Abstract: A central endless drive track is disposed below the seat of a snowmobile. At least two left wheels are operatively connected to a left track frame disposed forwardly of the seat. A left track engages the left wheels. A left brake is connected to the left track frame and selectively engages one of a first left wheel and the left track to brake the left track. At least two right wheels are operatively connected to a right track frame disposed forwardly of the seat. A right track is disposed around the right wheels. A right brake is connected to the right track frame and selectively engages one of a first right wheel and the right track to brake the right track. A brake lever causes the left and right brakes to brake the left and right tracks respectively.
Type:
Grant
Filed:
November 27, 2009
Date of Patent:
September 18, 2012
Assignee:
Bombardier Recreational Products Inc.
Inventors:
Daniel Mercier, Guillaume Longpre, Alain Massicotte, Etienne Guay
Abstract: A vehicle comprising a seat defining a driver seat portion and a passenger seat portion, an electronic stability system, adapted to receive inputs from a load sensor, a wheel rotation sensor and a lateral acceleration sensor, the electronic stability system adapted to provide outputs to at least one of the brake system for braking the vehicle, and the engine control unit to change the power output transmitted to the wheels by the engine, the electronic stability system using a first calibration to determine the outputs when the load sensor is in a non-loaded state and a second calibration to determine the outputs when the load sensor is in a loaded state.
Abstract: A vehicle has a straddle-type seat disposed on a frame. The straddle-type seat has at least one seating portion. A steering device is disposed forwardly of the seat. Left and right side supports are disposed laterally of the seating portion. The side supports have respective support surfaces facing laterally inwardly. The left and right support surfaces move in a direction of a current lateral acceleration of the vehicle in response to a current lateral acceleration of the vehicle. The left and right support surfaces move in a direction of a current rotation of the steering device in response to a current degree of rotation of the steering device. The support surfaces move in a direction of the longitudinal centerline of the vehicle when a force is exerted thereon in a direction opposite a current lateral acceleration of the vehicle. A method of supporting a rider is also described.
Abstract: A snowmobile has a four-stroke engine mounted in an engine cradle and an exhaust system connected to the engine. The exhaust system includes a generally U-shaped exhaust pipe extending forwardly from the engine to a first point disposed forwardly of the engine cradle, and of suspension assemblies of the skis, and extending rearwardly from the first point to a second point disposed rearwardly of a front of the engine cradle.
Abstract: A personal watercraft is disclosed, having a straddle-type seat disposed on a deck. The seat has a seat profile. A storage compartment is disposed rearwardly of the seat. A rear platform is pivotally connected to a rear portion of the watercraft. The rear portion has a raised portion protruding therefrom. The raised portion of the rear portion forms at least in part the storage compartment. The rear platform permits access to the storage compartment when in a raised position, and sealingly closes the storage compartment when in a lowered position. A highest point of the rear platform is disposed lower than the seat profile when the rear platform is in the lowered position.
Type:
Grant
Filed:
April 6, 2010
Date of Patent:
August 21, 2012
Assignee:
Bombardier Recreational Products Inc.
Inventors:
Kim Ross, Sebastien Clement, Andre Cote, Richard Simard, Gilbert Lefrancois
Abstract: A method of operating a leaning vehicle is described. The method includes: determining a steering torque exerted on a steering assembly; determining a speed of travel of the vehicle; determining a leaning angle of a frame of the vehicle with respect to a reference angle; and exerting a leaning torque on the frame relative to a pivotable frame member about a pivot axis in a first direction using an actuator in response to a steering torque exerted on the steering assembly in a second direction opposite the first direction when a speed of travel of the vehicle is above a threshold speed, thereby causing the vehicle to turn in the first direction.
Abstract: A vehicle (1) having a frame, at least two wheels (14, 16), a straddle seat (28), a handlebar (18) with first (20) and second (22) handles, an engine (30), and a semi-automatic transmission (32). A reverse actuator (152) is electronically connected to a control unit (46) of the semi-automatic transmission. At least one shifter (108) is electronically connected to the control unit such that moving the at least one shifter to an up-shift position causes the control unit to send a signal to the semi-automatic transmission to shift up and moving the at least one shifter to the down-shift position causes the control unit to send a signal to the semi-automatic transmission to shift down. The control unit sends a signal to the semi-automatic transmission to select the at least one reverse gear (34) only when the reverse actuator is actuated while the at least one shifter is moved. A method of controlling a semi-automatic transmission is also disclosed.
Abstract: A railway truck has two wheel sets, a bolster, and two side frames each having a bolster opening. At least one friction plate is connected to one of the bolster openings, a car body, and end portions of the bolster and extends generally vertically. Two suspension assemblies operatively connect the bolster to the side frames. Each suspension assembly includes at least one load supporting spring biasing a corresponding end portion of the bolster upwardly, two wedges disposed on either side of the at least one friction plate, and two springs biasing the wedges. Each wedge has a generally vertical and a sloping face. The two springs bias the sloping faces of the wedges against corresponding sloping faces provided in one of the bolster openings and end portions of the bolster such that the generally vertical faces of the wedges are pressed into contact with the at least one friction plate.
Abstract: A vibration-based power generator has a variable stiffness oscillator connected to a base. The oscillator comprises an inertial mass moving relative to the base in response to vibrations. The oscillator has a neutral position corresponding to a position of the oscillator when no vibrations are transmitted to the base. The oscillator has a first position where the mass is at a first distance and a second position where the inertial mass is at a second distance from a position of the mass when the oscillator is in neutral position. The second distance is greater than the first distance. A stiffness of the oscillator at the second position is greater than a stiffness of the oscillator at the first position. A transducer generating electric power in response to movement of the inertial mass is associated with the oscillator. A method of optimizing a vibration-based power generator is also presented.
Abstract: A method of making a casting is disclosed. At least one support member has at least one first portion and a plurality of second portions connected to a mold core. The mold core is positioned at least in part in a sealed interior volume of a negative mold. The first portion is positioned outside the interior volume. The second portions are positioned at least in part inside the interior volume. A consumable pattern material is introduced into the negative mold to create a consumable pattern. The support member is disposed at least in part outside the consumable pattern. The consumable pattern is removed from the negative mold. A shell is formed around the consumable pattern. A casting material is introduced into an interior of the shell to create a final casting. The support member is disposed at least in part outside the final casting. A mold core is also described.