Patent Document

CROSS-REFERENCE TO RELATED APPLICATIONS 
     This application claims the benefit of provisional patent application Ser. No. 61/934,739 and Ser. No. 61/934,746, both filed 1 Feb. 2014 by the present inventor. 
    
    
     FIELD OF THE INVENTION 
     The present invention is in the technical field of friction drive power systems. 
     BACKGROUND OF THE INVENTION 
     Friction drive power systems are commonly used in many applications, including to power bicycle wheels by means of a motor driving a bicycle tire directly or indirectly. The motor is typically mounted in a semi-permanent or permanent fixed position adjacent to either wheel. The motor can then either drive the wheel through a secondary roller mechanism pressed against the tire or directly via tire contact with the rotating outer shell of an outrunner-type motor. 
     Friction drive power systems designed for bicycle use have thus comprised a roller mechanism driving the front wheel, like Patent No. U.S. Pat. No. 3,431,944 to Wood or Patent No. EP 0155185 to Barker. Or alternatively, a roller mechanism positioned to drive the rear wheel like Patent No. EP 1398265 to Motte. Or alternatively, a direct outrunner-motor drive on the rear tire like U.S. Patent App. No. 2011/0232985 to Lee or U.S. Patent App. No. 2013/0225360 to Hirn. 
     However, substantially all implementations of friction drive power systems for bicycles are permanently or semi-permanently installed on a single bicycle, and are not easily removed and reinstalled on the same or other bicycle. In addition, substantially all bicycle friction drive systems are unable to power common bicycle share bikes. Moreover, substantially all bicycle friction drive systems are unable to power other non-bicycle wheeled vehicles like kick scooters. And further, substantially all existing friction drive systems are not fully contained in a lightweight, compact, and conveniently carried package, and possess no means to safely and cleanly contain the motor or roller system, which can be dangerous if activated accidentally and is frequently dirty from use. 
     SUMMARY OF THE INVENTION 
     The present invention relates to a portable, multi-platform, friction drive system with a retractable motor drive assembly for use on bicycles, kick scooters, or other wheeled personal transport vehicles. Embodiments of the present invention contain all needed components of an electric friction drive system in a portable handheld case, including motor, batteries, and all associated electronics, as well as a mounting system that both enables use on popular bike share bicycles and enables use on multiple different bicycle and scooter types, as well as other wheeled vehicles. By means of its mounting system, embodiments of the present invention enable the friction drive system to be easily and quickly installed and used on multiple varieties of bicycles, kick scooters, or other wheeled vehicles, and to be removed easily when no longer needed. And by means of its retractable motor assembly, which both minimizes the carrying size and protects the user from the motor or roller, embodiments of the present invention enable the friction drive system to be easily carried and stored when not in use, with the potentially dangerous and dirty motor roller enclosed safely inside the case. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  shows a front perspective view of an embodiment of the present invention by itself with the retractable motor assembly in a retracted state, with the motor drive assembly secured inside the carrying case for transport or storage. 
         FIG. 2  shows a front perspective view of an embodiment of the present invention by itself with the retractable motor assembly in an expanded state, with the motor drive assembly rotated out from the carrying case and in position to drive the tire or wheel. 
         FIG. 3  is a back perspective view of an embodiment of the present invention by itself with the retractable motor assembly in an expanded state, with the motor drive assembly rotated out from the carrying case and in position to drive the tire or wheel. 
         FIG. 4  is a perspective view of an embodiment of the present invention with the retractable motor assembly in an expanded state and mounted on a public bike share bicycle, with the motor drive assembly rotated out from the carrying case, locked onto the mounting bracket of the bicycle, and in position to drive the tire or wheel. 
         FIG. 5  is a side view of a public bike share bicycle showing the mounting bracket that an embodiment of the present invention is designed to attach to without any modifications. 
         FIG. 6  is a side view of a public bike share bicycle showing an embodiment of the present invention attached to the mounting bracket with the motor drive assembly rotated out from the carrying case, locked onto the mounting bracket of the bicycle, and in position to drive the tire or wheel. 
