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A treadmill exercising apparatus comprising a generally planar frame equipped with an inclinable, planar slider bed, a driving head roller, and an idler tail roller, both journalled in the slider bed and respectively at the head and tail ends of the frame, over which an endless belt, formed by a low

A treadmill exercising apparatus comprising a generally planar frame equipped with an inclinable, planar slider bed, a driving head roller, and an idler tail roller, both journalled in the slider bed and respectively at the head and tail ends of the frame, over which an endless belt, formed by a low long term creep or stretch resistant synthetic resin extruded film, oriented of polyester or nylon, is trained, with the slider bed having a top slider surfacing formed from one of the same materials or from Masonite hardboard sheeting, across which the upper run of the belt rides, with the head and tail rollers each being formed from a rigid metallic material and provided with a belt centering crown, which, at least in the case of the driving head roller, is provided with an elastomeric coating or covering that defines the crown surfacing, whereby the coefficient of dynamic friction of the belt riding on the treadmill slider bed is no more than about 0.22, while the coefficient of static friction between the crown surfacing of the treadmill driving roller and the belt is no less than about 0.4, with the belt also being adjustably tension against the rollers to be in slip free tight relation thereto under a tension that is a nominal fraction of the tensile strength of the belt, thereby providing maximized driving efficiency with minimum energy requirements that permit the use of an electric drive motor for walking exercise use of the treadmill that may be less than one horsepower.

대표청구항 ▼

In a walking exercise treadmill that includes a generally planar slider bed frame a head end and a tail end, with the slider bed frame defining a slider bed having a flat top surfacing extending substantially between said frame ends and defining an upwardly facing slider surface, a head roller journ

In a walking exercise treadmill that includes a generally planar slider bed frame a head end and a tail end, with the slider bed frame defining a slider bed having a flat top surfacing extending substantially between said frame ends and defining an upwardly facing slider surface, a head roller journalled in said frame adjacent said frame head end, a tail roller journalled in said frame adjacent said frame tail end, an endless belt trained over the head and tail rollers and the slider bed frame, including an upper belt run overlying and riding on the slider bed top surfacing, and a lower run disposed under the slider bed between the ends thereof, and means for driving said belt for movement of the belt upper run from the slider bed head end to the slider bed tail end across and along the slider bed slider surfacing and for movement of the belt lower run between the slider bed ends, the improvement wherein slippage of the belt at the rollers for walking exercise use of the treadmill is avoided for users of up to about two hundered pounds of weight when the said belt driving means is actuated by an electric motor of no more than about one horsepower, said improvement comprising: the belt being formed by an oriented plastic material of low long term stretch resistance characteristics, and having a thickness lying in the range of from about 0.010 inch to about 0.030 inch, with the treadmill rollers being formed from a rigid metallic material and each having a belt centering crown, with said crown of the head roller having a dimension lengthwise of the head roller that approximates the width of the belt and being formed from an elastormeric material, and with said crown of the tail roller having a dimension lengthwise of the tail roller that approximates the width of the belt and is of corrosion resistant characteristics, with rollers being disclosed adjacent the respective ends of the slider bed frame in essentially oppositely disposed bend roller relation to the belt, with the tail roller being journalled in said frame, adjacent the tail roller respective ends, beyond said crown thereof by separate bearing devices that are mounted for independently adjusting the tail roller ends in a distance range longitudinally of the slider bed frame for centering the belt when moving relative to the slider bed frame with the belt side edges engaging the crown surfacing of the respective head and tail rollers for correct tracking of the belt relative to the slider bed and the head and tail rollers when the belt is moved relative thereto, with the head roller being journalled in said frame, adjacent the head roller respective ends, by bearing devices that are secured with respcet to said frame, with the belt having a coefficient of static friction relative to said head roller crown that is at least approximately 0.4, and the belt having a coefficient of dynamic friction relative to the bed surfacing that is no more than about 0.22, with the slider bed surfacing being lubricant free, with the belt being tensioned against the rollers in slip free relation thereto under a pull force acting to bias the rollers toward each other that is in the range of from about one hundered pounds to about two hundred fifty pounds, said distance range of the tail roller separate bearing devices be proportioned for stretching each run of the belt, adjacent the belt midportion, up to about one inch, while maintaining said pull force in said range thereof, and with the driving means including means for coupling said motor to the head roller for the driving of the belt thereby.