications (2)

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ID=22280707

Family Applications (1)

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Citations (4)

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• 1980
  • 1980-11-25 JP JP50035581A patent/JPS56501644A/ja active Pending
  • 1980-11-25 WO PCT/US1980/001579 patent/WO1981001620A1/en not_active Ceased
  • 1980-11-25 EP EP19810900167 patent/EP0041560A4/en not_active Ceased
  • 1980-11-25 BR BR8008938A patent/BR8008938A/pt unknown
  • 1980-12-03 CA CA000366040A patent/CA1163285A/en not_active Expired
  • 1980-12-03 ES ES497404A patent/ES497404A0/es active Granted
  • 1980-12-04 MX MX185044A patent/MX151650A/es unknown
  • 1980-12-04 IT IT68850/80A patent/IT1141635B/it active
• 1981
  • 1981-07-29 DK DK338081A patent/DK338081A/da not_active Application Discontinuation

Patent Citations (4)

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