         FIG. 7  is a rear perspective view of the mount and front wheel of a public bike share bicycle showing the mounting bracket that an embodiment of the present invention is designed to attach to without any modifications. 
         FIG. 8  is a rear perspective view of the mount and front wheel of a public bike share bicycle showing the mounting bracket that an embodiment of the present invention is designed to attach to without any modifications and the motor drive assembly of the present invention attached and locked to the mount, placing the motor in position to drive the wheel. For clarity, the carrying case containing batteries and electronics is omitted from this drawing. 
         FIG. 9  is a cut-away view of the motor drive assembly installed on the mount of the public bike share bicycle, highlighting the sliding piston mechanism used to secure the motor drive assembly on the bike share bicycle mount. 
         FIG. 10  is a rear perspective view of the mount and front wheel of a public bike share bicycle showing an embodiment of the present invention carrying case and motor drive assembly attached and secured to the mount, placing the motor in position to drive the wheel. The carrying case containing batteries and electronics is shown as attached. 
         FIG. 11  is rear perspective view of an embodiment of the present invention with the top panel removed, showing the internal batteries and electronics that are contained within the device. 
         FIG. 12  is a front perspective view of a kick scooter with a custom mount with an embodiment of the present invention attached to it. 
         FIG. 13  is a front perspective view of an embodiment of the present invention installed on a kick scooter by means of the custom mount, with the motor drive assembly rotated out from the carrying case, locked onto the mounting bracket of the scooter, and in position to drive the front tire. 
         FIG. 14  is a rear perspective view of an embodiment of the present invention installed on a folding bicycle by means of a custom mount installed on the bicycle, with the motor drive assembly rotated out from the carrying case, locked onto the mounting bracket of the scooter, and in position to drive the front tire. 
         FIG. 15  is a perspective view of an embodiment of the present invention carried by a person in its uninstalled state, with the motor drive assembly retracted into the carrying case. 
     
    
    
     REFERENCE NUMERALS IN THE DRAWINGS 
     
         
           10  Portable friction drive system carrying case 
           12  Retractable motor drive assembly 
           14  Motor drive assembly pivot arms 
           16  Carrying handle for portable friction drive system 
           18  Drive motor or wheel for friction drive system 
           20  Public bike share bicycle 
           22  Public bike share docking mount 
           24  Front tires of public bike share bicycle 
           26  Front fork of public bike share bicycle 
           28  Plunger hole in docking mount 
           30  Mount receptacle 
           32  Sliding plunger mechanism for securing device to mounting hole in docking mount 
           34  Battery packs 
           36  Electronic control unit 
           38  Custom mount for kick scooter 
           40  Kick scooter front wheel 
           42  Kick scooter front fork 
           44  Custom mount for folding bicycle 
           46  Folding bicycle front tire 
           48  Folding bicycle front fork 
       
    
     DETAILED DESCRIPTION OF THE INVENTION 
     Referring now to the invention in more detail, in  FIG. 1  through  FIG. 15 , there is shown various embodiments of the present invention as a portable, multi-platform friction drive system with retractable motor drive assembly, along with various examples of it installed in the operating position of various bicycles and scooters. 
       FIG. 1  shows a perspective view of an embodiment of the present invention with the retractable motor drive assembly in a retracted state, with the motor drive assembly secured inside the carrying case for transport or storage. 
     The overall carrying case for an embodiment of the portable friction drive system  10  is pictured with the retractable motor drive assembly  12  in its stored position, attached to the carrying case via motor drive assembly pivot arms  14 . Optionally, the carrying case can include a carrying handle  16  for easy portability. 
       FIG. 2  shows a perspective view of an embodiment of the present invention with the retractable motor drive assembly in an expanded state, with the motor drive assembly rotated out from the carrying case and in position to drive the bicycle tire or scooter wheel. 
     The overall carrying case  10  is pictured with the retractable motor drive assembly  12  in its expanded position, swung out from the carrying case via rotation of the motor drive assembly pivot arms  14 . The motor drive assembly is now in position to place the drive motor or wheel  18  directly against the bicycle tire or scooter wheel to enable a friction drive mechanism. Optionally, the carrying case can include a carrying handle  16  for easy portability. 
       FIG. 3  shows a rear view of an embodiment of the present invention with the retractable motor drive assembly in an expanded state, with the motor drive assembly rotated out from the carrying case and in position to drive the bicycle tire or scooter wheel. 
     The overall carrying case  10  is pictured with the retractable motor drive assembly  12  in its expanded position, swung out from the carrying case via rotation of the motor drive assembly pivot arms  14 . The motor drive assembly is now in position to place the drive motor or wheel  18  directly against the bicycle tire, scooter wheel, or other vehicle wheel when the carrying case  10  is installed onto a suitable mount by means of inserting the mount into the mount receptacle  30  and connecting the motor drive assembly  12  to the mount, thereby pressing the drive motor or wheel  18  against the bicycle tire, scooter wheel, or other vehicle wheel. 
       FIG. 4  shows a front perspective view of a common bike share bicycle  20  with an embodiment of the present invention attached and ready for operation. 
     The overall carrying case  10  is pictured with the retractable motor drive assembly  12  in its expanded position, swung out from the carrying case via rotation of the motor drive assembly pivot arms  14 . The carrying case  10  and the motor drive assembly  12  are both mounted on to the bike share docking mount  22  by means of inserting the mount  22  into the mount receptacle  30  and connecting the motor drive assembly  12  to the mount  22 , so that the motor drive assembly  12  is now in position to press the drive motor or wheel  18  directly against the bicycle tire  24 . The drive motor or drive wheel  18  is now able to power the bicycle wheel when it is activated by the battery and controller contained in this embodiment, which are controlled by an external throttle (not shown) operated by the rider. Another embodiment could have the motor activation controlled by a Pedal Assist Sensor. 
       FIG. 5  shows a side perspective view of a common bike share bicycle  20  without a friction drive system attached. The public bike share docking mount  22 , used to dock the share bike in a bike share docking station, is clearly visible. 
       FIG. 6  shows a side perspective view of a common bike share bicycle  20  with an embodiment of the present invention mounted and attached to the public bike share docking mount  22 , by means of inserting the mount  22  into the mount receptacle  30  and connecting the motor drive assembly  12  to the mount  22 . The retractable motor drive assembly  12  is in its expanded position, rotated out from the carrying case via rotation of the motor drive assembly pivot arms  14 , and the motor drive assembly  12  is now in position to press the drive motor or wheel  18  directly against the bicycle tire  24 . The drive motor or drive wheel  18  is now able to power the bicycle wheel when it is activated by the battery and controller contained in this embodiment, which is controlled by the external throttle (not shown) operated by the rider. Another embodiment could have the motor activation controlled by a Pedal Assist Sensor. 
       FIG. 7  shows a rear perspective view of the front wheel area of the public bike share bicycle  20  without a friction drive system attached, highlighting the triangular docking mount  22  used by this bicycle to secure it in a bike share docking station, and also used as a mounting point for embodiments of the present invention. 
       FIG. 8  shows a rear perspective view of the front wheel area of a common bike share bicycle  20  with the motor drive assembly  12  attached by itself for clarity. The carrying case  10  and pivot arms  14  are excluded for illustration purposes. The motor drive assembly  12  is fastened to the public bike share docking mount  22  by means of the sliding plunger mechanism  32  contained inside the motor drive assembly  12  being inserted into the docking mount plunger hole  28   
       FIG. 9  shows a close-up perspective view of the front wheel area of a common bike share bicycle, demonstrating a cut-away view of the motor drive assembly  12  attached by itself to the mount  22  for clarity. The carrying case  10  and pivot arms  14  are excluded for illustration purposes. The motor drive assembly  12  is fastened to the public bike share docking mount  22  by means of the sliding plunger mechanism  32  contained inside the motor drive assembly  12  being inserted into the docking mount plunger hole  28 . 
       FIG. 10  shows a rear perspective view of the front wheel area of the public bike share bicycle  20 , now with the carrying case  10  and pivot arms  14  shown as in use. The carrying case  10  is positioned onto the triangular docking mount  22  by insertion of the docking mount  22  into the mount receptacle  30 , a triangular recess designed to fit exactly over the triangular docking mount  22 . The retractable motor drive assembly  12  is in its expanded position, swung out from the carrying case via rotation of the motor drive assembly pivot arms  14  and attached to the docking mount  22  via the plunger hole in docking mount  28  by means of insertion of the sliding plunger mechanism  32 . Thus the carrying case  10  is also held firmly in place by the pivot arms  14 , which are held in place firmly by the retractable motor assembly  12 . The drive motor or wheel  18  is now in position to drive the front wheel  24  via friction drive. 
       FIG. 11  shows a cut-away view of the inside of the carrying case  10 , exhibiting the battery packs  34  and electronic control unit  36  contained inside. 
       FIG. 12  shows the front wheel  40  and front fork  42  of a kick scooter along with the custom mount  38  for said kick scooter that replicates closely the bike share docking mount  22  and thus enables embodiments of the present invention to attach to the kick scooter and power it via friction drive in the same manner as it attaches to the bike share bicycle. 
       FIG. 13  shows an embodiment of the present invention mounted to the kick scooter of  FIG. 12  by means of inserting the custom mount  38  into the mount receptacle  30 , rotating out the motor drive assembly  12  and fastening it to the custom mount  38  by means of inserting the sliding plunger  32  Into the plunger hole of the custom mount  38 , thereby securing both the carrying case  10  and the motor drive assembly  12  in position to press the drive motor or wheel  18  into the kick scooter front tire  40  and power the kick scooter via friction drive when the motor is activated. 
       FIG. 14  shows an embodiment of the present invention mounted to a custom mount for a folding bike  44  that replicates closely the bike share docking mount  22  by means of inserting the custom mount  44  into the mount receptacle  30  in the carrying case  10 , rotating out the motor drive assembly  12  and fastening it to the custom mount  44  by means of inserting the sliding plunger  32  into the plunger hole of the custom mount  44 , thereby securing both the carrying case  10  and the motor drive assembly  12  in position to press the drive motor or wheel  18  into the folding bike front tire  46  and power the folding bike via friction drive when the motor is activated. 
       FIG. 15  shows an embodiment of the present invention carried by a person by means of the handle  16  while the retractable motor drive assembly  12  is contained inside the carrying case  10 , thereby rendering the unit as compact as possible, protecting the person from dirt and debris on the motor, and further protecting the person from any possible danger caused by accidental activation of the drive motor or wheel. 
     In further detail, still referring to the embodiment of  FIG. 1  through  FIG. 15 , the motor drive assembly pivot arms  14  are both attached to the portable friction drive system carrying case  10  via a pivoting hinge. Additionally, the retractable motor assembly  12  is attached to both motor drive assembly pivot arms  14  via a rotating hinge mechanism so that the retractable motor assembly  12  can rotate freely as the motor drive assembly pivot arms  14  swing inside the carrying case  10  for retraction while the friction drive system is not in use or swing outside the carrying case  10  for extension while the friction drive system is in use. 
     This enables the retractable motor assembly  12  to rotate such that the drive motor or wheel  18  is protected inside the case when the portable friction drive system is not in use and being transported. And this enables the retractable motor assembly  12  to rotate such that the drive motor or wheel  18  is exposed and in a position to drive the tire or wheel when the portable friction drive system is in use and mounted to a bicycle, scooter, or other wheeled vehicle. 
     While this embodiment is shown installing on a mount adjacent to the front wheel for front-wheel friction drive, other embodiments of the present invention could similarly install on a mount adjacent to the rear wheel and drive the rear wheel via friction drive in a similar manner. 
     Also, while this embodiment is shown installing on and interfacing with a triangular shaped mounting bracket common to a specific type of public bike share bicycles (model PBSC/Alta/Bixi shown as example), other embodiments could utilize multiple different types and shapes of brackets, including but not limited to rectangular brackets, cylindrical brackets, T-shaped brackets, L-shaped brackets, or others, as well as different sizes and configurations of mounting and docking points. 
     Further, while this embodiment is designed and tailored for bicycles and kick scooters, other embodiments of the present invention might have it configured and installed on other wheeled personal transport vehicles, including but not limited to freight bicycles, tandem bicycles, recumbent bicycles, trikes and tricycles, quadracycles, handcycles, rowing cycles, cabin cycles, velomobiles, cycle rickshaws, paddle boats, water cycles, hydrofoils, skateboards, wheelchairs, strollers, and other human powered vehicles or personal transport vehicles. 
     The construction details of the embodiments of the invention as shown in  FIG. 1  through  FIG. 15  are that the carrying case  10 , retractable motor assembly  12 , motor drive assembly pivot arms  14 , carrying handle  16 , and sliding plunger mechanism  32 , as well as the custom mounts  38  and  44  and any other custom mounts designed for other bicycles, kick scooters, or other wheeled vehicles may be made of plastic, metal, or any other sufficiently rigid and strong material such as high-strength plastic, metal, and the like. The drive motor or wheel  18  can be engineered as an outrunner-type direct motor friction drive or as a secondary friction drive wheel powered by a separate motor. Further, the various components can be made of different materials. 
     Additionally, desired speed and power inputs from the rider can come from a wired or wireless throttle held by the rider or attached to the bicycle or scooter, or from a Pedal Assist Sensor installed on the bicycle pedals or cranks and connected to the present invention by a wired or wireless connection. 
     The advantages of embodiments of the present invention include, without limitation, reduced size when the friction drive system is not in use and the motor assembly has been retracted into the carrying case. Additionally, because of the pivoting and retracting motor assembly mechanism, the motor drive assembly is not exposed when it is retracted into the carrying case, thus protecting the user from dirt and grime that accumulates on the drive wheel or motor. Further, the pivoting and retracting motor assembly mechanism which results in the motor drive assembly being enclosed when it is retracted into the carrying case protects the user from injury should there be an accidental activation of the drive motor or wheel while the portable friction drive system is being transported. 
     The advantages of embodiments of the present invention for bike share bicycle use include, without limitation, the ability to use electric power to ride a bike share bicycle without requiring the expense or complexity of conventional electric bicycles, which typically require battery swap functionality and multi-battery docking stations for bike share use. Additionally, embodiments of the present invention allows individuals to add electric power to a bike share bicycle when it would otherwise not be available. This allows individuals to experience the benefits of electric bicycles including reduced effort, faster speed, and longer range, while taking advantage of the benefits of a bike share program. Embodiments of the present invention also allows bike share operators to benefit from increased membership due to the attractiveness of electric power to individuals, and higher asset utilization of their bike share fleet, as the higher speeds enabled by electric power shorten the time needed for an individual to complete a trip and allow the bike to be returned to the dock and checked out by another user more quickly. 
     The advantages of embodiments of the present invention to non-bike share bicycle use include, without limitation, the ability to add or remove electric friction drive power to a standard non-electric bike in seconds, the ability to use electric friction drive on multiple bikes interchangeably, the ability to use electric friction drive on multiple kick scooters interchangeably, and the ability to carry spare electric friction drive power in a briefcase or bag to be used whenever it is needed. 
     While the foregoing written description of various embodiments of the Invention enables one of ordinary skill to make and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific embodiments, methods, and examples herein. The invention should therefore not be limited by the above described embodiments, methods, and examples, but by all embodiments and methods within the scope and spirit of the invention.

Technology Category: 2